SURVEY OF COMMERCIALLY AVAILABLE
CATALYST AND SORBENT MATERIALS
to
NATIONAL AIR-POLLUTION CONTROL ADMINISTRATION
(Contract PH-86-68-84, Task 13)
BATTELLE MEMORIAL INSTITUTE
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SUMMARY REPORT
on
SURVEY OF COMMERCIALLY AVAILABLE
CATALYST AND SORBENT MATERIALS
to
NATIONAL AIR-POLLUTION CONTROL ADMINISTRATION
(Contract PH-86-68-84, Task 13)
July 17, 1969
by
R. H. Cherry, Jr., D. P. Moon, S. A. Rubin, and R. T. Niehoff
Reviewed by G. F. Sachsel
and R. J. Favor
BATTELLE MEMORIAL INSTITUTE
Columbus Laboratories
505 King Avenue
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Baltelle Memorial Institute - COLUMBUS L
ABORATORIES
505 KING AVENUE COLUMBUS, OHIO 43201 • AREA CODE 614, TELEPHONE 299-3151 • CABLE ADDRESS: BATMIN
November 4, 1969
Mr. Mark Hooper
Process Control Engineering Division
National Air Pollution Control
Administration
5710 Wooster Pike
Cincinnati, Ohio 45227
Dear Mr. Hooper:
Summary Report
Contract PH-86-68-84, Task 13
"Survey of Commercially Available Catalyst
and Sorbent Materials"
Enclosed are 20 copies of the summary report on Task 13, in which is
assembled the available information on approximately 360 commercial catalysts,
carriers, and sorbent materials.
This survey is useful in its present form for data storage and compar-
ison, for screening, and as a decision-making tool. It cannot provide the
guidelines or criteria for designing or choosing new catalyst-material candidates.
These must still be supplied by experience, and by knowledge of general trends as
reflected by similar successful applications.
The detailed information necessary for the evaluation or estimation of
the physical strength of materials of interest is generally not given in the
printed manufacturers' information used as a basis for this survey. Any approach
to the evaluation of physical strength as a function of temperature and gaseous
environment must be based on practical knowledge, past experience, and common
sense. It is known that catalytic or sorbent activity and physical strength are
frequently opposed. Rapid temperature cycling, which may be caused by high
local rates of heat release by chemical reaction, is often cited as a major cause
of loss of physical integrity.
At the present time it is feasible to select catalyst and sorbent
materials from this survey only on the basis of probable physical stability in the
required gaseous environments, and this only on a practical, common sense basis.
Chemical stability and catalytic activity cannot be determined or inferred from
the information surveyed, with the exception that given materials are known to
have been applied in specific process systems designed for the abatement of SO
or NO emissions.
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Mr. Mark Hooper 2 November 4, 1969
The program logic and computer software developed for this task can
be expanded both in size and in ability to handle automatic search procedures,
which are done manually at the present time. The general-purpose program is
capable of expansion up to the limits of any available computer compatible
with a FORTRAN IV program format.
Sincerely yours,
R. H. Cherry, Jr.
Chemical Process Development
Division
RHC:ljr
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TABLE OF CONTENTS
INTRODUCTION ......... 1
SUMMARY c 2
RESULTS . . . 2
Acquisition of Information . . „ „ 2
Sorting and Tabulation of the Available Information .... ^
DISCUSSION . . 6
General Considerations .... 6
Practical Considerations . . . . „ « 7
Physical Stability ......... . 7
Chemical Stability ..... . 8
Cost Data 8
Examples of the Use of This Survey 8
CONCLUSIONS AND RECOMMENDATIONS 10
BIBLIOGRAPHY n
APPENDIX A
MULTIPLE-ENTRY MASTER TABLES FOR QUICK COMPARISONS
APPENDIX B
SORTED, SINGLE-VALUED SEARCH LISTS FOR SELECTED PROPERTIES
APPENDIX C
SELECTED, TWO-VALUED COMPARISON TABLES
APPENDIX D
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TABLE OF CONTENTS (Continued)
APPENDIX E
THESAURUS OF CODES IDENTIFYING THE MATERIALS MANUFACTURERS
APPENDIX F
BLITZ TABLES: THE AVAILABLE INFORMATION FOR EACH MATERIAL
LIST OF TABLES
TABLE 1. LIST OF PROPERTIES TABULATED FOR EACH MATERIAL
TABLE A-l MASTER TABLE SORTED ON MATERIAL CODE
TABLE A-2 MASTER TABLE SORTED ON CLASSIFICATION
TABLE A-3 MASTER TABLE SORTED ON COMPOSITION
TABLE B-l COST AND SECONDARY COMPOSITION
TABLE B-2 SECONDARY COMPOSITION
TABLE B-3 AVAILABLE SIZES
TABLE B-4 AVAILABLE SHAPES
TABLE B-5 CRUSHING STRENGTH
TABLE B-6 HARDNESS
TABLE B-7 PORE SIZE
TABLE B-8 PORE VOLUME
TABLE B-9 SURFACE AREA
TABLE B-10 BULK DENSITY
TABLE B-ll CRYSTALLINITY
TABLE B-12 CRYSTALLITE SIZE
TABLE B-13 IGNITION LOSS
TABLE B-14 PARTICLE DENSITY
TABLE B-15 MAXIMUM SERVICE TEMPERATURE
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TABLE OF CONTENTS (Continued)
TABLE C-l PORE VOLUME VS. PORE SIZE
TABLE C-2 SURFACE AREA VS. PORE SIZE
TABLE C-3 SURFACE AREA VS. MAXIMUM TEMPERATURE
TABLE C-4 BULK DENSITY VS. PARTICLE DENSITY
TABLE C-5 BULK DENSITY VS. ATTRITION
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SURVEY OF COMMERCIALLY AVAILABLE
CATALYST AND SORBENT MATERIALS
(Contract PH-86-68-84, Task 13)
(Mark Hooper, Project Monitor)
by
R. H. Cherry, Jr., D. P. Moon, S. A. Rubin, and R. T. Niehoff
INTRODUCTION
The National Air Pollution Control Administration is currently expending
considerable effort to develop large-scale systems for controlling SO- and S0_
emissions from stationary sources. A similar, more recently initiated effort aimed
at the development of processes to control NO emissions is also in progress.
One way to control SO and NO emissions in stationary-source flue gases
involves treatment of the gases with a sorbent or catalyst which will sorb and/or
react specifically with these pollutants and so remove them from the gas stream.
Several NAPCA projects have been aimed at the preparation of reactive, stable, and
physically-tough sorbents for SO removal.
A
It has been suggested that a knowledge of the characteristics of all, or
at least a representative sampling, of the commercially-available catalysts,
catalyst supports, and sorbents that have been developed for other purposes might
prove useful in indicating which specific materials warrant consideration in a
program for the development of sorbents and catalysts for SO or NO control. A
survey of the properties, uses, and costs of commercially available materials
might help NAPCA to limit consideration to those groups of materials which are
practical in terms of cost,apparent physical stability, and other factors.
Based on published and available manufacturer's information, an abbre-
viated catalog of catalyst, carrier, and sorbent materials has been prepared.
Information on types, properties, usages, and costs (where available) has been
collected. This information has been extracted and assembled for sorting, adjusting,
arranging, and printing in logically meaningful arrays using a specially-developed
Fortran IV catalog logic compatible with Battelle's CDC 6400 digital computer.
The catalog logic and computer algorithm have been arranged to permit
sorting and classifying the list of materials and materials properties according
to function or type of material as well as composition. Listed physical properties,
where available, include:
- available sizes
- available shapes
- hardness
— crushing strength
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- pore volume
- surface area
- bulk density
- crystallinity
- crystallite size
- maximum operating temperature
- attrition rate
- loss on ignition (or valatility).
In addition, the stated current uses, and other pertinent comments on the material,
are listed.
NAPCA is interested in assessing, if possible, the physical strength of
these materials at temperatures ranging from 300-1500 F in gaseous environments
including a typical power plant flue gas, hydrogen, steam, carbon monoxide, and
carbon dioxide. This information, in the main, is not available from the published
brochures that were the source of input information in this work.
SUMMARY
The available information on approximately 360 commercial catalysts,
catalyst carriers, and sorbent materials has been collected, assembled, and sorted
to produce the 26 tabulations of Appendixes A, B, C, and F.
This catalyst materials survey is useful in its present form for data
storage and comparison, for screening, and as a decision-making tool. It cannot
at present provide the guidelines or criteria for designing or choosing new
catalyst-material candidates. These must still be supplied by experience, and by
knowledge of general trends as reflected by similar successful applications.
R ESULTS
A general-purpose, data storage and retrieval program has been written
in FORTRAN IV language, specifically for Battelle's CDC 6400 computer system, and
capable of expansion up to the limits of any available computer compatible with
a FORTRAN IV system. The program logic and operation are discussed in detail
in Appendix D which contains a detailed description of the program options
available to the user, as well as the FORTRAN IV source deck listing, and the
command deck listing.
Acquisition of Information
The information processed in this study has been obtained from brochures,
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sorbent manufacturers. From these published brochures all the available infor-
mation on approximately 360 materials has been extracted and punched into cards
for input to the computer program.
Each material is given a code number. For each material, there are
20 coded pieces of information, each piece consisting of both numeric and
alphanumeric parts. Each numeric value may be augmented by up to 30 spaces of
appropriate comments. These codes are listed in Table 1.
It should be noted that all this information, while desirable, is
simply not available in the published information supplied by the manufacturers.
The effort required, for example, to actually fill up completely the
input-data table so that each material has listed all 20 of its properties would
require a tremendous effort. In fact, most of this information may not be avail-
able even if each company were questioned specifically for information which does
not appear in their printed material. One therefore hopes to strike a balance
between the time it would take to supply complete information against the need
for completeness. These, of course, are judgments of a technical and economic
nature.
Sorting and Tabulation of the Available Information
At present, information on approximately 360 materials has been included
in the data store. This information has been sorted and processed as follows.
In Appendix A, three master tables have been prepared for quick comparison of the
available alphanumeric information. Table A-l has been sorted on increasing value
of the material code. Table A—2 has been sorted on name and classification.
Table A-3 has been sorted on material composition. All three tables contain the
same information:
Column Information
1 Material code
2 Name and classification
3 Composition
4 Major uses
5 Major uses, continued
6 Comments
7 Material code
These three tables present the alphanumeric information that has not been presented
elsewhere. The information has been sorted three ways to make it easier for the
user to identify materials of interest when the material code, or the name, or the
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TABLE 1. LIST OF PROPERTIES TABULATED FOR EACH MATERIAL
Property
Code
01
02
03
04
05
06
07
08
09
10
11
12
13
14
15
16
17
18
19
20
Property or
Information
Name
Composition
Cost/secondary
material
Size
Shapes
Crushing strength
Hardness
Average pore size
Pore volume
Surface area
Bulk density
Crystallinity
Crystallite size
Major uses
Major uses
Volatility or loss
on ignition
Particle density
Maximum usage
temperature
Attrition
Comments
Units of
Numeric
Field
None
None
$/ton
—
—
lbF
—
Angstroms
cc/gm
2,
m /gm
lb/ft3
None
Angstroms
."
—
Percent
loss
lb/ft3
°F
Percent
--
Remarks Pertaining to
Alphanumeric Field
CAT = catalyst, CRR = carrier or support,
SOR = sorbent, followed by appropriate
name of catalyst and base, or carrier,
or sorbent
Alphanumeric only
Secondary components if known or specified
As specified here
Alphanumeric only
With pellet size or comment
Shows units
Descriptive only (e.g., oc - alumina)
Temperature given, if specified
Highest temperature recommended in
service or during regeneration
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Appendix B contains 16 single-valued search tables:
Table Contents
B-l Cost, Secondary Composition
B-2 Secondary Composition
B-3 Available Sizes
B-4 Available Shapes
B-5 Crushing Strength
B-6 Hardness
B-7 Pore Size
B-8 Pore Volume
B-9 Surface Area
B-10 Bulk Density
B-ll Crystallinity
B-12 Crystallite Size
B-13 Ignition Loss
B-14 Particle Density
B-15 Maximum Service Temperature
B-16 Attrition
Each table has been sorted and arranged in increasing numeric Cor alphanumeric)
order of the information in the first column of each table . Numeric values of
zero have not been printed, provided that the alphanumeric field is also blank.
Hence, each of the B-tables presents all the information presently in the infor-
mation store on each of the categories listed above. For example, Table B-12
shows that the crystallite size for only one material, out of the 360-odd
materials catalogued, is known at present.
Appendix C contains six two-valued comparison tables:
Table Numeric Values Compared
C-l Pore volume, pore size
C—2 Surface area, pore size
C-3 Surface area, maximum temperature
C-4 Bulk density, particle density
C-5 Bulk density, attrition
C-6 Attrition, hardness
The C tables have been sorted in increasing numeric value of the property in the
first column Cexcluding the material code). Zero values of this first property
have been deleted and do not appear in the Tables. The column containing the
second numeric value often contains many zero (blank) entries. These tables serve
to indicate the extent to which both numeric property values are known at the
present time.
* Not including the material-code column. Tables B-3 and B-4 have been sorted
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As a result of the lack of more complete information, it is not known
whether any empirical trends or correlations actually exist or might be developed.
Appendix E provides a listing of the material codes to permit identi-
fication of the manufacturer and the manufacturer's designation of the material.
This Thesaurus also provides the address and telephone number at the main or home
office of the manufacturer.
DISCUSSION
General Considerations
This survey has been motivated in part by the need to address the
question: can one or more commercially-available catalyst, catalyst carrier, or
sorbent materials be used to accomplish one or more desired physical or chemical
changes that are important to the control of gaseous pollutant emissions from
stationary sources? While a detailed answer to this question is probably not
immediately available, the ongoing research and development activities of NAPCA
might well be aided by even a partial answer to a related but much less difficult
question: what kinds of commercially-available materials warrant further
consideration for possible inclusion in testing programs, and what are some
specific likely candidates?
These remarks differ only slightly insofar as each of the materials
categories listed above might enter into a heterogenous process based in part on
chemisorption. A catalyst carrier itself may be a sorbent, or may be catalytically
active without further treatment. Sorbents also are used as carriers, and
presumably might be made catalytically active in terms of some specific chemical
reaction or reaction step.
The factors that determine the effectiveness of a particular catalyst
in a particular situation are still obscure despite the expenditure of enormous
amounts of R & D dollars. Development of a new catalyst tends to be frustrating,
time consuming, and expensive. Attempts to apply available catalysts to systems
other than those in which they have been proved effective might well be as
difficult and as expensive as the development of completely new catalysts.
There is general agreement that the key to catalyst activity lies in
the catalyst structure, both microscopic and macroscopic. ^» ^» •*» 4, 5, o) ^
The activity of a given catalyst or sorbent frequently depends on the precise
method of preparation and activation, which may greatly influence the physical
and chemical properties. The history of a solid material is important since the
material may be exposed to chemical poisons, or may be rendered unusable as in
the flaking caused by a highly exothermic reaction.
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Practical Considerations
The above discussion indicates that there is presently no generalized
theoretical framework for systematic selection of catalysts. Hence, simple
practical knowledge must dominate any process of choosing catalyst candidates
for further testing. The existing knowledge of past catalyst types serves as a
guide.
Once the reaction type has been established, certain classes of catalysts
can be chosen immediately on the basis of past successful applications to similar
type reactions: d»2)
Catalyst
Reaction Type Examples
Oxidation metal oxide V9°5' W03' ^2°' Fe2°3' Ni°
Hydrogenation metals Ni, Pt, Pd, Fe, Cu, Ag
Dehydration metal oxides A12°3' Si°2» Mg°> Th°2
Cracking acidic SKL-Al-O, (molecular sieves) ,
H3r64, 1>4
Toro and Weinstein (8) suggest that the alkalized alumina material that has been
used to date behaves primarily as a sorbent but also as a catalyst during the
regeneration step. It is an oxidation catalyst with respect to the reducing gases
H_ and CO. One would guess on the basis of the tabulation above that such a
catalyst would contain alumina (Al-O^), possibly an alkali or alkaline earth
promoter or cocatalyst, and possibly some trace of a transition metal oxide such
as Fe^O.,. Since the material functions primarily as a sorbent in the slightly
oxidizing atmosphere during exposure to the flue gas and sorption of the S02,
the alumina substrate must be activated (must possess adsorption sites and a
porous structure). Sulfur is recovered from the alkalized alumina (AA) process
via the Claus oxidation of hydrogen sulfide and reduction of SO- over a natural
or modified bauxite material. It is known that the AA sorbent does not possess
sufficient physical stability to permit this process to compete economically
with other SO control processes.
Physical Stability
Any approach to the evaluation of physical strength as a function of-
temperature and gaseous environment must be based in the main on practical
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the printed material supplied by catalyst manufacturers. A material which is
stable and possesses hardness and attrition resistance sufficient to withstand
the required physical handling during processing at 300 F quite probably will
be adequately stable in flue gas at 1500 F, provided that temperature changes
occur slowly enough to avoid excessively high temperature gradients within the
solid particles. The difficulty is that very few materials except the hard or
dense aluminas seem to exhibit high hardness, crushing strength, and attrition
resistance. These aluminas may be less useful as carriers, sorbents, or
catalysts than the less physically hardy varieties of alumina and other materials,
i.e., physical stability and catalytic or sorbent activity are frequently opposed.
Rapid temperature cycling, often coupled with a high local rate of heat release
(by chemical reaction), seems to present the biggest obstacle to long-term
physical stability for those materials which are of interest from the standpoint
of catalytic activity.
Chemical Stability
The chemical stability of the carrier materials such as the aluminas
is not seriously in doubt in the temperature range 300-1500 F in mildly
oxidizing and strongly reducing atmospheres. This says nothing about the
stability of catalytic activity of catalysts prepared on otherwise stable carriers.
The catalyst manufacturers supplied almost no direct information on this topic,
nor is such information available elsewhere. Based on the remarks above
regarding the strong influence of preparation and activation procedures on
activity, it is not unreasonable to suggest that the qiestion of chemical stability
of catalyst activity can only be answered experimentally.
Cost Data
Manufacturers were most reluctant to supply cost information for this
study. The costs reported here were obtained by telephone calls to persons at
the management level (as distinct from sales personnel) in the company organi-
zations, and cannot be considered formal quotations. In general, catalyst costs
are subject to negotiation, and are sensitive to change in the price of raw
materials, demand, supply and other factors. The available costs reported here
were computed on the basis of dollars per ton in lots greater than 50 tons, F.O.B.
the manufacturer's plant location.
Examples of the Use of this Survey
The catalog of catalysts, carriers, and sorbents provides a listing
for comparison purposes of the material, its present uses, and approximate
composition along with pertinent comments about its present use, cost, poisons,
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the printed material supplied by catalyst manufacturers. A material which is
stable and possesses hardness and attrition resistance sufficient to withstand
the required physical handling during processing at 300 F quite probably will
be adequately stable in flue gas at 1500 F, provided that temperature changes
occur slowly enough to avoid excessively high temperature gradients within the
solid particles. The difficulty is that very few materials except the hard or
dense aluminas seem to exhibit high hardness, crushing strength, and attrition
resistance. These aluminas may be less useful as carriers, sorbents, or
catalysts than the less physically hardy varieties of alumina and other materials,
i.e., physical stability and catalytic or sorbent activity are frequently opposed.
Rapid temperature cycling, often coupled with a high local rate of heat release
(by chemical reaction), seems to present the biggest obstacle to long-term
physical stability for those materials which are of interest from the standpoint
of catalytic activity.
Chemical Stability
The chemical stability of the carrier materials such as the aluminas
is not seriously in doubt in the temperature range 300-1500 F in mildly
oxidizing and strongly reducing atmospheres. This says nothing about the
stability of catalytic activity of catalysts prepared on otherwise stable carriers.
The catalyst manufacturers supplied almost no direct information on this topic,
nor is such information available elsewhere. Based on the remarks above
regarding the strong influence of preparation and activation procedures on
activity, it is not unreasonable to suggest that the qiestion of chemical stability
of catalyst activity can only be answered experimentally.
Cost Data
Manufacturers were most reluctant to supply cost information for this
study. The costs reported here were obtained by telephone calls to persons at
the management level (as distinct from sales personnel) in the company organi-
zations, and cannot be considered formal quotations. In general, catalyst costs
are subject to negotiation, and are sensitive to change in the price of raw
materials, demand, supply and other factors. The available costs reported here
were computed on the basis of dollars per ton in lots greater than 50 tons, F.O.B.
the manufacturer's plant location.
Examples of the Use of this Survey
The catalog of catalysts, carriers, and sorbents provides a listing
for comparison purposes of the material, its present uses, and approximate
composition along with pertinent comments about its present use, cost, poisons,
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The sixteen tables included in Appendix B permit the user to gain some
feel for the physical property data presently available from manufacturer-
supplied sources. These B tables are also used for searching out materials
which have some specific and desired physical property value or values.
The search for empirical trends in the physical behavior of selected
materials is in large measure not yet complete, as a quick reference to the
six tables of Appendix C will show. These comparisons require a higher level
of completed information than has been achieved using the source information
supplied by the manufacturers.
The information now included is sufficient to permit some preliminary
searching. For example, material HS124 has a crushing strength of 100 Ibs. as
given in Table B-5. Material HS124 is a catalyst containing 75 percent sine
oxide, plus the oxides of aluminum, calcium, and chromium (Table A-l). This
material is available in 1/4 x 1/4 inch tablets (Tables B-3 and B-4). It is
presently being sold for use in the low-temperature desulfurization of gas
streams. The BLITZ sheet on HS124 (Appendix F) shows:
pore volume = 0.12 cc/gm
bulk density = 112 Ib/cu ft
There is no other information on HS124 entered in the data storage at the present
time. Compared with the other materials in the data store, the pore volume of
HS124 is low CTable B-8). The bulk density, however, is among the highest for
those materials contained in the data store (Table B-10). For this particular
material, none of the tables of Appendix C contain enough information to add
significantly to an understanding of this material. Material HS124 may never-
theless warrant consideration for laboratory testing on the basis of the known
crushing strength, bulk density and stated use, which suggests that sulfur is
not a poison for this material. An inquiry into some of these possibilities
could presumably be initiated on the basis of the information presently contained
within the information system. From the Thesaurus (Appendix E) material HS124
is the ZN-0103T catalyst now being manufactured by the Harshaw Chemical Company.
From Table B-5, one can see that five other materials show crushing
strengths equal to or greater than the 100 Ib given for HS124: these are
HS206, CC101, EP101, EP102, and HS114. On the basis of the information contained
in Tables A-l and Appendix F (BLITZ), HS114 and HS206 do not look very interesting.
DP101, EP102, and CC101, however, are catalyst carriers which have possibly use-
ful physical properties and therefore would warrant further consideration.
These examples of the use of the survey are examples of simple search
procedures based on the user's knowledge of catalyst behavior and especially
upon the user's knowledge of the requirements that must be met by some catalyst
in a specific large-scale application. These simple search-and-compare procedures
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10
CONCLUSIONS AND RECOMMENDATIONS
The detailed information necessary for the evaluation or estimation
of the physical strength of materials of interest is generally not given in
the printed manufacturers' information used as a basis for this survey. Any
approach to the evaluation of physical strength as a function of temperature
and gaseous environment must be based on practical knowledge, past experience,
and common sense. It is known that catalytic or sorbent activity and physical
strength are frequently opposed. Rapid temperature cycling, which may be caused
by high local rates of heat release by chemical reaction, is often cited as a
major cause of loss of physical integrity.
At the present time it is feasible to select catalyst and sorbent
materials from this survey only on the basis of probable physical stability in
the required gaseous environments, and this only on a practical, common-sense
basis. Chemical stability and catalytic activity cannot be determined or
inferred from the information surveyed, with the exception that given materials
are known to have been applied in specific process systems designed for the
abatement of SO or NO emissions.
x x
The catalyst catalog in its present form is useful in a general sense
for data storage, data comparison, screening, and as a decision-making tool.
The acquisition and assimilation of raw information into the system is, not
surprisingly, the time-limiting operation. Nevertheless, this catalog in its
present form and with its present contents, can be useful as a screening device.
This data store is capable of expansion within the logical structure
and memory limits of computer systems now available at Battelle and elsewhere.
It is suggested and recommended that the program logic for some simple
kinds of screening operations be constructed to facilitate the use of this catalog.
This logic would supply the materials codes and other information for a material
or materials, for example, which have a hardness greater than some specified value,
and a surface area at least as great as 100 sq meters per gram, a pore volume in
excess of 0.20 cc per gram, an active constituent based on the oxides of zinc
and chromium, and a maximum service temperature greater than 1100 F. Such
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11
BIBLIOGRAPHY
1. DeMaio, Dennis, and A. Naglieri, "Catalyst Selection and Evaluation",
Chemical Engineering, July 29, 1968, pp. 127-32.
2. Moss, R. L., "The Structure and Activity of Heterogeneous Catalysts",
The Chemical Engineer (London), June, 1966, pp CE114-141.
3. Dowden, D. A., "Chemistry in the Design of Heterogeneous Catalysts,"
Chem. Eng. Progr. Symposium Series, No. 73, Vol. 63, 1967, pp. 90-104.
4. Satterfield, C. N., "Future Trends in Catalysis," Ind. Eng. Chem.
vol. 61, no. 6, June, 1969, pp. 4-10.
5. Roberts, G. W., and C. N. Satterfield, "Effectiveness Factor for
Porous Catalysts," Ind. Eng. Chem. Fundamentals, vol. 5, no. 3,
August, 1966, pp. 317-24.
6. Knudsen, C. W., G. W. Roberts, and C. N. Satterfield, "Effect of
Geometry on Catalyst Effectiveness Factor," ibid., pp. 325-6.
7. Adams, C. R., "Selectivity Effects in Some Catalytic Oxidation
Processes," Ind. Eng. Chem., vol. 61, no. 6, June, 1969, pp. 30-8.
8. Toro, R. F., "Air Pollution Control Needs Spur Catalyst Sales,"
Environmental Science and Technology, vol. 3, no. 1, January, 1969,
pp. 30-3.
9. Murphree Award Symposium on Catalytic Process Development, Ind. Eng.
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APPENDIX A
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COOF
NAME AND CLASSIFICATION
COMPOSITION
TABLE A-l. MASTER TABLE SORTED ON MATERIAL CODE
MAJOR USFS
MAJOR USES
COMMENTS
CODE
»cioT
AClfl?
AC101
AC1K4
"" AC30T "
AC31?
AC103
AL10]
ALln?
RCIA]
CAIO?
, CA103
1 CA104
CAlns
CAJOJ
CA301
CA30?
CA303
CA304
CA30S
CA30H
CA401
CA»oT
CA7ni
CA70?
CAR01
" CClnl
CC201
ccsnT
CC30?
CC303
CC304
CC30S
CC3n*
" CC307
CC30B
CC3ng
CC310
CC311
CC31?
CC313
CC314
CC31S
CC31*
CC317
CC31B
"CC110
CC3?0
CC3?T
• CCV?
CC323
CC3?4
CC3?S
CC3?«S
CC3?7
CC3?fl
CC3?9
CC330
' CC331
CC33?
~ CC333
CC334
CC33S
CC334
CC317
CC33B
" CC330
CC340
" CC34|
CC34?
son •
SOB.
ACTIVATED ALUMINA
ACTIVATED ALUMINA
SOR. ACTIVATED ALUMINA
SOR.
CBR.
CAT.
CAT.
COR.
CRR.
SnR.
CAT,
CAT,
CAT,
CAT.
CAT.
CAT.
CAT.
CAT.
CAM
CAT.
ALUMINA bEL
ALUMINA, CATALYTIC GRADE
TARLETEO ALUMINA
ACTIVATED AI.UMINA
HONFYCOMH, ALUMINA
COODIEHIIE
ACTIVATED CAHRON
NICKEL ON HEFRACTOOY
IRON»CHOOMIUM OXIDFS
NICKEL OXIOE ON ALUMjNA
Cu.7N.AL OXIDES ON BASE
VANAD1A. K-POQMOTFH
PALLADIUM ON ALUMINA
PALLADIUM ON ALUMINA
PALLADIUM ON ALUMINA
PALLADIUM ON SPECIAL CRB.
NI.rO.CB ON ALUMINA
CAT. COO. MOO ON ALUMINA
CAT.
CAT.
CAT.
CAT.
CAT.
COR,
COR.
CBR.
CPR.
COB.
CBB.
CBB,
CPB.
CRR.
CRB.
CBB.
COR.
COH.
CRR.
CBH.
COR,
CRR.
CRB.
CRB.
CBB,
CBB,
CBH,
CPB,
CBB.
CPB.
CPB.
COB.
CBB.
CPB.
CBH,
CBR.
CBB.
COR.
COR.
CRR.
CHH.
CRH.
COR.
COR.
COB,
COR.
CRH.
COR.
COH.
METAL OXIDES ON NA-AL201
MIXFD OXIDES
NICKEL OXIDE ON ALUMINA
CHROMIUM OXIOE ON ALUMINA
NOBLE METAL ON ALUMINA
ALUMINA, GAS REFORMING
CAORON-ON- ALUMINA
ALUM, oxluE. FUSED («HITF>
ALUM. OXIOE. FUSED (WHITE)
ALUM. OxIUE, FUSED (*HlTE)
ALUM. OXIDE. FUSED (*HlTF)
ALUMINUM OXIDE. FUSED.
ALUMINUM OXIDE. FUSED.
ALUMINUM OXIOE. FUSED.
ALUMINUM OXIDE, FUSED.
ALUMINUM OXIOE. F'ISEU.
ALUMINUM I'XIOE. FlISEo.
SILICON CAHIUDF
SILICON CAHHIDE
SILICON CAHHIOE
SILICON CAHHIDE
SILICON COWHIDE
SILICON tAUHIDE
SILICON CAHHIDE
SILICON CAHHIOE
SILICON COHUIDE
SILICON CAHwiDE
MULLlTE
MULLlTE
MULL ITE
ALUMINUM OXIDE (SIMTFHED)
ALUMINUM OXIDE (SIMTERFO)
ALUMINUM OXIDE ISINTERFn)
ALUMINUM OXIDE ISINTEBFO)
SILICA
SILICA
SILICA
SILICA
SILICA
SILICA
7IPCON
ZIRCON
71BCONIA
ALUMINUM OXIDE (STwTEREnj
ALUMINUM OXIDE (SINTEREO)
ALUMINUM OXIDE (SINTEREO)
ALUMINUM OXIDE (SIMTEHFO)
ALUMINUM OXIDE ISINTEHFOI
ALUMINUM OXIDE (SINTEHEO)
2*. NA?0 0.9*
AL?03 77*. MA?D O.B* CACL2 9.3
AL201 SB, N«?0 .86. COCL? 2.0»
ALZ03 90. SIOJ ?,?, NA20 1.6*
MBO.AL203.SI')?
AL203 99.5*. Snt ,09. CAO .06*
AL203 84*. NICKFL FORMATE 2.5*
ALUMINA QA* (AI.SIMAG 614)
MRO.AL203.(S/?SIO?)
CARBON
NIO ?0-404I PFFOACTOHlES-HAL.
FE?03 77-8l«l CO?03 9-11*
NIO 10-70»l CAOOIFP 8AL.
CU.ZN.AL OXIOFS
V?05 9-101. K?0 14-1S*
PALLADIUM 0.09-1.11*
PO 0.045-0.OSS*. AL?03 BALANCE
PD 0.045-0.OSS'*, AL203 BALANCE!
NOT OIVEN
Ml.CO.CH.ALMMINJ
COO.MOO.dLUMlNA
CO-MO OXIDE. NI-MO OXIDE
fF.K.CA.AL OXIOFS
NI 4-7*1 AL?03 HALANCE
CR 4-«»l AL?p3 asLANCE
NOT GIVEN
ALPOl 99.5», NA7D 0,45*
AL203 89*. CABRo>i 11*.
ALZ03 88,510? 9.CAO 1.NA20 .53
AL203 89.SIO? 9,rAO .''i rtAO .5
AL203 80.SID2 IP,5, TI02 .55
AI.203 84.5.SIO? 10,4,CAO ,53
AL203 72.SIO? ?3.T!0? l.B
AL203 85.5.SIO? 10.S.TI02 l.B
AL203 85.SI02 ll.TIO? 1.9
AL203 85.5.SIO? JO.S.TIO? l.B
AL203 84.S102 H.TI02 2.2
AL?.03 72.SI02 ?P,TI02 1.8
SIC S9.SI02 27,«| ?n3 I1.NA20 1
SIC 7R.SI02 IS.AI ?D3 5.5
SIC BO.SI02 H.«L2n3 4.NA20 ,7
SIC 80.SI02 14.HL203 4.NA20 ,7
SIC 77.5.SI02 1S.AI203 5.5
SIC "59.SI02 26.«.A|.203 11
etC 78.SI02 IS,41.203 4,CAO 1
AL201 4.SIC 7B.SIO? 14,CAO 1.3
SIC 77,510? I«>,»l?n3 6,K?() .55
cIC S9.SIO? 27,S| 203 11.NA20 1
Al.203 67.SIO? 31.CAO .7
AL203 68.S1D2 JO.CAO ItHAO .49
AL203 69.SI02 -Mr,0 .81
SI02 <55,MA2D 3,«,,AI 203 ,f>6
SIO? B1.4L203 1S.N420 1.K20 1
SIO? 94.NA20 4.S.CAO .51*
SIO? 95.CAO 4.0<;.Al?03 .23
ZHO? AO.SIO? l»).AL20.i 2.CAO .9
ZH02 54,SIO? 1B,4L?01 7.CAO .6
700? 93.CAO S.Sin? .6.AL203 .5
Al 203 96,SIO? ?.4,FE203 .64
AL203 96,5102 ?.4.FE?03 .64
AL203 96.S102 1.1,C«0 1.2
AL203 V9.NA?0 ,S,FF203 .04
AL?03 82,SIO? 9.S.MGO 3.HAO ?
AL203 99,H,SIO? ,OB,FE203 ,04
GASES AND I
BPFATHEP F.OUIP, « APPLIC. BEO.
noYING RAISES UNDFO HIGH POESS
REFnHMlNlj.CPACKlNP,
LON-SUBFACE-AREA CATALYST
CATAL*ST<"BOD. OF rONTonLLtD
Nn« FUMF AHATEMFNT
CAPPltR IN «CN RFArToB
RF.MnvES H'XIC GASES FROM AIP
MFG. NH1. STEAM RFFOoMING
PRODUCE HYIJUOGEN
METUANATlON
PBODUCE HYDKOGFN
H?S04 CONTACT
HyooOCjEwAT Inn
MTDBOGf-NAllnN
MynoOGEwAIInN
SFLFCTIvt HYI)RORFM«TION
SFLFCTIvt HYDBOGrmTION
HYOOOGEMAT ION
MAINTENANCE OF TBANSFOHMEB OIL
WISIHLF 1ND. OF ADSORPTION
• STATIC OPvING APPLICATIONS
AGGBEGAlElrASTAHLF HtFHACTORY)
ATMOS. IN MFAT-IBEAlINO FUKN.I
HC" BEACTOO
NOX FUME ADATEMEN1 EQUIPMENT
SYNTMtSIS OF AMMONIA
STFAM-MvDHOrARBON
STFAM-HYUWOrAHflON
REMOVAL UK o? FBOM N?
G«S MtFOMMlMi;
I- ZATTONI HYOBOnENlTHIFICATION
AND INERT GASES
NONTOXIC
AVAIL. AS CONVERTER DISCHARGE.
GRADE F-l • NICKEL FORMATE
SUPPLY ENGELHARD,OXY-CATALYST
2-YEAR EXPECTED LIFE
3-YEAn EXPECTED LIF-E
3-YEAn EXPECTED LIFE
3-YEAR EXPECTED LIFE
S-YEAB EXPECTED LIFE
1 Tn 5-YEAH EXPECTED LIFE
1-2 YEARS STOOAGEI
SULFUR POISONS CATALYST
RESISTANT TO SIMM AND H2
MEDIUM POROSITY,COARSE GRANULE
MEDIUM POROSITY • PFRMEABILHY
MED. POBOSITY, TIGHT STRUCTURE
M£D. POROSITY,TIGHT STRUCTURE
F.XTrtA-LOW POROSITY,TIGHT STRU.
L0» POROSITY, COARSE GRANULE
MEDIUM POROSITY,COARSE GRANULE
MEDIUM PORDSITY . GRANULE
MEDIUM POROSITY,OPEN STRUCTURE
MEO. POHOSITY. TIGHT STRUCTURE
FXTHA-LO* POROSITY,TIGHT STHU.
HIGH POHOsITY, OPEN STBllCTUBE
HIGH POHOSITY, TIGHT STRUCTUBt
L0« POHOSVlY. COABSE GRANULE
L0» POBOSITY, OPEN STRUCTURE
LOW POHOSITY, TIGHT SIRUCTUBE
MtU. POROSITY,COARSE STRUCTURE
MtUIUM POoOSlTY * GRANULE SIZE
MEDIUM POoOSITY.OCEN STRUCTURE
MtD. POROSITY, TIGHT STRUCTURE
LO* POMOSITY,COARSE GRANULE
MtU. POROSITY,COABSE GRANULE
MED. POROSITY, TIGHT STRUCTURE
HIGH POHOSITY, OPEN SIRUCTUBE
HIGH POPOsITY, TIGHT STOUCTUBE
HIGH POPOSIIY, TIGHT STRUCTURE
MtD. POROSITY, TIGHT STDUCTUBE
HIGH POBOsITY, TIGHT STPUCTUBE
LO* POBOSITY, COARSE GRANULE
MED. POOOSITY, COARSE GOANULE
MtD. POBOcITY, TIGHT STBUCTUBE
MfD. POPOSITY, TIGHT STouCTURE
MED. POHOSITY, TIGHT STRUCTURE
LO* POROSITY, COARSE GRANULE
LO* POHOSITY, TIGHT STRUCTURE
MED. POHOSITY, TIGHT STRUCTURE
EXIHA-HIGH POHOSITY,FINF POKE
EXTRA-HIGH POROSITY, FINE PORE
F.XTHA-HIGH POHOSITY, FINE POHE
EXTWA-HIGH POROSITY, FlNF POHE
EXlHA-HIGu POPOSITY, FINE PORE
EXIWA-HIGH POROSITY, FINE PORE
AC101
AC102
AC103
AC104
AC301
AC302
AC303
AL101
AL102
BC101
CA102
CA103
CA104
CA10S
CA201
CA301
CA302
CA303
CA304
CA305
CA306
CA401
CA601
CA701
CA702
CA801
CC101
CC201
CC301
CC302
CC303
CC304
CC305
CC306
CC307
CC308
CC309
CC310
CC311
CC312
CC313
CC314
CC31S
CC316
CC317
CC318
CC319
CC320
CC321
CC322
CC323
CC324
CC32S
CC326
CC327
CC328
CC329
CC330
CC331
CC332
CC333
CC334
CC335
CC336
CC337
CC338
CC339
CC340
CC341
-------�
TABLE A-l. (Continued)
CYIOT
CYln?,
CY103
CY104
CY105
CY?ni
CY307
CY401
CYS01
CYAOI
CY701
CY707
DGlof
OG10?
06103
OG104
OG105
0610$
06107
OGloa
061 09
06110
DGlli
0611?
OG113
OG114
OG11S
OG116
OGI17
OG11R
06119
06120
"06171
001??
061?1
06174
06125
0617IS
f)Gl?7
OG701
06207
ne?ni
OG?0»
06205
OG?o«,
0670B
I3G70Q
' OG?lo
OG?11
0621?
06211
OG10J
OG3n?
OG301
06304
OG305
OPIOI
OP10?
EN10J
EN?ni
EN?0?
F.N201
EN704
EN205
EN70A
EN?07
EN?OB
EPIOJ
EP107
OHIO]
6H20?
6H301
GH40]
GR40?
CAT, MOLFCULAR" STEVE""
CAT. MOLECULAR SIEVE
CAT. MOLFCULAR SIEVE
CAT, MOLFCULAR SIEVE
CAT, MOLFCULAR SIEVE
CAT, MOLFCULAH SIEVE
CAT, NI-MO
CAT, PLATINUM
CAT, VAWADIA. SILICA
CAT. VANADIA. SULFURIC ACID
CAT. CORALT-MULYROENA rMTALYST
CAT. COO.ALT-MOLYBRENA CATALYST
SOH. SILICA GEL
SOR. SILICA GtL
SoR. SILICA GEL
SOB. SILICA 6EL
SOB. SILICA GEL
SOR. SILICA GEL
SOH. SILTCA GtL
SOR. SILICA r,EL
SoP. SILICA GEL
SOH. SILICA GtL
SOH. SILICA GtL
SoH. SILICA GEL
SOH. SILICA GtL
SOR. SILICA GEL
SOB. SILICA GEL
SOH, SILICA GEL
SOH, SILICA GEL
SOH, SILTCA GEL
SOB, SILICA GEL
SOR. SILICA r,EL
So". SILICA r,EL
SOB, SILTCA GEL
SoR. SILTCA GEL
SOR. SILICA GEL
SOH. SILICA r,EL
SOR. SILICA GtL
SOH. SILICA r.EL
CRR. SILICA-ALUMINA, ZEOI.ITF.
CRR, SILICA-ALUMINA, 7EOLITF
CHH, SILICA GtL
CRR, SILICA GEL
CBH, SILICA GtL
CHH, SILICA GEL
CRR. SILTCA GEL
CBH. SILICA GEL
CAT. SILTCA/MAliNFSTA
CAT. SILICA/ALUMINA
CAT. PELLETEO SILICA/ALUMINA
CAT, PELLfTEo SILICA/ALUMINA
SOB, MOLFCULAH SIFVF
SOR. MOLFCULAH STEVF
SOH. MOLFCULAH SIEVE
SOH. MOLFCULAH SIEVE
SOR. MOLFCUL»H SIF.VE
CHH. ALUMINA HONFYCOMR. TQRVFX
CHH, MULLlTE HONFYCOMR. TQRVFX
CAT, KAOLIN, CRACKING
CAT. ACTTVATFD HAUXITF
SOH. ACTIVATED HAUXITE
CBB, ACTIVATED BAUXITE
CBR, ACTTVATFD HAUXITF.
CAT, ACTIVATED HAUXITF
SOB, ACTIVATED BAUXITE
SOB, ACTIVATED HAUXITF
CAT, BFFOBMlNG
CBB, SILTCA, DIATOMACEOUS
CBH, SILICA, DIATOMACFOUS
CAT, PLATINUM ON ALUMINA
SoR, ACTIVATED CAHPON
CAT. C01ALT-MOLY ON AL703
CAT. NicKtL
CAT. NICKEL
SIO? 86.AL203 14. FE .05
SI02 74,AL?03 7H.FF .05
SIO? 74.411 AL203 ?5*l FE .04%
STO? 66, AL?03 14. FE .12
«L?03 146, FE .051. NA20 .02%
SIO? B5. AL?03 15. S04 .3
M0(0)3 15»l NIO 1.111
PT-AS SPECIFIED! FE .0?5I.
V?05 6.1. K70 li.B, SIO? 62.
V?05 9.1%. K20 10.111 FE .45%
MOOS 15.7, COO 1.?, NA20 .02
M003 15.7. COO 1.0. NA20 .02
SIO? 99.71%
SIO? 99.7. AL701 .10, TI02 .09
SIO? 99.7. AL701 .10. TI02 .09
SI02 99.7. AL201 .10. TI02 .09
SIO? 99.7. AL701 .10, TIO? .09
SIO? 99.7. AL701 .10, TIO? .09
SIO? 99.7. AL?01 .10. TIO? .09
SIO? 99.7. AL701 .10. TI02 .09
SIO? 99.7. AL701 .10. TIO? .09
SIO? 99.7, AL701 .10. TI02 .09
SI02 99.7. AL?01 .10. TI02 .09
SI02 99.7, AL701 .10, TI02 .09
SI02 99.7. AI.701 .10. TI02 .09
SIO? 99.7. AL701 .10. TI02 .09
SIO? 99.7. AL?01 .10. T102 .09
SIO? 99.7. AL701 .10. TI02 .09
S102 99.7. ALP01 .10 TIO? .09
SI02 99.7. AL?Ol .10. T102 .09
SIO? 99.7. A1701 .10, TI02 .09
SIO? 99. rt AL201 .10. TIO? .09
SI02 99.7. AL701 .10. TI02 .09
SIO? 99.7, AL201 .10, TI02 .09
SIO? 99.7. AL701 .10, TI02 .09
SI02 99.7. AL701 .10, TI02 .09
SIO? 99.7. AL701 .10. TI02 .09
SIO? 99.7. AL?01 .10. TIO? .09
SIO? 99.7, AL?01 .10. TIO? .09
AL203 31. St')7 *9, S04 0.*
sio? B7, AL?OI n
SIO? 99.7.FF .01.NA20 .0?
SIO? 99.5. NA70 .09. FE .02
SIO? 99. «i, FE ."3. NA20 .02
SIO? 99.5. FE .A3. NA20 .02
SIO? 99.5.FE .05,AL?03 .?0
SIO? 99.5.NAO? ,n9,FE .0?
SIO? 70». MGO 3n» (DHY BASIS)
«TO? B7, AL701 13, IMPURITY .3
SIO? B7.AL203 11.FF203 .05
SIO? 75.AL203 75.FF203 .05
NOT GIVfN
NOT GIVEN
NOT GIVEN
NOT GIVEN
NOT GIVEN
«L20l 96%.Mr,AL?04 3%. MULLlTE 1
MULLlTE 55H.SI07 30*.AL203 15%
SI02 52.9».AL?01 45».TIO? 1.7%
AL203 7?. FF?01 12. SI02 11
AL?01 7H, STD? o. FE203 H,
AL203 81.5. S107 10.5.T102 3.5
AL203 93.5. 5107 2.5. TI02 2.0
AL203 8B, SIO? 5, TI02 3
»L?03 B1.5, SIOj lo, TIO? 3.5
NOT GIVEN
AI.203 01. 5. FEP03 3.5.TI02 3.5
AL203 92S.AL701 51.FE203 1.B1
SIO? 92. AL?03 5, FE203 1.8
AI.201 96.9*. MI 3». PT 0.1%
NOT GIVEN
NOT GIVEN
Nl 15 TO 25* HA| ANCF-NOT SIVEN
NOT GIVEN
CRACKING
CRACKING
CRACKING
CRACKING
FLUID COACKINR
CRACKING
MYOBOGFNATIOHi IJFSULFURI ZAT ION
RF.FORHlNti NAPHTHAS
MFG OF PHlMALIC AMMYflHIOE
CONTACT SULFURIC ACID PBOCFSS
PESIILF'IPlZATION. uvriwOGKNATTON
OESilLFUHl/ATIPN. HYOpOGENATIOM
AIM ANIJ UAS HRYING
AIH AND (JAS ORYINR
AIB AND (JAS OBYING
AIR AND li«S OBYING
AIR ANO liAS nBYINR
AIB ANO IJAS DRYING
AIB ANO bAS ORYlNG
AIR ANO bAS ORYIMG
SfLFCTIvE ADSORPTION. USED FOR
SELFCTIvt AOSOHPTTON- USED FOR
SFLFCTIvt AOSORPT10M- USED FOR
SFLFCTIvE AnsoRPTtOH- USED FOB
SKLFCTIvE insoHPTION- USEU FOR
SFLFCTIvt AOSORPTION- USED FOR
SFLFCTIvE AllSOWPTION- I'SED FOR
SFLFCTIvb. ADSORPTION- USED FOR
OFSSlCAnT
SOIIPCE Of SIO? IN rH£M HEAX
INOICATIN(. PFSICCAMT
INOTCATIM, nESICCSMT
INOICATIM'. nESICC»-lT
I-jniCATlMj IIFS1CCANT
PFSICCANT
ANTI-CARING AGENT
PESICCANT. POSSIBLF USF AS CAR
ussn to IMPonuCF u?o TO SYSTM
CHBOHATOGWAPHIC SFPARATION
REDUCES s? ANO N2 IN PETROLEUM
REDUCES S? ANO N? IN PETROLEUM
POSSIBLE C«
POSSIBLE C/l
POSSIHLF CA
IISEO AS CAT
WIDELY USFr>
LIMITEO USF
POSSIHLE C»
LIUUIO OP. G
I. IOII1D OW G
LIUUIO OH r,
LIQUID OR r,
LIOUIII OH r.
LIQUID OH G
LIQUID OH G
LIQUID OH r.
TALYST OH CARRIER
TALYST OR CARRIER
TALYST OR CARRIER
IN LIO PROCESSES
AS SOR «ITH LIOS
WITH LIQUIDS
TALYST o« CARRIER
AS HASE SEPARATION
AS HASE SEPARATION
AS HASE SEPARATION
AS HASE SEPARATION
AS HASF SEPARATION
AS PHASt SEPARATION
AS PHASE SEPARATION
AS PHASf. SEPARATION
SUR. ARE* DEC. BY STEAM 1070F
SUBSTHATE NOT SPECIFIED
COST DEPENDS ON PT CONTENT
SUBSTRATE NOT SPECIFIED
ALSO USED IN LIQUIDS o
ALSO USED IN LIQUIDS
VERY LIMITEO USES IN LIQUIDS
SOME USE AS CAT IN Li" PROCESS
POSSIBLE USE AS CATALYST
ANTI-CAKlNG AGENT
OH AS SELECTIVE ADSOHMANT
COLORED LT. BBO«N
CHNGES COLOR AS HUMIDITY CMNGS
VERY POROUS
DEHYDRATION OfACTIONS
CARRIER / SUPPORT F(IH CATALYST
CABBILR / SUPPORT FOH CATALYST
CARRIER / SUPPORT FOH CATALYST
CARRIER / SUPPORT FOR CATALYST
CARRIER / SUPPORT FOH CATALYST
CARRIER / SUPPORT FflH CATALYST
FSTFHIFlCAT Hit, RFArTlONSI GAS/
REACTIONS ut{) G AN ACIO CATALY
OFHvDHATlON CATALYST
OEHYUHATlON CATALYST
ORYINU IINSATIIHATFO HYDROCARBON
HFMOVAL OF -?s. C07. • ETHYL
OEHYUHATION Of MOST FL'IIIIS
REMOVAL OF TO? . H30 FRO" AIB.
BFF01GEBA1 ION SYSTFMi;
OXTOATION OF HYOROfApHON FUMFS
OXIOATION (IF HYOPOrAHHON HIMFS
CRACK ING
OFSULfURi/AT ION OF PtTROLEUM
FOR RtFlMNG PFTRoi FU" PRODUCT
DEFLUDHINATION "EOIUM
SULFUH PtCOVFHY UNITS
DESSICANT FOR HYOBOCARHONb.H?S
OVFRCO«F SOUMIMB or MYn"OCHNS
HFFORMlMO CAT FOR GASOLINE AND
CABPILR KMFF FROM POISONS
CATALYST SUPPORT
OECOMP. 0^ MN03 P| ANT TAIL GAS
OESULMWUIMG GAS «THFA"S
HYOHOUtSULFUR|/ATTnN
PRODUCTION OF H?. MH3, C"JOH
IISEO IN THr CHEMICAL INDUSTRY.
USEO IN THF CHEMICAL INDUSTRY.
UStO IN THF CHEMICAL INDUSTRY.
USED IN THr CHEMICAL INOUSTuv.
USEO IN THr CHEMICAL INDUSTRY.
USED IN THC CHEMICAL INDUSTRY.
OIL CRACKING (SUPPORT CAT.I.
ST (ALKYATION.ESTER1FICATION).
ATTRITION RESIST. IN FLUID BEO
ALSO AVAILABLE AS A FLUID.
HlfaH ACIDITY
(ETHYLFNF. .OHOPYLENt.HUTAOIENE)
MERCAPTAN rRON NATURAL GAS.
• H?5 • MFPCAPTAN FRU« L.R.G.
BtDUCHON NITROGEN l)»IDE FUMES STHON6. THERMALLY STABLE
REnUCMON ..ITROGFN UXIOE FUMES STHONG, THERMALLY STABLE
SUPERIOR, STEAM, THERMAL
OECOLURI7FSI OEODOHUESl DHIES
ALSO USED AS SORBANT, CATALYST
ALSO USED AS CATALYST
OHYINb HALnGENATEO HYDROCBNS
NAPTHtS
NOX Rt«CT o?,CO,HYDROCARBONS
Fl«FO «En OPERATIONS
HYDROllFNITPIFTCATIPN
FREE FROM CAlALYTIC POISONS
SULFUR IS POISOW
LIMITED DROPPING D1STANCE,?FT.
CY101
CY102
CY103
CY104
CY10S
CY201
CY302
CY401
CY501
CY601
CY701
CY702
OG101
06102
D6103
OQ104
DG105
00106
OG107
DG108
00109
DG110
DG111
PG112
DG113
OG114
06115
DG116
DG117
DG118
OG119
DG120
06121
OG122
OG123
OG124
PG125
OG126
OG127
OG201
PS302
OG203
OG204
06205
DG206
OG208
06209
DG210
DG211
DG212
PG213
PG301
06302
06303
06304
DG30S
PP101
OP102
EN101
EN201
EN?02
EN203
EN204
EN205
FN706
EN207
FN208
FP101
EP102
GR101
G«?02
GH301
GH401
-------�
TABLE A-l. (Continued)
RB404
GR405
OR4D7
GR400
GR41 1
GR41?
GR413
GR414
GH41S
GB41A
C.B417
RB410
GB4?0
RH4?I
GH4??
6R4?4
GR4?5
GR4?m
HH4?7
RR4?B
GR4?Q
GR410
60431
RH41?
R0.413
GR414
6R41S
G0436
GH437
SH41B
GR43Q
RR440
MC?OJ
MC?O?
HC?03
MC?04
HC?05
MC206
MC?07
MC?na
MC?09
HS101
MS10?
HS103
HS104
CAT. NICKEL ON ALUMINA
CAT. CHROMIUM-IRON OXIOr
COPPER 0* IOF.-ALUMTNA
NICKEL
NICKEL
CO-MO ON ALUMINA
CHROMIA.ALUMINA
IBON OXIDE
ZINC OXIUK
CO-MO
PO ON BFFRArTQRY OXIDE
PO ON ACTIVATED ALUMINA
PO ON ACTIVATED CAORON
NI-CO PBU-OTEO
PALLADIUM ON ALUMINA
ON ALUMINA
ON ALUMINA
CAT
CAT
CAT
CiT
CiT
CiT
SoR
CiT
CiT
CiT
CiT
CiT
CiT
CtT
CiT
CiT
CiT, PBOMOTEO COBALT
CiT. CO ON HFfWACToRY OXIDE
CiT. CO ON KlESELRUHR
CiT.COPPFR-CHWOMjTF
CiT. Bt pROwoTtO Ctt?CB?04
CiT. NICKEL ON MFSELRuuR
CtT. NICKlL OH MESF.LGUHR
CtT. ZR P"OMoTF.O NI
CiT. PiLLAUIlIM ON CARROu
CiT. PiLLAUIuM OM CARBON
CtT, IBON OXIUE
CtT, IBOM OXIUE
CiT, IBON OXIUE
CiT, Ca tNU K PROMOTED IRON
ACTIVATED CABRON
OiLi.iUIiiM ON SIO?.iL?01
CHROME-ALUMINA
COBALT-MOLVUOATE OM AL?03
SOB
CAT
CtT
CAT
CBB
CtT
CiT
CiT
CtT
CiT
ClT
CBB
CBB
CBB
CBR
CBH
HSin«,
HSI17
MS11B
MS109
HS1IO
HSU i
HSU?
HSiii
MS114
MS115
HSU".
HS1I7
HS1 IB
MS119
HS170
HS1?I
HS1??
MS!?1
HS1?4
MS1?5
MSI?*.
HS1?7
KiO(_ IN
PALLADIUM ON CtRBON
PLiTlNUM OH iLUMtNi
PLITINIIM ON ILUMIMA
SILICA-ALUMINA. SYMTHFTIC
AL< MINA CATALYST
AH MINA CATALYST
tLI MlNi CATALYST
ALI MINA CuTALYST
ALIMINA CATALYST
CtT. COBALT 0»IOF ON ALUMINA
CAT. COO, Cun ON ALUMINA
CiT, COO, M003 ON ALUMINA
COO, MOOJ ON ALUMINA
COO, M003 OM ALUMINA
CHHOME ALUMINA
CHROMIUM OXIOF. ON ALllMTNA
COPPER fH-'OMITE
C'lO ON aLUMlNt
MARNtSI A
IRON OXlUE ON ALUMJNA
CtT
CtT
Cat
CtT
ClT
CtT
CBB
CtT
CtT
CiT
CtT
CiT
CiT
CtT
CtT
CtT
CiT
MS1? 3.21 AL203
AI.201 98.0* NA?0 0.11
SIO? 5J», AL?03 45*
SIO? 53*. AL?01 45» Ff?03 0.3»
pp. 5-10, AS SPFCIFIED
PT 0.5», tl?03 nit .
PT 0.5*, AL?03 BAL.
SIO? Bf.^l Al_?01 )?,4
AL?01 99
AL203 96
AL203 98
AL203 92. SIO? <.
Al.?03 97
COO 10. BALANCE ALUMINA
COO 5. CUO 5. RtLANCE ALUMINi
COO 3. MOOS 9. BaLANCE ALUMINA
COO 3, MOOT 1?, BAL, AL203
COO 3, MOOJ 9. BALANCE ALUMINA
CR201 12, MRO ?, BAL. ALUMINA
r»203 19, BALANTF ALUMINA
CUO 17, CR203 f,7
CUO 5, BALANCE HUMINA
MRO 48
FF2P1 5, BALANCF ALUMINA
MOS? 44
MNO? 19. BAIANCF iLUMINA
NIO 1?, BiLtNCE iLUMINt
NI 4.5, W 9.5. S , RAL. AL203
V?05 10. rtiL. S'LKA-ALUMINA
V?05 10. BALANCr ALUMINA
V?05 10. BALANCF AIUMINA
ZNO 75, AL, MR, CA, CR OXIDES
ZNO 74. CR?03 ?1
AR 4.0 BALiNCF M ?P3
Al 201 98*. BALANCE MOISTURE
AL203 9S°i, BALANCE MOISTURE
AL?01 92*
AL?OT 97*
AL201 9?%, SIO? A*
BtCL? 27*. HtLAKirF CARBON
COO 15*. BALANCF KlESH-dUMH
CO 19* BALt'JCF K1FSELGUHW
OEFORUINH
•ATFR-GAS SHIFT RFiCrlON
LOW TEMP. CO CONVFPSION
METHANATlON RFACTTONS
MFTuANATlON RFACTTONS
HYOBOUESULFllBIZATION
PFMOVAL OK S? COMPOS FROM RAS
RFMOVAL Of S? COMPOS FROM RAS
REMOVES H?S FROM r,«S STREAMS
CONVERT SJ COMPOS TO H?S
HYPBOfaENAIION
RfMOVAL OF (I? FBOM M? STREAMS
HFMOVAL Of O? FROM H? STREAMS
SFLECIIVE MYOHORFMlTION
SELFCTIvE MYORORFN4TION
SFl.FCIIvt MvnBOGFN*TION
SELFCTIvE HYDROREMiTlON
SElFCTIvK HYOHORFMATIOM
POOOUCMOM (IF PWlMSHy 1MINFS
HYHBOtiENAIION
HYflBOljENATION
MILO HYD^ttRFNiTION
MYOaOUENATION
MYOBOGENUTION
HYOPORENtI ION
SLUoRr-TY^F HYOBOGFNATION
SLURWT-TYPE HYOaOr.FNtTION
AMMONIA SYNTHESIS
AMMONIA DISSOCIATION
OEHYO«Or,ENATION
STYBINE PHOIIIJCTIOM FHOM FTHYL"
BEMOVAL Uf S? COMPnS FBOM RAS
HYOBOOEMATION
DEHYllHOr,tNATIONI NvhBOrWACMNG
OFSULFUOl/ATIONI HYllHOdFNAT ION
BFFOHMlMb, ISOMFBI?ATION
REMOVAL OF S2 FBOM GAS STREAMS
HYOBORFNATtoN OF OLFFINS
POISONED PY S?« HALOGEN COMPS
HYORORENATION
RtNZENF I OFHYnROGEN.OF CUMENE
AKOMATIZATtON
ALKYLATION. HFHYOHATION
HYPOOGFNATInn
OEHVIlHOr.ENATIONI MYllROGFNtTION HEFPRMINHI I SpMERI/AT ION
FIXFO HFO CBACKINRI
HHYINU AUtM, OEH
OBYINS ibfNT, OEHYOBATION
oN, ALSO CARRIER
SYNTHESIS OF HYPBORFN
HYnBOGENATION, OEr^MROSTTION
HYnBOCARB'IN OESULFHBlZiTION
HYODOCABHON rjESULFii»lZ»TION
HYOUOCABHON OESUlF'lWl/tTIUN
DEMYDHORKNATION
OpHvDMORtNATTON OF HuTANF
HYOBOGENATION
RfMOVE 0?,C'I,H? -RtS STBFAM
AMMONIA Ut-COMpOSI TTOrg
OEMYDhORENAT I0^t, HvMROGFNAT ION
OX THAT ION
HYOOlKjENil TON
HYOBO&EMiTION, OFNITRORFNATION
OXItlATION
OXTnATION
OXtOATION
OESULFUOI/ATION
SYNTHtSlZt "ETHANOI
OXTOillON OF MFTMtMOL TO FOBM-
OtSllLHIWIZlTTON
ALOFHYPE
CHBOMATOl'i'APHIC APSPRPTION
FLUTf' HFD OPFRATIOMS
REMOVAL UF HCI.? FBOM CHLORINE CONTAINING HYPROCARHON
MYDBOuKlAl ln»l CATil YST
o«o PHOrtss . RFI tno HYPHORFN tllOM BFACTIOWS.
POISONED BY SULFUR
MANUFACTURING NOT £0. TO GB433
REGENERATES, STFAM-4IH
TRUE UENSfTY, SOLID 230
PROHABLY A NATURAL 7EOLITP
51 LBS./FT.3. LOADING DFNSITY
HEIitNERABLE BY AIR
ALUMINA IS ACTIVATED
HlliH ACTIVITY ALUMINA CARRIER
HIGH ACTIVITY ALUMINA CARRIER
HIGH ACTI\»ITY ALUMINA CARRIER
HIliM ACTIVITY ALUMINA CARRIER
ACTIVATED ALUMINA
ACTIVATED ALUMINA
ACUV4TEO ALUMINA CAH»IFR
INEuT ALUMINA CARRIER
INERT ALUMINA CARRIER
ACTIVATED ALUMINA CiRRlF.R
ACTIVE ALUMINA CARRIER
MlLULY ACIUIC
HIGH ACTIVITY ALUMINA CARRIER
INERT ALUMINA CARRIER
CATALYST REQUIRES REDUCTION
GR403
GR404
GR40S
GR406
GH407
GR409
GR411
GH412
RR413
GR414
RR415
GR416
GH417
OR419
GR420
GR421
GR422
GR424
HH42S
GR426
RR427
CB428
GB429
GB430
RR431
GR432
RR433
GB434
GB435
GB436
GR437
RR438
RR439
GR440
HC201
HC202
HC203
HC204
HC205
HC206
HCJ07
HC208
HC?09
HS101
HS102
MS103
HS104
MS105
HS106
HS107
HS10B
HS109
HS110
HS111
HS112
HS113
"S114
HS115
HS116
HS117
HS11B
HS119
HS120
HS121
MS122
HS1Z3
HS124
HS125
HS126
HS127
HS128
HS129
MS 130
HS131
HS132
HS133
HS134
-------�
TABLE A-l. (Continued)
MS13S
MS13*
MSI 37
HSI3R
MSI 39
HS140
HS141
MS14?
HS143
HS144
HS14A
HS147
WS140
MS149
HS15H
nSl 51
HS157
HS153
MS154
HS1S«,
HS1S7
MS15R
CAT,
CAT,
CAT,
CAT,
CAT.
CAT.
CAT.
CAT.
CAT,
CAT,
CAT,
CAT.
CAT.
CAT,
CAT.
CAT,
CAT.
CAT.
CAT.
CAT.
CAT.
CAT,
CORALT
COBALT
COBALT
CORAL!
CORALT
CHRALT
CHROME
CHROME
CHROME
CHROME
CHPOME
COPPER
COPPEH
COPPEH
COPPEH
COPPER
COPPER
COPPEH
COPPER
COPPER
COPPEH
COPPER
CATALYST
CATALYST
CATALYST
CAIALYST
CATALYST
MULYHDATE CATALYST
ALUMINA
ALUMINA
ALUMINA
ALUMINA
ALUMINA
CHHOMATF.
CHWQMl TE
C.HHOM1 TF
C.HMOM I TF
C""OMITE
CHhOM I TE
C.HHOMT TE
CHHOw I TF
CHHOMI TE
CHROMT TE
CH«0»ITE
HSISR CAT, COPPEH
MSl»in CAT, COPPEH ON ALUMINA
MS1M CAT, COPPER ON ALUMINA
HSIA? CAT. CORPF.H ON ALUMINA
HS1A3 CAT. COPPER ON ALUMINA
HS164 CAT, COPPEH
HSl.7
MS171
HSI73
MS174
HS175
MS17A
MS177
HS170
HS179
HS1RO
HS1R1
HS1P?
HS1 R3
"S1R4
HS1R5
HS1R6
MS117
MS1RR
MS1«9
HS190
HS19J
MS19?
HS193
MS194
HS195
HS19«,
MS197
HS19P
HS199
M5?0i
HS2 0 I
MS?.o?
HS703
MS?r>4
HS?^5
HSPO't
HS207
MS20R
HS?ri9
HS210
MS? 1 1
HS71?
CAT,
CAT.
CAT.
CAT.
CAT,
CAT,
CAT,'
CAT,
CAT,
CAT,
CAT.
CAT.
CAT.
CAT.
CAT.
CAT.
CAT,
CAT.
CAT.
CAT.
CAT.
CAT.I
CAT,
CAT,
CAT,
CAT.
CAT.
CAT.
CAT.
CAT.
CAT.
CAT.
CAT.
CAT.
CAT.
CAT.
CAT.
CAT.
CAT,
CAT,
CAT.
CAT,
COO )3» ONI SIO? TYPE BASE
COO 6* ON SIO? TYPF BASE
COO ?0» ON SIO? TYPE HASE
COO 10». RAi.. ACTIVATED AL203
coo IRS, BAL. ACTIVATED AL203
COO 3. M003 15. HALANCE AL203
CP203 12. HAL. ACTIVATED AL203
CR203 5». BAL. ACTIVATED AL203
CR203 91S.K20 1.5*.RAL. AL203
C°203 33, SAL. SILlCATEO AL303
CR203 19. HAL. ACTIVATED AL203
CR?03 19,HAL. ACTIVATED ALZOS
CUO R2iCR?03 17
CUO RO. C»203 17
CR203 44, CUO 41, RAO 11
CR203 3fl, CUO 35, RAO 10
CR203 43.5. CUO 39, HAD 10
CP203 38, CUO 33, BAO 9.5
CR203 46, CUO 41, BAO 9
CB203 60, CUO 4n
CUO 51, CR203 47
CUO 4?t C»203 In
CUO 54, CR203 41
CUO 99*
ACTIVATED AL203
ACTIVATED AL203
ACTIVATED AL203P
. ACTIVATED AL203
0»0 SYNTHESIS PBOCFSS • HYDRO- GENAT10N HFACTTONS.
0«O SYNTHESIS PMOCFSS « HYDRO- KENATION HFACTIONS.
OKO PROCESS TO CONVERT ALDE- HYDES TO ALCOHOLS.
MYDOOGENAIION CATAI YST
CUO
CU 7.7*. RAI.
CUCL2 10.HAL.
C1ICL? 10. HAL
CUO 79%
CU2C03 6*. HA:
FF203 20, HAL
FE203 20, HAL
'iCF SI02
ACTIVATED AL203
ACTIVATED AL203
MNO? ?», HAI.ANCF S102
M003 10, HAL. ACTIVATED AL203
M003 11, HAL. ACTIVATED AL203
MOOS 10. HAL. ACTIVATED AL203
Ml 44IMYDRATKI .HAL. MESELUUHH
NIO S5, RALANCF KIFSELGUHH
NI 60, HALANCE KIESEL6UHH
NI 5H, BALANCE KtESELGUHR
NI SR, BAL. MFSFLC.UHH
NI Sft. 8ALAMCE KiESFLGUHH
NIO »i*, HALANCF KIFSELGUHH
NI 30, BALANCE KIESEL<>UHH
NI fiOIKEDUCFD) ,"AL. KIESEL&UHR
NI 60. HAL. KIF.SFLGUHR
M ?R. BALANCE KIESELGUHU
NIO (It HAL. ACTIVATED AL203
NIO 15, RAL. ACTIVATED AL203
M ?4 (WFDUCED).HAL.KIESELGUHR
NIO 1R. PALANCF KIFSELGUHH
NIO 14, RAL. ACTIVATED AL2"3
NIO S.BAL. AL?0-)-SI02 UNF.HT)
MO 10,HAL. AL?m-sI02 (INEHT)
NIO? S, HALANCF AL?03 (INEHT)
NIO 1.5,RAL. A|303-SIOPIINEHT)
NI 50*1 AL 50»
NI 70», RASF MAT.L PHOPHIETARr
NI 4<,». RASF MAT L PMOPRIETARY
NI 40*. RAL. ACTIVATED AL203
NIO S. MG ].?, HAL. AL203-SIO?
»HO 4.FE203 4,COO 4.AL203-S102
NIO 4,FE?03 4,Con 4.AL203-5I02
NIO 10,CUO 1«RA| S102
MIO 3, BAL. ACTIVATED AL203
MO 5. HAL. INpoT CURES
oil 49%i, AL 49%
nl 30(ACTIVE)IH«SF PSOPHIETAHY
NI ?S'j (NO OTMFP OATA GIVEN)
NI fc,» 19. HAL. MO?/AL203
NOT GIVEN (SEF COMMENTS)
NOT C,I*EM (StF. COMMENTS)
NI f>,H 19. HALAMCE AI.203
OENlTHOc.ENATION
OEHYUHOnEMATION
DE«YDROf,ENATION
DEHYDOuFNATION
DEHyUHOC,tNATION CATALYST FOR
DEHYUHORtNATIOW OF HUTANE TO
• nFSULFUHIZA- T10N OF MYnPOCAOHONS.
FLUID BED USE.
HUTYLENE.
TABLETEO CU-C?02P (HSU7)
TABLETEO CU-P401P IHS149)
TABLtTEO CU-1106P (HS151)
TABLETEO CU-1ROOP HYOROF03MING AND DF-
HYDOO • ((tHYDROGtWATlOM .ALSO
HYOPOGENATION * MFTHANATION
HYDBOGENAI10N CATAIYST
HYOROliEwAl ION CAT. FOR TRICKLE
HYOROGEMATION CATAI YST
HYOROOEMA1ION CAT. (pABTIALLY REDUCE" • STABILIZED)
HYDROljEMAlION CAT. (UNREDUCED)
FOR CERTAIN SPECIFIC PROHLF.MS
HYOPObtNAlION CATAI YST
HYOOOGENATION CAT.(HIGH PHYSI-
HYDROfaEMA!ION CAT. (ACTIVE HUT
HYDPOGEMAT TON OF OT()|FFINS TO
HYDROGFNAT TON.
HYOHOFOHMIMG.
RED OH L10IIID PHASE HEACTIONS.
IN HAHOENlNS SOME FATTY OILS.
CAL STRENGTH).
STAHLE) .
MONO-OLEFTuS (SULF.ll)ED FOH") .
MUST BE REOUCFO HEFOBE USE
NOT RYHOPwOWIC AS SHIRPEO.
NOT pYRoPHORic AS SHIPPED
TABLETEO FORM OF NI.0104P
MUST HE REDUCED REFORE USE.
CONSULT MARSHA* REP. , DETAILS
PYHORHORIC.SHIPPED IN LIQUID.
NOT PYROPwORIC AS SHIPPED
NOT PYROPuOHIC AS SHlPPFO
HYDBOGFMATION BFACTIONS
HVDPOGENATION REACTIONS
HYOROGENA1IdNS » AGINATIONS.
HFFOHM | 111 M(H_(TCi|| />u uF.tr,HT
RFFnHM LU" WOLFCU| AR wFTGHT
fiAS MiFoHMINfi C.ATAI YST
USEO IN GAS RFFOUMING
PROCESS HYDPOfiENATIONS IN LOW
HYDPOGENAlInN CATAI.YST
HYOPOhENA!ION CATA| YST
MYOBOdENATION CATM.YST
A GAS UKH)U"ING CATALYST
DFCOMPOSIiION CATAIYST
A DECOMPOSITION CATA|_YST
HYOPOGEM«TION CATALYST
A GAS RFMIRMING CATALYST
fiAS HEFOHM1NG CATAI Y$T
FOR FIUKU HFD,LOW-«OUEPATE
SUPFWIOB SfLECTIVTTY IN THE
HYOUDGEMA1ION OF FftTTY OILS *
SUIFIUE HlHM|(-R4c.iIHT ION/SULFUR I z AT ION
OF-NlThOOtNATlON/SUI FUHI7ATION .SATUHAT10M AROMATIC COMPOUNDS
SUPPLIED INACTIVE
NOT PYHOPHOHIC AS SHlPPFO
ACTIVATE (REDUCTION)IN SITU
NOT PYRoPHORic AS SHIPPED
MUSI BE ACTIVATED IN SITU.
CONSULT HAHSHA* HEP..DETAILS
Sl'LFIOEO FORM OF HS209
SULFIDED FORM OF MS?12
HS135
HS136
MS137
HS138
HS139
HS140
«S141
HS143
HS143
HS144
MS145
HS146
HS147
HS148
HS149
HS150
HS151
HS152
HS153
HS154
HS156
HS157
HS158
HS159
HS160
HS161
HS162
HS163
HS164
HS165
HS166
HS167
HS171
HS173
HS174
HS17S
HS176
HS177
HS178
HS179
HS180
HS181
HS182
HS183
HS184
HS185
MS186
"S187
HS188
MS1B9
HS190
HS191
HS192
HS193
HS194
HS195
HS196
HS197
HS198
HS199
HS200
HS?01
HS202
HS203
HS204
HS205
HS206
HS207
MS20B
HS209
HS210
-------�
TABLE A-l. (Continued)
M571 3
MS714
MS21S
MS?1»
HS?1 1
MS21A
MS?19
"S??0
MS2?1
MS???
MS??1
MS??*
HS??5
MS??",
HS??7
HS??«
MS??0
MS?10
HS231
HS?3?
MS?31
KC101
"RlIM
MN101
MN10?
MNlOT
NCI 01
NL101
NL10?
NL101
NLl 04
NLl 05
NLlo«,
NLl 07
NL10A
NL 1 OQ
NLl 10
NLl 11
NL11>
NLl IT
'IA101
UA10?
UA103
I1C 1 01
UC10P
uc?oi
uc?o?
tjC?oi
'IC?04
UC101
IJC30?
UC303
UC104
UC305
UC30*,
UC307
UC401
UC407
CAT.'.
CAT.
CaT.
CaT.
CAT.
CAT.
CAT.
CAT.
CaT,
CaT,
CaT.
CaT.
CaT,
CAT ,
CAT.
CAT.
CAT.
CAT.
CaT.
CaT.
CaT.
CPR.
CaT.
CaT.
CaT,
CaT.
COH.
CaT,
CaT,
CAT,
CAT,
CaT,
CaT.
CaT.
CaT.
CaT.
CAT.
CAT,
CRR.
CAT.
CAT.
CAT.
CAT.
SoR.
SDH.
SDH.
SDH.
SDH.
SDH.
CAT,
CAT.
CAT.
CaT.
CaT.
CAT.
CAT.
CAT.
«NIC«Fl-/Ti|W>STFN ON ALUMINA
PALLAKlU* ON ALUMINA
PALLADIUM ON ALUM1MA
PaLLAOIliM CATALYST
TITaNlA ON ALUMINA
VANADIUM CHIDE ON ALUMINA
VANADIUM OXIDE ON aLtiMINA
MCTAL OxIOES ON AI.IIMINA
MfTAL OxlDFS ON ALUMINA
TllNr,SIEN OXIDE ON «Lu"IN»
ON »Lll"IN*
CHPOMITF.
CMPOMITF
ZINC OXIUE
Car, MFTAL OxIi>F<; ON ALUMINA
ETaL 0«IUES ON ALUMINA
CaTi ZINC OXIUE ON ALUMINA
7INC 'CFTATF
ZiPCONIa
aLij«iNA
acTivaTFD ALUMINA
PLarlNUM ON TOPVFX
VANADIUM oxine
vawaOIUM DxinE
VANADIUM OXIRE
ZFOLlTE. SYNTHETIC
SYNTHETIC sio?-AL?n.T TYPE
SYNTHETIC S!0?-AL?13 TYPE
MODIFIED SYNTHETIC TYPF
MODIFIED SYNTHETIC TYPF
M01.FCULAH SIFvF TYPF
MOLFCULA" SIFVE TYPF
MD, co. OXIDF.S DN ALIJMTNA
MD. co. ox'KiFS ON ALUMINA
NI ON SlOi
MD. NI ON
ALIJ"INA BASF
KYlni
POROUS rtwAMic
POROUS ct«A"tc
MF.TAL O'l "ETAL
"OL^CULAH S1EVF
uoi.FCUl.a« SIFVF
MotFCUL/if SIFVE
MOLFCULAH SIFVE
MOLFCULa" SIFVF
MOLFCuLaH SIFVF
PALLADIUM ON HDL. BAL. ArTTVATtD ALZ03
V?OS 10. RA| ANCr ALJ03
V?05 5, MQ03 S, ON INERT AL203
V?05 fc. M003 1, ON INERT AL203
«D3 10« RAL. ACTIVATED AL203
W03 QS* %, NA^o n.30»
NOT RIVEN
V?05.CAHRIEP NOT SPECIFIED
V?05.CABSIF9 NOT SPECIFIED
V?05.CAHPIEH NOT SPECIFIED
NOT CIVEN
S04 n.4
SO* 0.4
SO* 0.4
504 0.4
SD4 0.4
S04 0.4
BAL.
B4L.
BaL.
BAL.
RAL.
BAL.
St'J?
SIOZ
SI02
SIO?.
SI02
SI02
SL303 13.
AL201 25,
AL203 33.
AL203 29,
Al.?01 32.
AL201 32.
MOOS 12. S. CDO 1.5
M003 12.5, COO 1.5
M003 13. NI 4.5, SIO? 15
MOOS i», MO ?.o, SI02 1.5
1 1*. NI 4, SO* 0.4 HAL. AL203
ALUMINA
AL203 33. NA?0 .09, SI02-BAL,
AL203 92.?«NA?0 .5. SIO? .10
NOT RIVEN
NOT RIVEN
NI 60<4t CH ?OS. FF 20*
NOT MVf.N
NOT GIVEN
NOT GIVEN
NOT GIVEN
NOT GIVEN
NOT GIVEN
MD 0,5
PO 0.5
PT 0.5
PO 0.5
PD 0.5
NI 1.0
CH 1.0
NOT GIVEN
NOT RIVEN
NOT RIVEN
PE-NlTHObENATION/S' ILFU«IRATION
HYOOOBENATION CATAI YST
HYDPOOEf'ATION CATaLYST
HYDPOGENAI10N CATALYST(STABLE)
OXIDATION
OXIDATION
OXIDATION CATALYST
OXIDATION CATALYST
DEHYDRATION
DEHYDRATION
RFAOY AS SHIPPED FOP MFTMANOL SYNTHESIS.
.SATURATIOM ABOMATIC COMPOUNDS MILDLY ACIDIC
REMOVAL OF SULFUR FROM GAS
CDNVtHT ACETYLENE AND ACETIC
CATALYST SUPPORT
NOX, HYDHOCARBON F'IM£ REMOVAL
M?so* CONTACT CATALYST
H2SO* CONTACT CATAI YST
H?SO» CONTACT CATALYST
ALKYLATIUN AND ISOMFRI7AT10N
FI.IJTD CRACKING
FLUID CRACKING
FLUID CRACKING
FLUID CROCKING
FLUID CRACKING
FLUID CROCKING
HYOODESIILFUBIZATION
HTDUOUESULFIIRIZATTON
DESllLfURl/ATlON
OESIlLFURl/ATION
SBFTIKIC lYDRDTBFATIwG
FLUID CRACKING
OHIDAIIDN OF SO?, MYOBOCAHRnNS
OXIDATION OF HYOROGEM (L0» T)
COMRUSTTON HYDROCARRON FUMf^
RKMDVtS bo? AND OXIDES OF N2
REMOVES SO? AND OXIDES OF N2
SEPARATES NORMAL FOOM HBANCHFO
REMOVES H20. C02. "?S FROM GAS
OFHYOHATlON
DEHYDRATlONI DESSTCANT
PFNTANE-MEXANE ISOUEHIZATION
R1ITANE IS(iMFRI7aTION
STREAMS.
ACID TO VINYL ACETATE MONOMER
DRY RtFORMFP. RECYCLE HYDROGEN
PO ACTIVATED » STABILIZED
SHOULD RE REDUCED BEFORE USE.
REDUCED FORM OF HS1Z5
SIMILAR TO HS125
SIMILAR TO HS?25
MYDBOBEMATION
HYDBOGFNAI ION
HYDROUEALKYLATION
HYDBOUEALKYLATION
ALKYLATIUN
ISDMERI7ATIDN PFNTaNE«HE»ANE
NOX fUMFS, HN03 TMLS RASES
SEE DP101 AND DP10Z FOR TORVEX
IMMUNE TO COMMON POISONS
FOR HIGH S03 CONCENTRATIONS
RUGGED IN FIXED-RED OPERATION
AT
TEMDJR»TURE
FROM PHOCFSS STREAMS
FHOM STHFAMSt DRIES SOUR OAS
PARAFFINS
MFGR CAN SUPPLY MORE INFO.
MFGR CAN SUPPLY MORE INFO»
OK IN REDUCING ATMOSPHERES
SIMILAR TOHVEX OPIOI
HS313
HS21*
HS21S
HS216
HS217
HS218
HS219
HS220
HS?21
HS222
MS223
HS22*
HS225
HS226
HS227
HS22B
HS229
HS230
HS231
HS232
HS233
HS234
KC101
MB101
MN101
MN102
MN103
NC101
NL101
NL103
NL103
NL10*
NL105
NL106
NL107
NL10B
NL109
NL110
NL111
NL112
NL113
RM101
UA101
UA102
UA103
UC101
UC102
UC201
UC20Z
UC203
UC204
UC301
UC30Z
UC303
UC30*
UC305
IJC306
UC307
UC401
UC402
UC501
XY101
-------�
TABLE A-2. MASTER TABLE SORTED ON CLASSIFICATION
COPF
NAMF ANU CLASSIFICATION
COMPOSITION
MAJOR USFS
MAJOR USES
COMMENTS
CODE
MS11?
MS133
MS217
HS711
MSlfl?
MS177
F.N?ns
FN?ni
HS?34
GR4?9
HC?OI
HS145
HS14<>
"Slii
HS141
MS14?
MS143
HS144
r,B4ii
MS??.S
MS??*
MS??T
(JB404
HSU?
CA70?
HC?n?
CY7n?
GB301
HS13I)
HS135
HS13T
MSlla
HSlOfc
MS107
HS100
HS147
MS113
HS140
MS149
MS1S3
MS1S4
MSI*O
MSI*!
UC1"7
MSl«iS
GB40S
MS1SQ
MSU4
GB409
r,B4u
r,04?4
BB47T
«B4?n
GB430
MS114
CAT.BABJIIM CMLOPIOE ON c«BBON
CAT.COHALT OUIJE ON MFSELGUMH
CAT.COO, MOO UN ALUMINA
C»T,COPPFB-CHHOMITE
CAT.NICKFL/TllUGSIFN ON ALUMIN»
CAT.NICKFL/TUM&STFN ON ALUMINA
CAT.NICKFL OxIUE ON ALUMINA
CAT.NIC>-ITF
CAT, COPPF.B ON A^UW^A
CAT, COPPfB ON A|UMIN»
CAT, copetK nN AI uMiNt
CAT, COPPEB ON ALUMINA
CAT, COPPtH ON MOLECULAO SIEVE
C«T, COPPF.H ON SILICA
CAT, coPPta OXIOE-ALUMTNA
C«T. COPPFB
CAT, COPPEH
CAT. cn-"0 ON ALUMINA
CAT. CO-MO
CAT, CO-MO
CAT. CO OK1 K|ESELGUHB
CAT. co ON HFFWACTOBY O»IDE
HACL? ZT*. BALANCE C4KHON
COO 15»« BALANCF KIESELGUMH
COO.MOO.ALUMIN4
NOT GIVEN
NI f,,* 11, BALAMCE ALZ03
Nt 4,S.k 9.S. BlL'MCE AL203
NIO S.BAL. AL?Oi-SIOZ (INEHT)
NIO S5, BALANCE KIFSELGUMH
AL201 BB. SIO? <;, TI02 3
XL?01 7?. FE301 1?, SIO? 11
AL303 •*!%, Sin? A*
NOT GIVEN
CB?0-1 17. S» MIN.. AL203 BAL.
CB203 I"). HAL. ACTIVATED ALZ03
CH?03 19, HAL. irTIVATEl) AL303
MOO ?, BAL. ALUMINA
»CTTV«TEO AL?03
4CTIVATED AL803
BFMOVAL OF HCL? FBOM
HYDROOENATION C4T4I Ys
HAL.
H4L.
HAL. SILtCATED AL203
CB203 12
CP201 1?.
CB?n3 5»,
CB203 9*,
CR201 33.
NOT GIVEN
NOT GIVEN (SEE COMMENTS)
NOT GIVEN (SEF COMMENTS)
NOT GIVEN (SEF COMMENTS)
7NO 74, C«?n3 ?1
NOT GIVEN
CB?OI 19. HALANCF ALUMINA
CB 4-R*l AL?01 BALANCE
Mn(0)3 14.61 COIOI 3.21 AL203
M003 15.7. COn 1.0. NA?0 .02
M003 15.7. COO 1.?. NA20 .02
NOT GIVEN
COO 16%. HAL. ACTIVATED AL203
COO 13* ON SIO? TYBE HASF.
COO A* ON Sin? TYPF BASE
con ?o» nN sin? TYPE BASE
COO in*, HAL. ACTIVATED 4L203
COO 1. Mn03 15, BALANCF. AL203
COO 10. HALANCF ALUMINA
COO 5. Clin 5. BALANCE ALUMINA
COO 1. Mn03 I?. BAL. AL203
coo i. Mn03 v, BALANCE ALUMINA
coo 3, Mno3 9. BALANCE ALUMINA
CUO H?iCR?01 ]7
CUO 51« CB?m 47
CUO 4?, CB203 Ja
ruo 54, cB?n3 4f
CUO 37, CB?n3 S?
CUO P0« CB203 17
CB203 44, CUO 4(, RAO 11
CB201 38. Cun 35. BAO 10
CH?nl 43.5, C'lO 39, HAD 10
CB203 3«, CUO 31, RAO 9.S
CB?03 46, Cun 41, BAO 9
CP?nl 60, CUO
CUO 10», HAi .
Cu 7.7*. HAL.
CUCL? in,HAI..
CUCL? 10. HAL
Cll 1.0
CU2C03 6*. BALANCE SI02
CUO. AMOUNT NOT SPFCIFIEl)
CUO 09*
cun 7«*
NnT GIVEN
NnT GIVEN
NnT GIVF.N
NOT GIVEN
Cn 31V PEFBACTiBY 0«IDE-H«L.
NnT GIVEN
CUn 5. HALANCF AlUMINA
rTIvATEO AL203
CTIVATfO AL203
rTIVATEl) AL203P
4CTIVATEO AL203
CONTAINING HYDROCARBON
.SATllBATIOw AROMATIC COMPOUNDS
(SATUHATIOM AROMATIC COMPOUNDS
HYDPnCABBrtMS.
AHPMATI2ATION
FLUin BED USE.
HUTYLENE.
SYNTHESIS.
BEMnVAL OF S2 FROM OAS STREAMS
OFSULfUol/ATInNI HYrmnGFNATION
OESilLFUBl/ATInN. HYnaOGFNATION REDUCES S? ANn N2 IN PETROLEUM
OFSIlLFUBl/ATlON. HYOHOGFNAT ION PtDUCFS S? ANO N? IN PETROLFUM*
HYPBOUF.SULFUBI7.ATION HYPMOuFNI TBIF 1C AT ION
HYOHOGFNAT10N
OE-NlTBnbf NATION/sil
OF-NI IHni>FNATinN/SU
BEFOBM U0. MOLECULUB WFIGHT
HYOBOOENAIInN CATJI.YsT
SlILFUW BtCOVEBY UNITS
OESuLFusiiATiON OF PF.TBOLEUM
C4T4LYST SIIPPOBT
DFHYUHOr,tNATIONI MYPBnCBACK INO
nFMYOBOGt'lATION C4T4LYST FOB
•OFHYOHOGE'-ATION OF BUTANE TO
OF.HYUHOGtNAt ION
nFHYnHOr-tNATION
nEMYtlHOfihNATION
OEMYUOSFNATtnN
BFMOVAL OF s? COMPnS FBOM HAS
BFAOY AS SNIPPED FOB MFTHANOL
SYNTHESUt MFTHANOI
*ATFB-G«S SHIFT 9F4CTION
TtnN OF PuTlMf
0X0 SYNT"fSIS BBnCFSS
0X0 SYNtntSIS PBOCFSS
nxo pHoctss TO COM/EHT ALOE-
MYOPOGKNOIION C»T4I YST
HYOHO- GtNATInN BrACTlONS.
HYI1BO- GtNATION BrACTIONS.
HYOFS TO Al COMOLS.
TION OF MYnBOCAHHONS,
SYNTHfcSli OF HYOBOGFN SULF I Uf
MYOBOOENnlldN, DFCO-'BOSITION
HYOBOCABMON I1ESULFUP I Z«T ION
MYnBOCABHIlN OFS'JI.Fi|Bl?4TI!)N
HYOBOCABhON OESULFltB J74T ION
M ION
UKMOVAL OF TBACF H«0,,NTS OF 02 FHOM GAS STBf.AMS.
CMLOfcl'IAlION
MILDLY ACIDIC
MUST BE REDUCED BEFORE USE
ACTIVATED ALUMINA CA"HIEH
BEOUCED FOWM OF HS12S
SIMILAR TO HS12S
SIMILAR TO HS??5
CATALYST 5EOUIRFS REDUCTION
ACTIVATED ALUMINA CARHIER
BEfaENEHATES. STEAM-JIB
LIMITED DROPPING
ACTIVATED ALUMINA C«HBIFB
TABLETED CU-1BOOP (HS1S*)
TABLETEO CU-020?P (HS147)
TABLETEO ?U-0401P (HS144)
TABLETED CU-1I06P (MS15I)
ALOFHYtlES OH KETONES,
CHLOMIM/lIION CATALYST
CHLOHINA! lo»i CATALYST
HYOBOUlAL»YI ATI"N
OFMYLiHOGtMATF ALCOHOLS 10
LOW TtMP. Cn cONVFBStON
HF.Mnvt 02 • H? Fan-i r.AS SIBEAM
CONVEWI ULlltMYOKS TO ALCOHOLS. BfcMOVF. TBArF GASES (02,CO«H?)
HYOPOUESULFUPI7ATTON
CONvEHT SP COMPIjS TO H?S
POISONED BY S2« HAL06EN COMPS
HYDBOGFNATtnN OF OLEFINS
DBOGFMATION
HYOBOliFNAI ION
HYn»OGFK>At IflN
STYBfcNt MBOmicTIOw FHO" K'HYL- BEN7ENF.I OFHYnBnOEN.OF CUME.NF
BKMnvt nP.Co.M? -r^s STUFAM
pBonucF. MfnwnnFN
INEHT ALUMINA CARHIER
HS132
HS133
CA306
GB428
HS212
HS213
HS192
MS177
EN205
EN201
HS234
GB429
HC201
HS14S
HS146
MS1U
HS141
HS142
MS143
HS144
G8411
HS225
HS226
HS227
MSU5
GB404
HS112
CA702
HC202
CY702
CY701
GR301
HS139
HS135
HS136
HS137
HS138
HS140
MS 106
HS107
HS109
HS110
HS108
HS1»7
HS156
HS15T
HS1S8
HS113
HS148
HS149
HS150
HS151
HS1S2
HS153
HS154
HS160
HS161
HS162
HS163
UC307
HS16S
GB40S
MS159
HS164
GB409
GB414
GB424
GB427
GB426
UR438
HS114
-------�
TABLE A-2. (Continued)
CA1K3
MS11*
HSIft*
HS1«.7
GH435
GR41A
GR437
GR41?
HC?0«>
ENioi
HS171
UA103
HS2?0
MS??9
HS?IO
MS??I
MS?OI
HS207
CA401
HS201
MC?.04
CA«.01
HS11B
NL101
NL104
NL10S
NL10A
CY104
CY105
CYJOJ
CY101
CY10?
C»103
UC40?
UCSOI
MS175
HS173
HS174
HS117
NL107
NL11B
NLll"
HS?Oft
NL111
HS?10
HS211
MS?09
HS19B
MS107
HS20B
HS17*
GR403
MS199
GR410
HS17B
MS170
MSla.fl
MS1B1
HS1B3
HS1B4
HS1B5
HS1BH
HS1B9
GR431
UC30*
CA10?
HS?Ofl
CA104
HS191
HS119
HS?04
MS191
HS194
MS10S
CA701
MS1BT
CAT. IPON'CHROHIUM OXTDFS
CAT. IRON OXIDF ON ALUMINA
CAT. IRON OXIUE ON ALUMINA
CAT, IRON OXlUL ON ALUMINA
CAT. IRON OXIDE
CAT. IRON OXIUE
CAT. IRON OXIDE
CAT. IRON OX|OE
CAT. KAOLIN
CAT. KAOLIN. CRACKING
CAT. MANGANEst OXIDE ON SILICA
CAT, METAL ON METAL
CAT. METAl OxIDES ON ALUMINA
CAT. MFTAL OXIDES ON ALMMJNA
CAT, MFTAL OxIDES ON ALUMJNA
CAT, METAL OXIDES ON ALUMINA
CAT, METAL OxILIfS ON ALUMINA
CAT, MFTAL OxIDES ON ALUMINA
CAT, MFTAL OxIOES ON NA-AL201
CAT, METAL OXIUES ON SILICA
CAT. MINERAL
CAT. MIXFL) OXIDES
CAT. MNO? ON ALUMINA
CAT. MODIFIED SYNTHETIC TYPF
CAT. MODIFIED SYNTHETIC TyPF
CAT. MOLECULAR SIEVE TYPE
CAT. MOLECULAW SIEVE TYPF
CAT. MOLECULAH SIFVE
CAT". MOLFCULAH SIFVE
CAT. MOLECULAR SIEVE
CAT, MOLECULAR SIEVE
CAT, MOLFCULAH SIEVE
CAT, MOLECULAR SIEVE
CAT, MOLECULAR SIFvE
CAT. MOLECULAR SIEVE
CAT. MOLYBUENA ON ALUMINA
CAT, MOLYBUENA ON ALUMINA
CAT, MOLYBUENA ON ALUMIWA
CAT, MOLYHUENUM SULFIOF
CAT, MO, CO, UXIDFS ON ALUMINA
CAT, MO, co, (i«inFS ON ALUMTNA
CAT, MO, NI ON ALUMINA
CAT. NICKEL-ALUMINUM
CAT. NICKEL-TUNGSTEN
CAT. NICKEL/TUNGSTEN SllLElOF
CAT, NICKEL/TUNGSTEN S'lLFiOF
CAT, NICKFL/TU'JGSTFN
CAT. NICKEL CATALYST
CAT, N1CKE.L CATALYST
CAT. NICKEL FLAKF5 (RIIFFRT)
CAT. NICKFL HYDRATE, MFSELGUHH
CAT, NICKEL ON ALUMINA
CAT, NICKEL ON ALUMINA
CAT, NICKEL ON KIFSELGUHR
CAT, NICKEL 0'' KIFSELGUHR
CAT, NICKEL ON KIFSELGUHR
CAT. NICKFL ON KIESELG'.iHR
CAT. NICKEL ON KIFSF.LGHMR
CAT. NICKEL ON KIESELGHHB
CAT. NICKEL ON KIFSELGUHR
CAT. NICKFL ON KIFSELGUHR
CAT, NICKEL ON KIFSELGUHR
CAT, NICKEL ON KIFSFLGUHH
CAT. NICKEL ON KTFSFLGUHB
CAT. NICKEL ON MOLECULAR SIFVE
CAT. NICKEL ON HFFRACT10Y
CAT. NICKtL OXIDE ON ALUMINA
CAT. NICKEL OXIDE ON ALUMINA
CAT. NICKEL O«IOE ON ALUMINA
CAT, NICKtL OXIDF ON ALU"IN»
CAT. NICKEL OXIPF ON ALUMINA
CAT, NICKEL OXIDF ON ALUMJNA
CAT, NICKEL OXIDF ON ALUM|NA
CAT, NICKtL 0«IDF ON ALUMJNA
CAT. NICKEL OXIOF ON ALUMINA
CAT. NICKtL OMOF ON ALUMJNA
FE203 '7'BUI CB203 9-11%
FE201 5l BALANCr ALUMINA
FF203 20. HAL. ACTIVATED AL203
FF20.3 20, HAL. ACTIVATED AL203
NOT GIVEN
NOT GIVEN
NOT RIVEN
NOT GIVEN
SIO? 53%, AL203 45% EE203 0.3»
SIO? 52.9*.AL?01 45«,TIO? 1.7%
MNO? ?», BALANCE SI02
NI 60%. CB ?0*. FE 20S
V?05 5, M001 S. ON INERT AL203
ZNO 3H.CR20J ?S./BALAN« AU203
?NO 10iC°?01 10. RAL. AL203
v?o5 »• MOOI 3, ON INERT ALZOS
NIO 4,EE?03 4, CIO 4.AL203-SI02
NIO 4,FE?03 4,Cnn 4,AL203-SI02
CO-MO OXIDE, NI-MO OXIDt
NIO 10, CUD l.BA| SI02
SIO? 53». ALJ03 45*
FE.K.CA.AL OXIDrS
MNO? 19, BALANCE ALUMINA
AL203 33. 504 0.4. BAL. SI02
AL203 29. 504 0.4. BAL. SI02
AL201 32. 504 0.4. BAL. 510?
AL?D3 32. S04 0.4, HAL. 5102 .
SIO? h6, AL?03 14, FE .1?
AL203 14%, FF .15%. NA20 .0211
SID? Hb. AL?01 15. 504 .1
SIO? B6.AL2o:i 14. FE .05
SIO? 74.AL203 7«.,FF .05
SIO? 74.4*1 AL703 ?5«l Ft ,04%
NOT GIVEN
NOT GIVEN
M003 10. BA|.. ACTIVATED AL203
M003 10, HAL. ACTIVATED AL203
MOOS 11, HA| . ACTIVATED AL203
MOS? 44
MOOJ 12.5. COO 1.5
M003 12.5. COO 1.5
MOO? 14, Nln ?.o, 5102 1.5
NI 49«> AL 49%
H 1A, NI 4. S04 0.4 BAL. AL203
NOT GIVEN (SEE COMMENTS)
NOT GIVEN (SFF rnMMENTS)
NI A.W 19. HAL. MO?./AL203
NI 4f,%. BASF MAT L PROPRIETARY
NI 70S, BASF MAT.L PROPRIETARY
NI ?5* (NO OTHER DATA GIVEN)
NI 44IHYDRATE) .BAL. KIFSELGUHR
NOT GIVEN
NI 4o». BAL. ACTIVATED AL?03
MI ft54> BALANCE KiESELGUHH
NI f.0. HALANCF KlFSFLGUHR
NI 5B, BALANCE KtESEH-UMH
NI SB, BAL. KIFSFLGUHH
NI 5*. HALANCF. KtESFLGUHR
NI 30. BALANCE KIESELGUHH
NI (SO (REDUCED) .QAL. KIESFLGUHR
NI (SO. BAL. K1ESFLGUHH
NI ?a. BALAMCF KIF5ELGUHH
NI ?4 (REDUCED) .HAL .KIESELGUHP.
NI 54*,. /« ?*
NI 1.0
NIO ?0-40*l WFFOACTORIES-HAL.
NIO 5. MG 1.?. UAL. AL?(.M-SI02
NIO 10-70*1 CAODIFP HAL.
NIO 14, HAL. ACTIVATED AL?U3
UIO 1?, BALANCE ALUMINA
NIO i. HAL. ACTIVATED AL?.<>3
NIO 10, HAL. AL?01-SI02 (INERT)
NIO? S, HALANCE AL?03 (INEHT)
NIO l.b.H«L. Al. 303-51021 INERT)
NI 4-7*1 AL?01 HALANCE
NIO 11, HAL. ACTIVATED AL?OS
PROOUCK HYDROGEN
AMMONIA DECOMPOSITION
DEHYUHOGENATION CATALYST
F| UIU-BFU HvDHOGFNATION CAT.
AMMONIA SYNTHESIS
AMMONIA UISSOCIAT10N
OEHYUHOGENATION
RFMOVAL UF S? COMPOS FROM GAS
CRACKING
OXIOATION CATALYST
COMBUSTION HYOHOCAORON FUMES
OXIDATION CATALYST
OXIOAIIOM CATALYST
OECOMROSITION CATAl.YST
A DECOMPOSITION CATALYST
HYOROGENAIIONI HynROnESULFuRI-
HYOPOSENAt ION CATAI.YST
SYNTHESIS OF AMMONIA
OXIDATION
Fl.UIU COACKINC,
FLUID CRACKING
FLUID CRACKING
FLUID CROCKING
CRACKING
FLUIU CRACKING
CRACMNG
CRACKING
CRACKING
CRACKING
ALKYLATIUN
ISOMFHUAIION PFNTAMElHFXANf
Hynoli » DCHYOROGFNATION .ALSO
OEHYUHOGtNATTON
FLUIU BEU HYDROFORMlNG AND DF-
DFHyUROr,ENATIOw. uvDROGFNAT ION
HYOODESIILMIRI7ATIOU
HYOBOUESULFURI/ATION
OESULFUHl/ATION
FOR FIXED HFn.LO*-"iOoER»TE
SPECIFIC "YDROTRFATlMG
7»TION| MYnpOnENlTHIFICATIOM
INERT ALUMINA CARRIED
SUPERIOR. STEAM, TH£RM»L
OK IN REDUCING ATMOSPHERES
i TO S-YEAK EKPECTEO LIFE
PROBABLY A NATURAL ZEOLITE
1-2 YEARS STORAGEI
ACTIVATED ALUMINA CARRIER
SUK. AREA DEC. BY STEAM 1070F
HYOROFORMImG.
HYOROGENATION.
r>ESULFURI7ATION
TEMP. HYDRnGENATION REACTIONS. MUST BE ACTIVATED IN SITU.
SULFldE FUHMICHAC
HYOQOOEMATInN CAT
HyOOOGENAIIOM CATAI YST
HYOROGF.NAIIOM OF FAITY OILS •
HYOBOGF.NAT ION * MFTHANATION
STFAM-HyDHOCARHON HEFOH"ING
MYnPOfatNATION CATJI YST
HYDROOEMA I JON
HYOOOfaFMAUON CAT. FQR TRICKLE
H»000&FK|OIION CATAI YST
HYDBOliEuAlIUN CAT. (PARTIALLY
FUR CERTAIN SPECIFIC PROBLEMS
HYDROGENAT10H CATAI Y$T
HVOBOliFMAIInN CAT. (H|6H PHYSI-
HYOROhFuAMlN CAT. (ACTIVt RUT
HYOROGENA I ION RFACTl()NS
YDHOGF.MOI ION
rooooEALKYi. ATION
EG. NM1. STFA*' HFrOgMINB
GAS REFORMING C»TA|_YST
FTHANATlON
YDROGENATIOk'S « AGINATIONS.
YOROGF.MA I lnf|
GAS RFFOHMINC, CATA| YSI
troRM L
NL111
HS210
HS211
HS209
HS198
HS197
HS20S
HS176
GR403
HS199
GR430
HS178
HS179
HS180
HS181
HS183
HS184
HS185
HS186
HS189
GR431
UC306
CA102
HS200
CA104
HSH1
HS119
MS?04
HS193
MS194
HS19S
CA701
-------�
TABLE A-2. (Continued)
MS1HB
MSlon
HS1R7
GR4 ft ft
HS?"S
GR407
GB40?
I.R401
MS19f
GB*19
CY307
NLlnq
CAIos
HS170
CAflOl
HS?1(S
MS?15
GB470
GH471
BR477
CA^ni
CMOl
CA307
MS?14
GR414
MC?n»,
GR43-)
UC30I
UC107
UC304
UC105
GR440
GR41*
RB417
GB415
OG?I7
OG711
XYlni
HC?07
MC?"»
UCim
MH1 of
CY4ftl
IIA107
Uil 1 1
GR475
FN?na
NLln
HC709
OG711
nc?i n
HS1?A
NLl 0?
NL101
1C307
HS71 7
MS???
MS774
MS??1
CY501
MS177
HS173
HS171
Ci?01
CY*Sni
HS?19
MS71R
MNIO?
MN1 01
MNl 01
HS717
HS?11
CAI.
CAT.
CiT.
Cit.
CiT.
CAT.
CiT.
CiT.
CAT.
CiT.
CiT.
C»T.
CAT.
CiT.
CiT.
CiT.
CiT.
CiT.
CiT.
CiT.
CAT,
CiT.
CiT.
CiT.
CiT.
CiT,
CAT,
CiT.
CAT,
CAT,
CAT,
CAT,
CiT.
CiT.
CiT.
CiT,
CiT,
CiT.
CiT,
CiT.
CiT.
CiT.
CiT.
CiT.
CiT.
CiT,
CiT.
CAT.
TAT.
CiT.
CiT,
CAT.
CAT,
CiT.
CAT.
CiT,
CiT.
CiT.
CiT.
CiT.
CiT,
CiT.
CAT,
CAT.
CAT.
CiT.
CiT.
CAT.
CiT.
CiT.
CAT.
CAT.
MCKtL OXIDE ON ALUMINA
NICKEL OXIDF, KIF.SFL6UHP.
NICKEL OXIDE. KIFSFLGUHR
N1TKF L
NICKEL
NTi"Kf- L
NICKEL
NICKEL
NICKEL.ALUMINUM
NI-CO PROMOTED
M-MO
NI ON Sl02-AL?03
Ml. CO. Co ON ALUMINA
NI.M. ON ALUMINA. suLFinED
NOBLt MFTAL ON ALUulNA
PALLADIUM CiTiLYST
PALLADIUM ON ALUMINA
PALI ADIlJM ON ALUMIMA
PALLADIUM ON ALUMINA
PALLADIUM ON ALUMINA
Pil L'UIllM ON ALUMINA
PALLADIUM ON ALUMTMA
PALLADIUM ON ALUMINA
PALL'DIUM ON iLUMINi
PALLADIUM ON CARBON
PALLADIUM on CARBON
PALLADIUM ON CARBON
PALLADIUM ON MOL. SIEVF.
Pil.lADIuM ON MOL, SIEVE
PALLADIUM DM »OL. SIEVF
PALLADIUM ON MOL. SIFVF
PALLADIUM ON SI07-AI.203
PO OM ACTIVATED ALUMINA
PO ON irTIVATFO CiPHQN
PO ON REFRACTORY OXIDE
pFLLtiEn SILICA/ALUMINA
PFLI.ETEO SILICA/ALUMINA
PLATINUM ON ALUMINA COMR
PLATINUM ON iLU'MNA
PLiTlNUM ON iLUMTNA
PLiTlNUM ON MOL. STF.yE
PLATINUM ON TORVFX
PLATINUM
POROUS CERAMIC
Poonus CERAMIC
POOuOTEO COBALT
BFFOWM Irg(i
SILICA-ALUMINA
SILICA-ALUMINA, SYNTHETIC
SILlCA/iLDMTNi
SILICA/MAbNFSIA
siLvEf ON ALUMINA
SYNTHETIC SI02-AL703 TYPE
SYNTHETIC SI'l?-AL?03 TYPE
Tlfl.ETEn iLUMINi
TIT4NIA ON ALUMINA
TUNGSTEN OXIOF. ON ALUMINA
TUNGSTEN OXIOE ON iLUMINi
TUNGSTEN "XIOE
ViNiDIi. SILICA
VANiDIA ON ALUMINA
VANAOIA UN ALUMINA
VANiDIA ON SlLICi-iLllMINA
VANADIA, K-PROMOTFO
viNiDii. SUI.FURIC «CID
ViNiPIUM OXIOE ON iLllMINA
VANiOIUM OXIDE ON »Ll)MIN4
VANAOIUM OXIOE
ViNitMUM OXIOE
VANADIUM OXIOF
ZINC ACFIATF
7INC OX|DE ON ALUMINA
NIO 1S> P.AL. ACTIVATEO AL303
NIO IRi R1L4NCF KtFSELGUHM
NIO (4», RALiNCF. KIFSEL6UHH
NI 3?» BALANCF-MUT GIVEN
NIO S. BiL. INFoT CUBES
NI 3?% H4LANCF-NOT GIVEN
NOT GIVEN
NI 15 TO 25* RA| ANCE-NOT GIVFN
NI Sot, iL S0»
NOT GIVEN
MOIOI1 15»l NIO 3.)»l
M003 13. NI 4.S. SI03 15
NI.CO.CB,ALUMINA
Ml 4.5) » 9.5, s , HAL. AL203
NOT GIVEN
Pn 0.3,fliSf MAT I PROPRUTARY
PH 0.3*1 HAL. ACTIVATED AL203
NOT GIVEN
NOT GIVEN
NOT GIVEN
PO 0.045-0.055*. AL203 BALANCE
PALLAOIUM 0.0«-n.H%
PO n.045-0.05S*. AL203 BALANCE
PO 0.3*. HAl . ACTIVATED AL?03
PO 1 TO 101.. CiPRON BALANCE
Pn. S-IO, AS SPfCIFIEO
pn i TO in*. CAPRON «ALANCE
Pn 0.5
pn 0.5
Pn 0.5
pn 0.5
Hn ,05-.5,SI02-4L2n3 H4LANCE
NOT GIVEN
NOT GIVEN
PO o.ob-o.<>» RFFRACT OXIDE-BAL
SIO? B7,iL?03 1T.FF203 .OS
SI07 7b.AL?03 ?
-------�
TABLE A-2. (Continued)
HS2?H
MSI 24
MS?33
BR41?
MS207
4C3m
MS134
CA304
KC1M
EN201I
FN?04
NLI1?
MSln5
MSinf
HSln?
HSlm
HS104
OPlOi
MSI 31
RMlOl
HS130
4C301
ccim
MC2K3
CC33»
CC33Q
CC3»n
CC341
CC3*7
CC324
CC37S
CC3?«,
CC3?7
CC317
CC3ftA
CC107
CC30H
CC3no
CC3in
ceils
CCin?
CClni
CC1IH
CC3ni
CC?nf
ALIO?
ALlni
HSlls
OPln?
CC3?1
CC3?7
CC3?1
nG?ni
DG?O?
OG?09
nG?ni
OG204
nG?ns
nG?n«,
DG?OH
CC37.9
CC31n
ccni
CC33?
CC333
CC17H
EPIO?
EP1"I
CC317
CC11»
CC31Q
CC370
CC311
CC117
CC3M
CAT.
CAT.
C»T.
CAT.
CAT.
C4T.
C«T.
C4T1
CRP.
CPU,
CRH,
Cow.
CRB.
CPU.
CRR.
COB,
CRR.
CHH.
CRH,
CRR.
CRR.
CRR.
CRR.
CRR.
CRH,
CPR.
CRR.
CRR.
CRR.
CRH,
CRR.
CRH.
CRR.
CRH.
CRR.
CRR.
CRR.
CRR.
CRH.
CRR.
CRH.
CRR.
CRR.
CRR.
CRR.
CRR.
CRH.
CRR.
CRRi
CRR.
CRR.
CRR.
CRH,
CRH.
CRH.
CRH.
CRR.
CRR,
CRH,
CRH.
CRR.
CRH.
CnH.
COH,
CRR.
CRH,
CHR,
CPH,
CHH,
CRH.
CRH.
CPR.
CRH,
CRH.
row.
7INC OXlOE
7iNr
ZIRCONIA
7H PHOHoIEO Nl
(MYSEL)
ACTIVATED ALUMINA
COBALT ON MESELGuwB
PALLADIUM ON SPECUL CP.R.
ACTIVATED ALUMINA
ACTtVATFU BAUXITE
ACTIVATED BAUXITE
ALU-INA BASF
ALUMINA CATALYST
ALUMINA CATJLYST
ALP
ALI
ALI
ALU
ALI
ALI
ALI
ALI
ALI
ALI
ALI
ALI
ALI
ALI
ALI
AH
ALI
ALI
ALI
ALI
ALI
ALI
ALI
ALI
ALI
AL>
ALI
ALI
ALL
uINA CAT«LYST
ulNA CATaLYST
M]NA CATALYST
ulNA "ONEYCOMR. TnHVFI
M.INA
u]NA
MlNA
MlNA, CATALYTIC GRAPE
MIN4, liAS REFORuUiG
MlNA, HAun
MINUM 'IXIOE {SINTERED)
MlNijM OxtnE (ST"TrHEni
MINUM oxmE istMTEBEni
MlNUM nxlflF 1SINTFRED)
MiNUw (ixinE (SiNTfRFn)
MlNUM OXIDE (SIMTFREPI
MlNUM OxmE (SINTERFni
MlNUM OXIDE IST'lTFRF"!
MlNUM OxtfJF (SINTERF")
MinuM nxinE (STMTFRF.n)
MINUM »x IDE FUSED.
MjNIJM OXIDE FUSED.
MINUM ox IDE FUSED.
MlNUM OXIDE FllSFo.
MINUM OXIDE FUSED.
MlNUM OXIDE FIISFD.
M. OxlUE.FUStD (»HlTF)
M. OxIOE, FUSED (WHITE)
M. oxiiiE, FUSED (WHITE)
ALU". OXlDE.FUSFD IMHiTEl
CARRON-DN-ALIIMINA
CORDlEHlTE
DNFYCOMh. ALUMINA
AGNESlA
ULLHE HONEYCOMB. TQRVEX
ULLITE
ULLITE
ULLITE
SILICA-ALUMINA. ZFni 'IE
SILICA-ALUMINA, 7FOLITF
SILICA GtL
SILICA r,EL
SILICA r,tL
SILICA r,EL
SILICA r,EL
SILICA r,tL
SILICA
SILICA
SILICA
SILICA
SILICA
SILICA
SILICA, OlATOMACFnuS
SILICA. UIATOMACEOuS
SILICON CAHRinE
SILICON CAHHIDF
SILICON CAHHInE
SILICON CARHtnF
SILICON CARHInE
SILICON CAHRinE
SILICON CAHHInE
ZNO 100*
ZNO 75, AL. Mr,, c*. CR OXIDES
7R02 98*. HALANrE AL203
NI 33*. O.ALANCE.NOT GIVEN
NI 30IACTIVF)IBASE PROPRIETARY
AL201 84*. M1CKFL FORMATE 2.5%
CO 39« BALANCE K1ESELGUHR
NOT GIVEN
AL201 93.6*. NA70 1.30%
4L203 81.5. Sin? 10.5.TI02 3.5
4L201 93.5. SIO? 2.5, TI02 2.0
4I.UMJN4
AL?"1 99
Al.?d3 96
Al ZD1 9R
AL?DJ 9?. SIO? *
96K.MGAL?0* 3».MULLITE 1
92*. 510? US
AL2D3 9?.?.NA70 .5.SIO? .10
AL?03 97«,
MGO.AL203.SIO?
AL201 99.St. N»?n n.»S*
AL?D1 98.0* NA?n 0.1*
AL?01 9A.SIO? 7.4.FE203 ,6«
AL?ni 96,SID? 1.1.rAO 1.?
AL?01 99.NA70 ,S,FE?03 .0*
A|.?(ll 82,Sin? 9.S.MGO 3.BAO 2
AL203 99.8.SID7 .OS.Ft203 .04
AL201 8H.SIOZ 1H.TI02 .5S
AL701 9h,Sln? 7.4.FEP03 0.64
AL201 99.5.NA7D .4S.FF203 .03
ALJOI 96,Sin? 3.4, FE203 .64
AL?n3 96.Sin? P.4.FE?03 .64
Al_?01 85.5.Sin? 10.S.TIO? l.g
AL?m 8S.S1D? n.TIO? 1.9
AL?03 85.S.SID? 10.5.TIO? 1.8
AL203 84,SID? 11.T102 Z.2
AL203 72.SID2 27.TIO? l.«
AL?m 7?,Sin? 77.T102 l.H
AL?01 H9,SIn? 9.CAD .6. HAO .5
A|.?n3 80,Sin? 10.5, TIO? .55
AL20.1 84,5,SID? 10.4.CAO .S3
AL?03 88,5102 9,CAn 1.NA20 .52
A|.?ni H9*. CAHRDN 11*.
MRO.AL203.(S/?Stn?)
ALUMINA <)•,» (ALSIMAG 614)
MGO ")«
MULLITE S5*.Sin? 3H*,AL2n3 15»
AL203 67.S1D2 3n,CAO .7
Ai?ns 68.sin? ?O,CAO I.BAO
AL203 69.SI02 TI,N/I?O .43
AL203 31, SIO? «,0, S04 0.4
sin? «7. AL?ni n
SIO? 99.S.NAO? .09.FE .0?
Sin? 99.7.FE .()•>.NA20 .0?
SID? 99.S. MA?n .09. EE .02
SIO? 99.H. FE .nl. NA20 .02
SIO? 99.5. FF .n.l. NA20 .02
SIO? 99.S.FE .07.A12D3 ,?0
SIO? 94.MA,>0 ?.*,CAO 2.MGO
SID? 9b.NA2n 1,t,AL?03 .56
SIO? «l,AL2n3 1S,N»20 1.K20 1
Sin? 94.NA?D 4.S,CAO .59
SID? 95.CAO 4.9S.AL203 .23
510? »3.AL?n3 A.RAn .4.MGO .33
SIO? 92. AL701 s. FE?03 l.«
AL203 92«.AL203 5*.FE203 1.8«
SIC 7H.SI02 IS.4L2n3 ».CAO 1
Al.20.1 4.SIC 78,SIO? 14.CAO 1.3
SIC 77.SI02 U.AL?n3 6.K20 .55
SIC S9.S10? ?7.Al?n3 II 1*1*20 1
SIC 59.SI02 27.4L203 11.NA20 1
SIC 78.S10? !S.«L?n3 5.5
SIC «0.Sin? 14.«i?D3 4.NA?0 .7
.49
.81
STREAMS.
HYDHOGENATTON OF EDIBLE OILS.
ATMnS. IN URAT-TP.EAIING FU«N.)
ATION REACTIONS.
RFMnVAL UF SULFUR FROM RAS
nESllLUJPlZATION
HYOPOGEMATinN
SUPFXIOR SELECTIVITY l«l TMg
CATALYSTI^HDD. OF CONTROLLED
nxn PHncESS « RELATED MYOHORFN
SELECTIVE HYDRnSFN/iTlON
MEDIUM
DRYING AbENT. DEHYnRATlON
DRYING AbFNT. OFHYDHATION
OXIDATInN OF MYORncAp80N FUMES REDUCTION MITHOGEN OXIDF FUMES
FLUID ".ELI nPERATtONS
RFFDXM1NG.CRACK1NR
GAS HEFo«*lN(i
REFnHMlNli. ISDMFRI7AT10N «LKYL*TtON, OEHYOH4TION
CAPRlEM IN HCN BF4rTnR
NOX EUMF ABATEMENT
NOX FUME 4Q4TFMENT EQUIPMENT
MCN BEACTno
OXIDAIInN OF HYDflnCAHROM FUMES REDUCTION NITROGEN OXIDE FUMES
OF.HVOHAT1ON
CARRIER / SUPPORT
CARoIEP / SUPPDHT
CARRIER / SlIPPDHT
CARRIER / S'IPPnUT
/
/
CAHBlEH
CARRIER
SHPPOHT
SUPPnPT
FOH CATALYST
FOH CATALYST
FDH CATALYST
FOH CATALYST
FOH CAIALYST
FOH CATALYST
USED IN THF CHEMICAL INDUSTRY.
USED IN THF CWEM1C4L INDUSTRY.
USED IN TMr CHEMICAL INDUSTRY.
USEn IN THC CHEMICAL INDUSTRY.
USED IN THC CHEMICAL INDUSTRY.
USED IN THF CHEMICAL INDUSIPY.
CATALYST SUPPORT
CAHHlER K"FF FROM POjSONS
CONSULT HAHSHA* P.EP..OET4ILS
GRADE F-l « NICKEL FOBM4TE
3-YE4R EXPECTED LIFE
4LSO USED «S SOPBANT. CATALYST
ALSO USED AS CATALYST
HIGH ACTIVITY ALUMINA CARRIER
ALUMINA IS 4CTIV4TED
HIGH ACTIVITY ALUMINA CAHHIEP.
HIGH ACTIVITY ALUMIN* CARRIER
HIGH ACTIVITY 4H'MlN4 CARRIER
STRONG. THEHM4LLY ST4BLE
RESISTANT TO STEAM AND M2
T»UE DENSITY, SOLID 230
EXIHA-HIGH POROSITY, FINE PORE
EXTHA-HIGH POROSITY. FINE PORE
EXTRA-HIGH POROSITY, FINE PORE
EXTHA-HIGH POHOSITY. FINE PORE
EXTHA-HIGH POROSITY, FINE PORE
HIGH POROSITY, OPEN STRUCTURE
HIGH POHOSITY, TIGHT STRUCTURE
HIGH POROSITY, TIGHT STRUCTURE
MED. POROSITY, TIGHT STRUCTURE
EXTHA-HIGH POROSITY,FINE PORE
LOM POROStTY. COARSE GRANULE
MEDIUM POROSITY,COARSE GRANULE
MEDIUM POoOSITY . GRANULE
MEDIUM POROSITY,OPEN STRUCTURE
MEU. POROSITY, TIGHT STRUCTURE
EXTHA-LOH PORDSITY,TIGHT STHU.
MEDIUM POROSITY « PERMEABILITY
MED. POHOSITY, TIGHT STRUCTURE
MEO. POHOSITY,TIGHT STRUCTURE
MEDIUM POHOSITY.COARSE GRANULE
SUPPLY ENGELHARD.OXY-CATALYST
STRONG. THERMALLY STABLE
L0« POROSITY.COARSE GHANULE
MEO. POHOSITY,COAHSE GRANULE
MFU. PDROilTY. TIGHT STRUCTURE
ATTRITION RESIST. IN FLUID BED
LOU POHOSITY. COAHSE GHANULE
MEO. POPOSITY. COARSE G04NULE
MEO. POROSITY, TIGHT STRUCTURE
MEO. POHOSITY, TIGHT STRUCTURE
MEU. POHOSITY, TIGHT STRUCTURE
HIGH POROSITY. TIGHT STRUCTURE
FREE FROM CATALYTIC POISONS
MEO. POHOSITY,COARSE STRUCTURE
MEDIUM POoOSITY » GRANULE SIZE
MEOIUM POROSITY,OPEN STRUCTURE
MEO. POROSITY. TIGHT STRUCTURE
EXIHA-LOH POROSITY,TIGHT STHU.
HIOH POBOSITY, OPEN STRUCTURE
HIGH POROSITY, TU.HT STRUCTURE
HS228
HS124
HS233
HS207
AC303
HS13*
CA30*
KC101
EN203
FN20*
NL11Z
HS105
MS101
HS102
HS103
HS104
DP101
HS131
RM101
HS130
AC301
CC101
MC203
CC338
CC339
CC340
CC341
CC342
CC32»
CC325
CC326
CC327
CC337
CC306
CC307
CC308
CC309
CC310
CC30S
CC302
CC303
CC304
CC301
CC20I
4L102 ''
4L101
HS115
OP102
CC321
CC322
CC323
DG201
PG202
DG209
DG203
DG204
nG205
DG206
OG708
CC329
CC330
CC331
CC332
CC333
CC328
EP102
EP101
CC317
CC318
CC319
CC320
CC311
CC312
CC313
>
-------�
TABLE A-2. (Continued)
CCH4
CC11S
CC11A
NClni
CC13H.
CC33S
CC114
ACIOI
DG104
AClni
EN?n?
EN?n»,
FN707
GR?0?
BR419
RClnj
4C104
MS17B
MS1?9
HS177
OG31?
DG303
013304
OG1PS
uclnT
UC107
uc7.ni
uc?o?
i)C?01
UC?04
OG36i?o
OG12J
noi??
DG171
nei?4
D6i ?«;
061?*
06177
nGin?
OG103
loin?
OG11S
OGIO«,
00107
OGIHH
or, ing
061 in
OGiii
OG117
GB413
ACin?
IJC401
COB.
CRH,
CBR.
CRH.
CBR.
CRR,
COR,
StLTCON CARBIDE
SILICON CARBIDE
SILICON CARHIDF
ZEOLITE. SYNTHETIC
7IRCONU
7IPCON
ZIRCON
SOR. ACTIVATED ALUMINA
SnR. SILICA GFL
SOR,
SnR.
SnR.
snR.
Sow,
Sns.
SOR.
SoR.
snR.
SnR.
SOR.
snw.
snR.
sn«.
snR.
SnR.
so".
SnR.
SnR.
SnR.
SnR.
snR.
snR.
snR.
Sns.
SnR.
SnRi
snR.
SoR.
Sn«.
snR.
snfi.
snR.
SnR.
SnR.
SnR.
SnR.
SnR.
snR.
SnR,
snfl,
SnR.
SnR.
SnR.
snR.
SnR,
SnR.
SnR.
SnR.
SOR,
ACTIVATED ALUMINA
ACTIVATrO BAllxTTF
ACTIVATED BAUXITE
ACTTVATFU B/MIXITF
ACTIVATED CAPRON
ACTIVATED CABBON
ACTTVATFD CARBON
ALUMINA GEL
ALUMINA
ALUMINA
ALUMINA
MOLFCULAR SIEVE
MntFCULA* SIFVF
MOI.FCULAR SIEVE
MOLFCULAH SIFVF
MOLFCULAB SIFVF
MOLFCULSW SIEVE
"OLFCULA* STFVE
MDLFCULAH SIEVF
MnLFCULAW SIFVF
MOLFCULAM SIEVF.
HOLECULAR SIEVE
SILICA r,lL
SILICA GEL
SILICA r,tL
SILICA r,tL
SILICA GEL
SILICA REL
SILICA r,tL
SILICA r,EL
SILtCA RtL
SILICA r,EL
SILKA <;EL
SILTCA GEL
SILICA fitL
SILICA r,tL
SILtCA GtL
SILICA RtL
SILICA r,EL
SILICA r-tL
SILICA RtL
SILICA r.EL
SILtCA r,EL
SILICA GtL
SILICA RtL
SILtCA RtL
SILtCA RtL
SILICA GtL
ZINC 0»tUt
ACTIVATED ALUMINA
SIC BO.SI02 14,A|?03 *,NA?0 .T
SIC 77.5.5102 1S.AL203 5.b
SIC 59.Sin? ?f,.^.AL?03 11
NOT GIVEN
7BO? 93.CAO S,St02 .4.ALZ03 .5
7BW 54.SI07 3S.aL?03 7.CAO .6
ZBO? 60.SIO? 3«,.AL?03 ?.CAO ,9
«L?03 B8, NA?n .06. COCLZ i,0%
SIO? 99,7. «L?ni .10. TIO? .09
4i zn3 v?». N4pn o.9»
AL?n3 7B, M07 Q, Ft?03 a,
AL?03 81.5, Stl? 10. TIOZ 3.5
NOT GIVEN
NOT GIVEN
NnT RIVEN
(-ABBON
Al ?n3 90, STO? 7.2, NA70 1.6«
AL203 98%, BALANCF MOISTURE
ALK»LATION ANn ISnMFpJ/ATION DRY HEFORMFP PECYCLE HTOR06EN
AL701 9S».
NOT RIVEN
NOT RIVEN
NOT RIVEN
MOT RIVEN
NOT RIVEN
NOT GIVEN
NOT RIVFN
NOT GIVEN
NOT RIVFN
NOT GIVEN
BALANCE MOISTURE
NOT GIVEN
SIO?
SIO?
SIO?
SIO?
SIO?
StO?
SIO?
SIO?
SIO?
SIO?
StO?
SIO?
SIO?
StO?
SIO?
SIO?
SIO?
SIO?
SIO?
SIO?
SIO?
SIO?
SIO?
SIO?
SIO?
SIO?
NOT r,
AL?O?
99
99
99
99
99
99
99
99
99
99
99
99
99
99
99
99
99
99
99
99
99
99
99
99
99
99
IV
.7,
.7,
.7,
.7.
.7.
.7.
• 7.
.7,
.7,
.7.
.7.
.7.
.7.
.7.
• 7,
.7.
.7,
AL701
AL?01
AL701
.10
.10
.10
4
,
,
AL?OI .in.
AL701
AL701
AL701
AL701
AL?OI
AL701
AL701
AL701
AL701
AL?01
AL701
AL?01
AL70T
.in
.10
.10
.10
•
.10,
.10
.10
.10
.10
.10
.10
.1"
.10
,
,
,
.
TI02
TIO?
TIO?
TIO?
T102 .
TIO?
TIO?
TIO?
TIO?
tI02
no?
TIO?
TIO?
TIO?
TIO?
TIO?
TIO?
.09
.09
.09
.09
09
.09
.09
.09
.09
.09
.09
.09
.09
.09
.09
.09
.09
.71*
.7,
.7.
.7.
.7,
.7,
.7.
.7.
.7.
EN
77%.
AL?ni .10, TI02
AL701
AL7O1
AL'OT
AL701
AL701
AL7O1
AL70-)
NA?n 0
.10
.10
.10
.10
.10
.1"
.10
.Bfc
,
.
.
.
.
,
,
TIO?
TI02
TI02
11"?
TIO?
TIO?.
TIO?
CACL?
.09
.09
.09
.09
.09
.09
.09
.09
9.3
BRFATNEa t'l'lIP. • «PpLtC. REn.
AIR ANO l)AS nRYINR
OHYIMG RASES ANtl I. IQUIOS
FOR REFININIi BFTROI.EUM PHUDllCT
OFSSICANT FOR HYnBOCARBnNS,M7S
OVFBCOMF SOURING nF HYhBOCBNS
OESMLFUol/IMG HAS STREAMS
RFMnvAL uF s? cnMOns FRIM r,«<;
RFMnVtS TOXtc OASFi; FROM At«
DRYING fiASSFS IJNnfO HIGH RBFSS
IC AnsnRPTION
RFMnVAL OF H?S, C17, • FlMYL
nF.HYUh4TlllN nF MOST FLUIDS
REwnvAL OF to? « HJO runt AIR,
PSFBlbEPATJON SYSTF"S
REMOVES SO? AND nxtOES OF N?
BEMnvES SU? ANO n»inFS IF N3
SEBaRATES NORMAL FonM. HUANCHEO
BFunVtS Ht<\, CO?. M?S FROM GAS
DFHYURATl'IN "
OEHYl'RATl"NI DFSStrANT
OBYTNG ilNSATIIHATEn MrDROCARBON
SELFCTIvE Al>Sn«PTlnN- USED FnH
SFLFCtlvt AnSnRPTinN- USED FnR
SEI.FCTIvE AnsnBPTtlN- USFll FnR
SELECTIVE AOSnRPTinN- IISEO FnR
OFSSlCAKjT
SOURCE OF sin? IN THE" BE»«
INDICATING nESICCJK'T
iNniCAii^c. nFSICCAMT
INDICATING OFSICCSNT
INDICATINC, DFSICC4MT
OEStCCAMl
ANTI-CAKl'lR AGFNT
OESICCAMT. POSSIBI F USE AS CAR
USED to INTUDDUCF u?o Tn SYSTM
CMRO^ATO^^APHIC SCOARATION
4|D AND 'iflS ORYIMR
4 TR AND GftS OHYING •
AIO ANO UAS ORYTNR
AIR AND buS DRYING
«IR AND 1>AS DRYINR
A|R UNO 0*S ORYINR
ATR ANO bAS nwYINR
SFlFCTWt AOSnWRTtnN- USEU FOR
SFLFCIIVt AnsnR^TTnN- USFU FnR
SELFCTIvE AnsnRPTinn. USEO FOR
SFLFCTIvfc AnSnRPTtnN- USEO FOP
RFMOVKS M*?S FROM RftS STREAMS
VISIBLE INn. OF ADSORPTION
POSSIl-Lf CATALYST OK CARRIES
MAINTENANCE OF TRANSFORMEH OIL
OECOLOB17FSI nEODOHIZESt 0»IES
DRYING MALORENATEO MYOHOC8NS
FIXFO BED OPERATIONS
• STATIC DRYING APPLICATIONS
MERCAPTAN TRON NATURAL GAS.
• H?S » MFUCAPTAN FROM L.P.Ro
FHOM PROCESS STREAMS
FHOM STRFAMSI DRIES SOUR HAS
PARAFFINS
IETHYLENE.OROPYLENE.BUTADIENE) "
LIQUID OR r.aS PHASE SEPARATION
LIQUID OR R«S PHASt SEPARATION
LIuuiD OR r,js PHASE SEPARATION
LIQUID OR r.AS PHASt SEPARATION
ANTI-CAKIN-; ARENT
L0» POROSITY, C04HSE GRANULE
LO* POROSITY, OPEN STRUCTURE
L0» POROSITY. TIGHT STRUCTURE
MEO. POROSITY, TIGHT STRUCTURE
LOW POROSITY, TIGHT STRUCTURE
LO* POROSITY. COARSE GRANULE
VERY LIMITED USES IN LIQUIDS
NONTOXIC
COLORED LT. BRO*N
OH AS SELFrTIVE AOSOWHANT
POSSIHI.F CATALYST o« CARRIER
POSSIMLF CATALYST OR CARRIER
USED AS CAT IN LIO PROCESSES
»IOFL* USFn AS SOH »ITH LIQS
LIMITtD use WITH LIQUIDS
POSSIHLK CsTALYST OR CARRIER
IIOIIII) OR r.nS PHASt SEMaRAtlON
LIUUID OH RaS PHASE SEPARATION
LIOUIO OP f.AS PHASE SEPARATION
LIOIIIIJ OH r,,s PHASt SEPARATION
CHNlitS COLOR AS HUMIDITY CHNSS
VERY POROUS
ALSO USED IN LIQUIDS
ALSO USED IN LIQUIDS
SOMt USE AS CAT IN LIQ PROCESS
POSSIBLE USE AS CATALYST
CC3U
CC315
CC316
NC101
CC336
CC335
CC334
AC103
DG104
AC101
EN?03
F.N?06
EN207
GH439
PC101
AC104
HS1?S
HSU9
HS1?7
0630?
OG303
PG304
DG305
UC101
UC103
UC?01
UC?0?
UC?03
UC?04
DG301
DG113
OG114
OG115
DG116
DG117
00118
DGI19
DGl^O
DG1?1
DG1Z2
DG1?3
DG1?4
DG135
OG1?6
DG137
DG10?
DG103
DG101
OG105
OG106
DG107
OG108
OG109
DG110
00111
OG11Z
GR413
AC102
-------�
TABLE A-3. MASTER TABLE SORTED ON COMPOSITION
CODF
NAMF AND CLASSIFICATION
COMPOSITION
"A.inP USES
COMMENTS
CODE
MSI?*,
AL10I
NL1I?
NLlni
CY105
•(Lin?
NL114
OG?f>l
NL111I
NL113
CC3I«
CC371
CC37?
CC371
CClin
CC105
EN?OI
Ad"?
ENZO?
CC301
EN?ns
FN?OA
FN7P1
cc34i
CC3na
CC314
CClnr
CC3nn
CC30B
CC174
CC301
ACl^l
FN?0«i
ccio?
CC?»i
4C1"4
HS?34
MS104
4C101
MS111
EP101
FN?04
KC101
"Sill?
CC330
CC137
CC33P
CC1?T
<;Rlni
CAT. SILVER. ON AI.IJMINA.
CRR. MONFYCOMB. ALUMINA
CRH. ALUMINA HUSF
CAT. SYNTHETIC SI02-AL703 TYPE
CAT. MOLFCULAH S1FVF
CAT, SYNTHETIC Sin?. 41.711 TYPE
CAT. MnntFIEn SY-'THETIf TYPF
COM, STLTlA-ALUMINA.ZFOt.lTE
CAT, MOLFCULAH SIF.VF TYDF
CAT. MOLFCULAK SIF.vF. TVOF
CAT. STLTCA-4LUMIN4
C4T. MODIFIED SYNTuFTTi- TYPF
COR, SILICON
COR,
COR.
CHR. MULI.1TF
CRR. 4LUM1NUM OXIDE. FIKFD.
CPH. 4LUMINUM (I XT I)F. i FuSFrv.
CAT, ACTIVATED HAUXTTF
SnH. ACTTVATFU ALUMINA
SIR. ACTTVATFI) HAUXTTF
CRR. ALUM. OirlUE.FUSFO (WHITEI
C«T. REFnhMlNfa
SflH. 4CTTV4TEU RAUXITF .
COR." ACTTVATFU H4UXTTF
COR. ALUMINUM '.Kins (SINTERED)
COR. ALUMINUM uxuiF. FusEn.
COO. 4L'JM. OXlOF. FUSED (WMlTF)
C4T, 4CTTVATEI' ALUMINA
COR. ALUMINUM OXIDE. FUSFO.
CRO. ALUMINUM oxinE. FiisF.n.
CRH. ALUMINUM IIXTMF, FllSEo.
CRH. ALUMINUM UXTDF (StMTrRFO)
CRR. 4LUM. OxIUt.FilSEO (UHlTE)
S1«.«CTIvATEn 4LUMIN4
C4T. ACTIV4TFU HamlTF
coo. AI.UM. otiiiE. FUSED (KMITD
CHR. CARRON-0"-«L"MIN4
SoR. 4L'I«IN4 b£L
C4T. 41.IIUIN4
COO, 4LI|«IN4 CATatYST
COO, fl|_l|MlNA
SOO. 4I.MMTNA
SO". 4CTTV4TFU 4l.l|MlN4
COO. 4LUUIN4
CHO. SILICO, DI4TOM4CFOUC;
COR, ACTIV4TFO H4IHITF
CRO. 4CTIV4TFU 4LUWIN4
COW. ALUwINA CATALYST
CRR, 4LU«lN'IM OXtflF (STNTF.RFO)
CPR. ALUMlMM OXIIIF (SINTFOFO)
COR. 4LU"INUM OXTHF (SIMlFRFID
COO. ALUMINUM OXmFJ
COR. ALUMINUM OMflF. (SIMTrHET)
CftT, PLATINUM UN 4t_tiM^>4
'
MS131
MS101
CRO. 4LUMIN4
COO. ALUwlNA CATALYST
CHB. ALUMINA
COB, ALU»INA C4T4LYST
TOM. 4LUMINA, M4UI)
MS177 SOW. 4LUMINA
MSl?fl SOH. ALUMINA
MSlni CRO. ALUMJMA C4TALYST
CC14H COR. ALUMINUM 0«lnF ISl
CC3?* CRO. ALU"!NI|M fxlnF (SI
eemi co»« ALUMINA, c;4<; REFOO
AC3f>7 CAT, TARl.KTFJn dlUMfigA
CC147 COO. ALUMINUM (IMflE (SI
MS13? C4T.MAWMM CMLf'RTnE IN
ncioi SOB. ACTTVATFIJ canur^
HS11« C»T. C'IRAl I rAT4| YST
MSIIS CAT. CO«»LI ca'4i Y<;T
TyOVFX
A6 4.0 HAL4NCF. AI.Z03
ALUMINA 96* (ALCTMAG 614)
ALUMINA
AL203 13, S04 0.4. HAL. SI02
ALZ03 14», FE .01;%, NA?0 .02*
AL?01 85, SO* 0.4, BAL. SIU?
AI.203 29, S04 n.4, BAL. SI02
AL201 31. STO? H9, S04 0.4
ALP01 3?, S04 0.4. BAL, SIOZ
ALJ03 3?. S04 0.4. BAL. SI02
AI.J03 33. N4?0 .09. SinZ-KAL,
AL201 33. S04 0.4. BAL. SIOZ
4L?01 4,SIC /H.SI07 14.CAO 1.3
AL?03 6T.SIO? li.CAO .7
ALZ03 68.SI02 ?Q,CAO I.MAO .49
ALZ01 69.SIOZ ll.NAZn .43
ALZ03 7Z.SIO? 75.TTOZ l.H
4LZ03 7Z.SIO? 7J.TIOZ I.«
ALZ03 7Z. FF?01 1?, SIOZ 11
AlZOl 77%. NA?n o.«% CACLZ 9.3
ALZ03 78. SIO? o, Ft?03 9.
ALZ03 80,SIOZ lo.S, TIOZ .SS
ALZ03 81.S, FF?ll 3.S.TIOZ 3.S.
ALZ01 Hl.S, SIO? 10, TIOZ 3.S
ALZ03 81.S. SI07 10.5.TIO? 3.5
ALZ03 HZ,SIOZ 9.S.M60 3.H40 2
4LZ01 84.SIO? ll.TIO? Z.Z
4L?01 84.S.SI07 10.4.C40 .53
AL?01 84«(, MCKFL FORMATE Z.5»
AL203 85.SIOZ ll.TIOJ 1.9
AI.Z03 85.5.Sin? 10.5.TIO?. l.B
ALZ03 BB.S.SIO? 10.5.TIOZ 1.8
ALZ03 88.SIO? Id.TIOZ .55
ALZ03 dR.SIO? 9.CAO ],NA?0 .52
4I.Z03 8B. N4ZO .BA. COCLZ Z.0»
ALZ03 88. SIO? s. TIOZ 3
ALZ03 89,SIO? 9.CAO .6. BAD ,5
ALZ03 89%. CAHRON 111,
ALZ01 90, STOZ 7.7. NA20 l.t<\
ALZ03 •*!«. SIO? 6H
41 Z03 9Z. STO? «.
ALZ03 9?.?.MA?0 .5,510? .10
AI.Z01 9Z»
»L?03 9Z*. NA?O 0.9%
AlZ01 92%. SI07 *»
ALZ03 9ZS.AI ?03 S%.FFZ03 l.H»
»LZni 93.5. SI07 Z.5. TIOZ Z.O
ALZ03 93,*i». NA70 0.10ft
AI.201 96
ALZOl 9ft,SIO? I.3.CAO 1.?
AI.Z01 96.SIO? 7.4.FEZ03 0.64
ALZ0.1 96,510? ?.4.FE^03 .»i4
ALZ03 96.SI02 ?.4.FE?03 .64
Al Z01 96,SIO? 7.4, FEZ03 .64
Al.701 96.9i. NI 3%, PT 0.1*
AIZ03 9ft%.M'',AL704 34.MULLITK I
41 ?01 97
4| ?03 97*
41 ?01 SP8
AlZ01 9S.O" NA?T 0.1%
4| Zm 9H'l, OAL4MCF MOISTUHE
ALZOS 98s. HAI.AMCF MOISTUHE
AL701 99
ALZ01 V9.N470 ,c.FF?03 ."4
4I.?03 99.S.N470 ,4S.FF?03 .01
41?01 99.5*. N470 0.45%
41 ?03 99.5*. SOI .09, CAO .06*
41203 99.a,SIO? ,OB,FtZ03 .04
B4CL? Z7%. HAI.A'irE CAHHON
C4BCON
COO 1(1». HAL. ATTIVATtO ALZOj
COO II* ON SIO? TYPF HASF
OXIDATION OF MFTHANOL TO FORM-
NOX FUMF 4H4TEMFNT
FLUID C04CK1NG
FLUID COACKTNR
FLUIO CRACKING
FLUID CUACKING
FLUID CRACKING
FLUID COACKINB
FLUIO CRACKING
FLUID CRACKING
OESULFUOUATION OF PETROLEUM
FnR REFIMNR OFTRni FuM PHUOUCT
HFFORMtNb CAT FOR RAsOLINE AND
PFSSlCANT FOR HYDRnCARBONS.H?S
CATALYST(PROD. OF CONTROLLED
RRFATMEP EOUIP. . APpLIC. REO.
SULFUH otCllvERY UNITS
DRYING GASSFS UNHFO Hit*
CATALYST SUPPORT
CHROMATOtiMAPHIC 4DSOHPTION
DRYING KA'sFS AND
C40HIEW FHEF FROM POISONS
OEFl UOBIN4TIDK' XElIUM
DRYING AOtNT. DKMYneATION
CIFCOMP. OF «N03 PLANT TAIL GAS
OXIDATION OF HYDROCARBON FUMFS
FLUIO HFO OWFOATI.1MS
H(.;F(>KMlt.Hj. ISOMFOT /AT I0»-l
OHYINb Al>tNT. OFHY1HATION
GAS **(-.FOHMlMf;
LOW-SURFACE-AHEA CATALYST
ALDEHYDE
HCN REACTOR
DECOLORI7E<;| nEODOBUESI OKIES
NAPTHAS
ATMOS. IN ufAT-THEAIING FURN.I
VISIBLF
OF ADSORPTION
« STATIC DOYtwG APPLICATIONS
SUPPLY ENGELHAHD.OXY-CATALTST
ATTRITION RESIST. IN FLUID "ED
MEDIUM POROSITY • GRANULE SIZE
L0« POROSITY,COARSE GRANULE
MEO. POROSITY.COARSE GRANULE
MEO. POHO«ITY, TIGHT STRUCTURE
MEO. POROSITY, TIGHT STRUCTURE
EXTMA-LO* POROSITY,TIGHT STHU.
MEO. POROSITY, TIGHT STRUCTURE
ALSO USED AS SORBANT, CATALYST
FXTKA-HIGH POROSITY, FINE PO«E
MF.DIUM POROSITY,OPEN STRUCTURE
MEO. POROSITY,TIGHT STRUCTURE
GRADE F-l • NICKEL FOHMATE
MEOIUM POROSITY,COARSE GRANULE
LOU POROSITY, COARSE GRANULE
MEDIUM POROSITY • GRANULE
HIGH POROSITY, OPEN STRUCTURE
MEDIUM POpOSITY,COARSE GRANULE
MEDIUM POROSITY « PERMEABILITY
NONTOXIC
HIGH ACTIVITY ALUMINA CARRIER
MAIMTENANCF OF TRANSFORMER OIL
FREE FROM CATALYTIC POISONS
ALSO USED AS CATALYST
HIGH ACTIVITY ALUMINA CARRIER
EXTRA-HIGH POHOSIIY, FINE PORE
HIGH POROSITY. TIGHT STRUCTURE
E»IHA-HIGH POROSIIY.FINE PORE
EXTHA-HIGH POROSITY. FINE PORE
MED. POROSITY, TIGHT STRUCTURE
NOX RFACT n?.rO.HYDROCARBONS SULFUR IS POISON
REDUCTION >,ITP«GFN OXIDE FUMES STHONG. THERMALLY STABLE
Hlbn ACTIVITY ALUMINA CARRIER
ALKYLATION. PFHYDRAIION
HIGH ACTIVITY ALUMINA CARRIER
TRUt DENSITY, SOLID Z30
QFMOV4L l)^ MCL? FOOM
WFMOVtS TOIIC G4SF
-------�
TABLE A-3. (Continued)
MSI 39
HM3T
MSI 33
MS109
MSl»n
MSI 1 ft
MSlnn
HS107
MS1K,
MSI 0*
CA3n«,
CA40I
GH47*
HS1 34
(3R47S
MS 1 4 1
MS111
HC201
MS146
HS117
HS144
MS1S7
HSlsn
MSI si
MS149
MS1S3
MS14?
MS1S4
HS14S
CA707
HSI«,7
MSK.3
MSI *0
MS113
HS1S7
HS1S«,
MS1SB
HS1«.4
HS 1 * P
MS147
MSI S9
GR40S
MSI 14
MSI *iS
IJC317
HSIM
MS1«.7
HS 1 **t
HS11*
CAlm
CA*S01
MSIIS
AC31I
ALII?
HSM»
MS171
HS1 7S
MS171
MS174
NL117
NL1"B
NLlln
CY707
CY70J
MSI 1 7
MC707
CY3ft?
OPlfi?
MS194
MS191
MS201
CAT. CORALT CATALYST
CAT. COHALT CATALYST
CAT.CORALT OXIUE ON KIFSEI GUHR
CAT, coo. M0o3 ON ALUMINA
CAT, CORALT MOLYBDATE CATALYST
CAT. coo, MOOS ON ALUMINA
CAT, COO, M0o3 ON ALUMINA
CAT, coo, cun ON ALUMINA
CAT. COBALT CATALYST
CAT. COBALT OXIDE OM AI.MMINA
CAT.COO. MOO O'j ALUMINA
CAT. METAL UXIUES ON NA-A, 201
CAT. co ON RFKHACTOHY O»IDE
CAT. COHALT ON KIFSELI5UHB
CAT. PROMOTED COHALT
CAT. CHROME ALUMINA
CAT. CHROME-ALUMINA
CAT. CHROME ALUMINA
CAT. CHROMIUM OXIDE ON ALIIMTNA
CAT. CHROME ALUMINA
CAT. COPPtH CHKO'MTF
CAT. COPPFH C"H(,MiTE
CAT, COPPEH CMI-OMITE
CAT. coppfH c"HoniTF
CAT. COPPEH CHMOVITF
CAT. CHROME ALUMINA
CAT. COPPEH CHHOMTTF
CAT. CHROME ALUMINA
CAT. CHROMIUM OXIDE ON ALllMTNA
CAT. COPPfH ON A| UMINA
CAT. COPPEH ON ALUMINA
CAT. COPPEH ON ALUMINA
CAT, COPPER I-HHO-ITT
CAT. COPPER C"*OMITF
CAT. COPPfH CHHrj'iTTF
CAT. COPPEH CHHOMITF;
CAT. CflPPER
CAT. COPPEH C"*0«ATF
CAT. COPPFH
C«T, COPPEH OXIDF-ALUMTMA
CAT. cuo ON ALUMINA
C«T. COPPEH ON SILICA
CAT. COPPfH ON MOLECULAR SIEVE
CAT. COPPtR ON ALUMINA
CAT. IRON OXIUE 'IN ALUMINA
CAT. IRON OXIUE OM ALUMINA
CAT. IRON OXIDE ON ALUMINA
CAT. IRON*CMBUMHIM OXinpS
CAT. -*I«EO cixiuFs
CRR. MAGNESIA
CHR. ALU"INA, CATALYTIC (iRAOE
CRR. COPOltRlTt
CAT. MN07 ON ALUMINA
CAT. MANGANESE OXIDE ON SILICA
CAT. MOLYHUENA ON ALUMINA
CAT. MOLYHUENA ON ALUMINA
CAT. MOLYHOENA OM ALUMINA
CAT. MO. CO. OXIDFS ON ALUMINA
CAT. MO. co. OXIOFS ON ALIJMJNA
CAT. NI ON SIO<;-AL?03
CAT. MO, NI IN ALUMINA
CAT, COHAL T-MULYHDENA CATALYST
CAT, CORALT-MOLYHTIFNA CATALYST
CAT, MOLYBUENUM SULFIOF
CAT. COBAL T-1ULYHDATE ON Al.?03
CAT. NI-MO
CRR. MULI.ITE HONFYCOuR. TORVFX
CAT. NIC'EL OXIDF OM ,ST03 SO'i.ALPOS 15»
NI02 S, UALANCF AL703 (INEHTI
NIO in. HAL. AL713-SI02 (INEHT)
NIO 10. CUD l.HAI SIO?
0«0 PHOCtSS TO COMVF.HT ALUE-
MYOOObENAIlON CATALYST
HYOROCARMON DESULFUUI 7. AT ! ON
OENlTHOfitNATION • nESIILFUHUA.
MYOROCAPHON OFSIJLFUHJ 2AT1ON
HYOROCARMON OFSULFUHlZATlUN
MYHOOOENATION, DFCOMpOSTTION
OXO SYNTHESIS PROCESS « "YURO-
SYNTMtSlS OF HYORflRFN
HYOPOGEMATION
HYnuOliE'lAMONl HYnunuF
HYOROOEMAT KIN
0X0 PHOCtSS « HFLATFu HYOH06EN
PBOnUCTlON OF PRIMARY AMINES
OFHYDHORENAIION
OEHYt)HOr,EUATION
OFMYllKOr.ENATIONI HYDHOC'ACKINS
OEHYDHORENATION OF HuTANE TO
OFMYOHOGtUATTON OF HUTANF
OFHYOHOiJt'NATION CATALYST FOR
HYOES TO AlCOHOLSi
TION OF HYnHOCARHONSo
GENATION RFACTIONS.
- 7ATIONI HYnPOOENlTHlFICATION
ATION REACTIONS.
HYDROGI-NATTON
AHOMAII7ATTON
RUTYLtNE,
FLUID «FD uSF.
ACTIVATED ALUMINA CARRIER
1 TO 5-YE»H ExPECTEB LIFE
ACTIVATED ALUMINA CARRIER
ACTIVATED ALUMINA
TABLETED CU-110*P (HSIS1)
TABLETED CU-0401P (HS149)
STEAM-HYDROCARBON OFFOR"ING
CHLOHINJTIOM CATALYST
CHLORINAlION CATAIYST
REMOVAL <^ TRACE A«0||NTS OF 0?
HYORO(jE»lAl ION
FHOM GAS STREAMS.
ALOFMYnES OR KETONES.
CONVERT ALIjFHYOES YH ALCOHOLS. REMOVE THArF GASES (02.CO.H?)
RKMOVt 02 • H? FROM r,AS STREAM
L0« TEMP. CO CONvroSlON
REMOVt 02.CO.H? -GAS STREAM
DEHYl'HOfiENATF. AI.COuOLS TO
HYOPOUEALr-YI.ATION
CHLOHINATION
PRODUCE "YDUOgFN
FLUTU-HFU HYDROGFNATION CAT.
DEHYLIHOHtNATTON CATALYST
AMMONIA UfCOMPOSIriON
PpnoUCE n
• TI'IN CATAI YST
MS193
-------�
TABLE A-3. (Continued)
MSIBT
HSlfla
MSIOO
HS1Q5
CA107
CA104
MS204
WS?n?
HS7.01
MS177
MS197
HS2"5
HS?00
HS1«?
HS119
GR401
ucion
MS1B9
MS70Q
MS1BIS
HS707
MS103
GR407
GR40«.
GR437
HS199
MS17I,
HS190
HS206
CA701
MS213
HS170
MS19*
GH431
MSI PI
HS100
MS179
HS1B4
MS1BS
HS17B
'JA101
RP.41H
HS21?
HS709
HS)97
CA30S
MS277
HS27S
HS?7«t,
HS710
MS?II
GB43S
GR407
CAT.
CAT.
CAT.
CAT.
CAT,
CAT.
CAT.
CAT,
CAT,
C AT ,
CAT.
CAT.
CAT.
CAT.
CAT,
CAT.
CAT.
CAT.
CAT.
CAT.
CAT.
CAT.
CAT.
CAT.
CAT.
CAT.
CAT.
CAT.
CAT.
CAT.
CAT.
CAT.
CAT.
CAT.
CAT.
CAT,
CAT.
CAT.
CAT.
CAT.
CAT,
CAT ,
CAT,
CAT.
CAT.
CAT.
CAT,
CAT,
CAT.
CAT,
CAT.
CAT,
CA304
C»T. NICKEL OXIDE ON «L'lMIN«
CAT. NICKEL OXIDF ON ALUMINA
CAT. NICKEL OXIOF ON AI.UMJNA
NICKlL oxiuf. KIFSFLGUHP
NICKEL OXIDF ON AI.'IMINA
CAT. NICKEL ON HFFHACTOOY
NICKEL OXIDE on AI.I'MINA
NICKEL OXIOF ON AI.'IMINA
MFTAL OiIDES ON AL'IMjNA
MFTAL 0«1UES ON ALUMINA
CAT.NICKFL OKIOF ON KIFSFLGUMH
KKFL OXIDE ON ALUMINA
NICKEL
CAT. NICKFL OXIUF ON ALUMINA
NICKF.L OXIOF, KIFSFLGUHR
NICKEL OXIUF ON ALHMJNA
NICKFL
NICKEL ON MflLFCULAQ SIFVE
NICKEL ON KIFSFLGMMR
NICKEL FL4KFS (BurrBT)
CAT. NICKEL ON KIF.SFLGUHH
(NYsfcLi
NICKEL ON KIESELGMHR
NICKEL
NICKEL
70 pPuwniEO MI
NICKEL ON AI.IJWINA
NICKf.L wYOUJTF.K
NICKEL T4TAI.Y5T
NICKEL-ALUMINUM
NICKEL OXII1F ON ALUMINA
CAT.NICKFL/TIJNGSTFN ON AL|I«INA
Nliui ON »LU"INA,S'ILFITO
NICKtL.ALUMIHIJM
NICKEL ON KIESFLGIIM«
NICKF.L ON KIFSFLGUHO
NICKEL ON KIFSFLGIIHB
NICKEL ON MESFLGUHB
NICKF.L 0''J KIFSFLGIIMR
NICKEL ON MFSFLGilMR
NICKEL ON KIFSFLGIIWR
CAT. MFTAL ON XETAL
CAT. NICKfL ON KTrsFLG'lwR
ICKFL/HlNfSTFN ON ALUMTNA
NICKEL/TU'JGSTFN
NICKEL CATALYST
NI.c"'Co ON ALUMINA
CHRO"!TF
CHBOKITF
CHBOMITF
NICKF.L/TUNGSTF.N S'M
NICKEL/TUNGSTFN
loon OXIDF
NICKEL
CAT! PALL'UI'JM ON SPFCMl. CBB.
CAT, IRON UXIIIF
CAT. IRON OXIDE
CAT. NI-CO POOMOTEO
CAT. MOLFCULAH SIFWE
CAT. NICKEL ON ALUMINA
CAT. MOLFCULA" SIFvF
CAT. IWOM UXJUE
CAI. NOOLE MFTAU ON ALUMINA
P*Ll»0|i|M ON
BR477
-
CAT, PACL'UIUM ON ALUMINA
CAT, BO ON AcTIVATFO AL'iMiN*
CAT. PO ON ArUVATFD CAORUN
CAT, PLATINUM ON ALUMINA COMR
CAI, CO-MO
CAT, PLATINUM (IN TOBVF«
CAT. POROUS rEWAMjc
CBB, ZEOl ITF, SYNTHETIC
C«T. PlHnUS CfAS REFORMING
MFG. NH3, STEAM HFFOoMlNG
METMANATlON
A GAS t)F.F'iR.OUMING CATALYST
HYOHObENATION CAT. d|NOEOUCED)
HYOROGEMATION
PRODUCTION OF M?.. NHl, CMJOH
MvrmOUEALKYLATION
HYHROGENATInN REACTIONS
HYOBOdEMAIION OF FATTY OILS »
HYOROGF.NATION CAT. (ACTIVE HUT
SilPFHIOu SFLFCTIUITY IN THE
FOB CERTAIN SPECIFIC PBOHLEMS
METMANATlON REACTIONS
MFTwANATlON BFACTIONS
MYMRObEMAT JON
HYOQOGENATIOM CATAI YST
HYOHOliF.NATlON « MFTHANATIUN
HYOOOdEMATION CATALYST
FOB FIXFII HFIl.LOW-xOoEBATE
STFAM-HyUHOCAHHON QKFOBMING
OF-M I tHOl^ NAT ION/SULFUR U4T ION
HYnoOGEl"AI ION, OFNITROGFNATION
PROCESS "YfJHOGENATIONS IN L0«
HYOBOIitrjAl I0'l
HYOROGEMAIION CAT. (PARTIALLY
MONO-OLEFI'iS (SULFIOEO FO«M) .
HYOROCAHHOMS.
ETHYi FSTERS. ETC.
STABLE!.
MYDHO&FNATTON OF EOIHLE OILS.
IN HAWnENI«iG SOME FATTY OILS.
TEMP. HYORC.GENATION REACTIONS.
.SATUHAlIO" AROMATIC COMPOUNDS
TO MODFWATF TEMPFBATUHE RANGES
BtODCtO • STABILIZED)
HYOHOGkNATION CATAI YST
HYOUOOENATION CATAI YST
HYOROCjENATION CAT. (HIGH PHYS1- CAL STPUJRTM).
MYOBOuENrtTION CAT. FuR THICKLE RtD OH LITllO PHASE REACTIONS.
COMUUSIIOM HYRROCAORON FUMf.S
nE-M T»Ol>hNATION/SM| FU'IZATION
SULFlUE MIH'UCRACKINii FUNCTION
HYOPOOK.\|A I ION CATAI YST
SFLFCIIVE HYDHOGFN/lTION
.SATURAltO*' AROMATIC COMPOUNDS
Ot-NI TPOGF.MATION/SULFURIZATION
HFADY AS SHIPPF.I1 FOH MFIHANOL SYNTHESIS.
AMMONIA SYNTHESIS
STFAM-HYUHOCAHBON REFORMING
SFLFCIIvt HYOROGFNATION
AMMOMA 01SSOCIATION
OF. HYf'HOG^. NATION
SFLFCIIvt HYDBOCiFNATION
ALKYLAIION
STFAM-HYO-'OCARHON riFFOR^ING
ISOMEHI7A1I»N PFNT»NF,HFXANE
HFMOVAL OF S? COMPOS FROM GuS
RFMOVAL OF O?. FHOM N3, N'H J AND INERT GASF*
l/t HYDBOGFMATlOM
SELFCTIVt HYDHOGFNAT[9N
RFMOVAL OF 0? FROM H^ STREAM?
HFMOVAL OF 0? FROM H,> STREAMS
NOK FIIMFS. HN03 TAILS RftSES
SFlFCIIVt HYORORFNATION
NOX, HYnH^CAHBO^ c'iMf UFMOVAI
oxinAMoN OF NVIJPOC.FN ILOW T)
ALKYLATIUN AND ISOMFDI/AIION
0
-------�
TABLE A-3. (Continued)
GR404
GH4JH
GR?0?
GR439
GR47R
' GR301
GP411
GR409
OG3n»
OG311
06304
06115
UCln?
uc?of
uc?n?
UC201
UC?04
OGIni
CAT, CHROMiUM-IRnN oxinr
CAT. CR AND K PROMOTF.O TOO
SnH. ACTIVATED HAUXITF
SnR. ACTIVATED CAPRON
SnR, ACTIVATED CAORON
CAT.COPPFB-CuHOM.lTE
CAT, COBALT-MOLY ON AL?n3
CAT, BA PWOMOIEO Cu?CR?i4
SnH
Sou
SnH
GR414
CA301
C«303
G041S
HS214
HS21S
UC304
UC10S
UC101
GP440
HC?0«,
CY401
UC303
"C207
CC31*
CC311
CC3?0
CC315
CC31S
CC317
ccm
CC314
ENlOi
HC7.04
CYlru
CY101
OG?n
CC13]
CY? ALUMTMA
PALLADIUM ON ALUMIMA
CaT, PALLADIUM ON MOL. SIEVF
CAT. PALLADIUM ON MOL. SIEVE
CAT, PALLADIUM 0" MOL. SIEVF
PALLADIUM ON MOL. SIEVE
PALLADIUM ON CAPROM
PALLADIUM ON CARBON
PALLADIUM ON SIO?-AL203
PALLADIUM On CARRON
CaT.
CaT.
CAT,
CAT,
CaT,
CaT,
CaT,
CaT,
CaT,
CPH,
CRO
CRR
COO
COR
COO
COB
COR
CRR
CaT
CaT
CaT
CaT
CaT
Cal
CaT
CaT
CPH
CaT
CAT
CaT
COB
CaT
CaT
COO
COR
CRO
COR
CRR
COR
CHH
NOT GIVEN
NOT GIVEN
NOT GIVEN
NOT GIVEN
NOT GIVEN
HOT GIVEN
NOT GIVEN
NOT GIVEN
NOT GIVEN
NOT GIVEN
NOT GIVEN
NOT GIVFN
NOT GIVEN
NOT GIVEN
NOT GIVEN
NOT GIVEN
NOT GIVFN
NOT GIVEN
NOT GIVEN
NOT GIVEN
NOT GIVEN
NnT GIVEN
NOT GIVEN
PALLAOIUM O.OP-1.11*
Pll 0.045-0.055*. AL203 BALANCE
PO 0.045-0.055%. AL203 BALANCE
Pn 0.05-0.4* HFFOACT OXIOE-BAL
PO 0.3,RASE MaT L PROPRIETARY
.3*, BAL. ATTIVATEO AL203
BAL. ACTIVATED AL203
PLATINUM ON MOL. SlEvE
PLATINUM ON ALUMINA
PLATINUM ON ALUMINA
SILICON CAHOlnE
SILICON CARHIOE
SILICON CAPH10E
SILICON CAHPIOE
SILICON CABHIOE
SILICON CARPIOE
SILICON CAMSlnE
SILICON CARRIOE
SILICON CAHMIOE
KAOLIN, CWACKING
MINFBAL
KAOLIN
MOLFCULaK SIFvE
SILICA/MAGNESIA
MOLFCULaH SIEVE
MOLFCULAH SIFVE
PFLLtTEO SlLlCA/ALU'MNA
SILICA
MOLFCULAX SIEVE
MnLFCULAK SIFVF
PELLtTEn SILICA/ALUMINA
SII!CA-ALUMINa. 7FnLlTF
SILICA/ALDMlNa
SILICA-ALUMINA. SYMTHETIC
SILICA. DIMOvACFnilS
SILICA
SILICA
SILICA
SILICA
SILICA
SILICA fit I
•ATFH-G»S SHIFT PFSCIIOW REMOVAL OF S? FROM GAS STREAMS
STYHENE fuonucTION FHO" ETHYI - RENZENFI nFHYnROOEN.OF CUMENF.
OVEOCOMF SOUUING IF HYO"OCHNS OHY1NG MALnGENATED HYOHOC8NS
OESllLFURl/lNG GAS STMEAMS FIXER «EO nPFRATIONS
pFMnvAL D^ s? COMPOS FROM GAS
MILO HYnKOGFNATlON
HynoODESULFUBI/ATION HYOUODFNI TO1F ICAT ION
PO 0.
pn 0.3%.
PO o.s
PO o.s
PO
pn
PO 1 TO 10!.. CAORON HALANCE
PO 1 TO 10%. CaoHON HALA.NCE
PO .05-.5.SI02-AL203 BALANCE
Pn. S-10. AS SPECIFIED
PT-as SPECIFIFOI FE .025*
PT 0.5
PT O.S». AL?01 QAL.
PT 0.5*. AL?(>3 UAL.
SIC 5«.SIO? ?>,.s.AL?03 11
SIC S9.SI02 ?7.AL?03 11.NA20 1
SIC 59,510? ?7.AI ?n3 ll.NAiO 1
SIC 77.SI02 l>i.Al?n3 6.K20 .55
SIC 77.5.SIO? 1S.AI203 5.5
SIC 7R.SI02 15.BL?03 4.CAO 1
SIC 7R>SI02 15,«L?n3 5.S
SIC no.Sin? 14,AI ?n3 4.NA20 .7
SIC SO,SIO? U,AI?n1 4,NA?0 .7
SIO? 52.9*,AL70l 45*'TIO? 1.7*
SI02 53«. Al ?m 45*
SIO? 53*. AL?01 ts«> FF203 0,3*
5107 66, AL703 14. FE .12
SIO? 70*. Mf.n 1/1* (RHY BASIS)
SIO? 74.aL?03 2«..FF .05
SIO? 74.411 AL711 ?51il EK .04*
SIO? 75.AL?n3 >S.FF?03 ."5
SIO? R1.AL203 le.NA?0 1,K20 1
S1O2 H5, AL?01 15, S04 .3
SIO? B6.AL203 14. FE .05
S107 «U.AL2n3 n.FE203 .OS
SIO? B7. AL701 13
sio? R?. AL?03 11. IMPUPITY .3
Sill? R7.JS1 AL?m 17.4
SIO? 92, ALJ01 s, FE?03 1.0
SIO? 93,AL2n3 >i.RAn .4,M«0 .33
SIO? 94.MAJO 7.K..CAO 2,"'iO .«!
SIO? 94,NA?n 4.S.CAO .59
SIO? 9b,CAO 4.95,Al 203 ,?3
Sio? 9b,NA?n 1.n,A|?03 .S6
«;TO? 99.5.FF .09.A1203 .?0
BFunVAL OF S? COMPnS FROM GAS
HrnPOOESULFtlH!7ATlOM
REMOVAL UF «?S, C1'> » ETHYL
nFH»l.lMATlOM OF MOST FLUIOS
PFMnVAL DF TO? * MVO FPOM AIR,
RFFPIGEBAIInN SYSICMS
HFMOVtS Sll? AN'O OxtntS IF T4J
RFwnvKS bu? ANO n«tnfS OF N?
SFPAWATFS NOOMAI. FOOM ^BANCHFO
OFMOVtS H?0. CO?. H?S CHUM RAS
nEHYDHATlON'
OEHYClWATlONI OESSKANT
n«YT"lJ IINSATUHATFO Hyl)R1C AHRON
REMOVES H?S FROM GAS STOFAMS
CONVtWT S? COMPOS TO H?S
HYOBOGENA1 InN
HYOuOlitNAl ION
HYOBOGENAT ION
HYOPOGEMAlInN
HYOOOUENAIION CATAI YsT (STAHLFI
HYnpOGENAT ION CATALYST
HYOOOOENAI ION CATAI.YST
RUTaNt ISOMFHIZATION
HYOPOOENA1 InN
HYOPOGENAT InN
MEHCAPTAN FROM NATURAL GAS«
<• H?S • MFOCAPTAN FHOM L.^,
FHOM PROCESS STREAMS
FHOM STHFAMSI OHIES SOUH GAS
PARAFFINS
IETHYLFNF.DROPYLENt.BUTADIENE)
HYOOOGENATlnN OF OLEFINS
SLIIHHY-TYl'E HYOaOGFNATlON
SLURPY-TIf-F HYOBOGFNaTION
HYnPObENATInN
HrOuOt-ENAT I HN
RFFnHMlNG
OEHYUHOr.tNAIIONI HYOHOGFNATION REFOH«TN'il ISOMERIZATION
CRACKING
FSTrhlFlCATION RFATTIONSI GAS/ OIL CMACKtMfi (SUPPORT CAT.).
CBArMNT,
CRACKING
OFHYOHATt'lN CATALYST
CBACX 1 NG
nF.HYliMATlOM CATALYST
OFMYDHArl'IN OFACTTONS
BFACTIOwS UFO G AN ACI
FHFD HH> COAfKlN'.l
CATaLYSI SUUPORT
CATAI. Y
ST I ALKY AT t ON.ESIEBJF ICAT ION) .
1SOMEXI/ATTON, ALSO CAHHIEH
LIMITED OROPPING DISTANCEt
?.-YEAH EXPECTED LITE
3-YEAH EXPECTED LIfE
3-YEAH EXPECTED LIFE
PO ACTIVATED » STABILIZFO
MANUFACTURING NOT EO. TO GH433
COST DEPENDS ON PT CONTENT
51 LBS./FT.3. LOADING DENSITY
LOK POROSITY, TIGHT STRUCTURE
EXTRA-LOW POROSITY,TIGHT STHU.
MED, POROSITY, TIGHT STRUCTURE
MEDIUM POROSITY,OPEN STRUCTURE
LO* POROSITY. OPEN STRUCTURE
MEU. POROSITY,COARSF STRUCTURE
HI6H POROSITY, OPEN STRUCTURE
HIGH POPOS1TY, TIGHT STRUCTURE
LOK POHOSITY, COARSE GRANULE
SliPEHIOR, STEAM, THERMAL
PHOHABLY A NATURAL ZEOLITE
ALSO AVAILAHLE AS A FLUID.
MEU. POROSITY. TIGHT STRUCTURE
SUR. AHEA DEC. HY STEAM 1070F
HIGH ACIDITY
REbtNERABLE 9
AIM
/ SUPPORT Fnw CATALYST uSEo IM Tnr CHEMICAL INOUSTOY.
HIGH POHOSITY, TIGHT STRUCTURE
LO» POROSITY, COARSE GRANULE
MED. POHOSITY, TIGHT STRUCTURE
MfD. POROSITY. TIGHT STRUCTURE
MEU. POROSITY. COARSE GRANULE
GR404
GR43B
EN20T
GR202
GH439
GH428
G«301
GR429
GP411
GR409
OG302
OG303
DG304
06305
UC101
UC102
UC201
UC202
UC203
UC204
D630I
GR413
GH414
CA301
CA303
CA302
GH41S
HS216
HS214
HS215
UC302
UC304
UC305
UC301
G0433
GH434
GR440
HC206
CY401
UC303
HC207
HC208
CC316
CC311
CC320
CC319
CC315
CC317
CC312
CC313
CC3I4
FN101
HC204
MC205
CY104
06210
CY102
CY103
P6213
CC331
CY201
CY101
DG212
DG202
DG211
HC209
E"102
CC328
CC329
CC332
CC333
CC330
OG?08
I
M
-------�
TAIil.K A- ). (Liiiithmi'd)
nc.?no
0070*
no?04
DG? OS
noi fl i
noiir
OBI 04
oGlio
nc,l?n
OGI ?i
noi??
001 71
OGI7*
HGI ?*>
OG1?7
noio?
noioi
OG1 1 1
noios
noio7
nc.l nn
nGI to
noi 1 1
ndl i?
nr, 1 14
nous
MS?17
MSI??
MS171
MS21 9
MS?1 R
MSI ?1
HS??o
MS??!
CA?01
CY60I
'MNl 01
MNin?
MNl 01
MS??4
MS???
NL1I 1
HS710
MS?1I
MS??9
MS 1 ?4
CC IIS
CC114
MS?11
CRR, SII TCA r.tL
CHH. SILICA r,tL
CHH. SILICA r,u
CRR. STLTCA GtL
SnR. SILICA r,f\.
SflMi 511 ICA Ml
SnH. SILICA r,tL
SnH.siLirA (,FL
SnP. SILICA r.F.L
SnR. SILICA r.tL
SnP. STLTCA r,tl.
Snw» ^ 1 L T^ * Gt. L
SnR. SILICA r,EL
SnH, SILICA r.H.
SnR, SII ICA r,tL
sn«. SILICA r.ti
SnR. SILICA r,kL
SOR. SILICA r,tL
snw. SILICA on.
SnP. SILICA ,,tL
snR. SILICA r.l.i
snp. SILICA r.tL
SnR. sii ICA r,tL
Sn«. SILICA r,KL
SnP. SILICA r,tL
SnH, SILICA (itL
SnH. SILICA r.tL
SnM, SILI" r,tl
SnP. STLTCA .,11.
sn«. SILICA r,n.
SnP. SILICA r,H.
CRH. SILICA r.tL
CAt, Il'tANlA ON ALUMINA
CAT. VAMAdIA UN ALUMINA
CAt. VANADIA On ALUMINA
CAT. VANADIUM OXIOF. ON ALUMINA
CAT. VANADIUM IIXIMF ON ALUMINA
CAT. VANAlllA UN STL TCA- ALUMINA
CAT. MFTAL llxIDI-S nN AlilMINA
CAT. MFTAL OxlntS ON AlilMlNA
CAT, VANAlllA, K-PMnMOTFn
CAT. VANADIA, SIM FUPIC ^in
CAT. VANADIUM IIXIDF
CAT. VANADIUM IIX10F
CAT. VANADIUM nxlllF
CAT. TUNC.STFN OXIOF ON Al.UMTNA
CAT. TUNC.STF.M OXIHF ON Al.UMl*'fl
CAt. NICKH--fUMiSTFN
CAT. 71 Nr ox i lit
CAT. MFTAL Oxh'KS nN AI'IMINA
CAt. /INC OX|llf ON ALUMINA
CAT. CMRnwitF
CAT. /INC ACFIATf
CRH. /IPrON
CPP, /iprnrj
CAT. /IPCONIA
SIO? 99. S. NAD? .09.FF .0?
SIO? 99. S. FK .nl. NA?0 .112
sio? 99. s. nA?n .09. FF .02
Sin? 99.ft. FF .11. NA2n .0?
Sin? 99,71*
SID? MV.TI Ai.7ni .in HIM .01
Sin? 99.7. AL?OI .in. tin? ,n9
Sin? 99.7. AI. 701 .10. l|o? .09
sin? 99.7. AI ?m .10. no? .09
sin? 99.7. AI ?oi .10. tlo? ,n9
SIO? 99.7. AL?O1 .10. TI02 .09
Sin? 99.7. AI.701 .10. tin? .09
SIO? 99.7. AI ?01 .10, tin? .09
SIO? 99.7. AL701 .10, tin? .09
sin? 99.7. Ai.?m .10. no? .09
SIO? 99.7. Al.701 .10. 110? .09
SIO? 99.7. AL?01 ,|0> TIO?. .09
sin? 99.7. AL?ni .10. 110? .09
SIO? 99.7. A1.7II1 .10. tin? .09
STO? 99.7. Al.?m .10. TIO? .09
SIO? 99.7. AL.?01 .10. TIO? .09
sin? 99.7. AL?OI .10, tin? .09
SIO? 99.7. AL?01 .10. 110? .09
SIO? 99.7. AI 701 ,|0. Tin? .09
SIO? 99.7. Al.?oi .10, Tin? .09
SIO? 99.7. A1701 .10, TIO? .09
STO? 99.7, AL?01 .10. Tin? .09
S10? 99.7. A1701 .10, tin? .09
S10? 99. It Al?ni .10. TIO? .09
sin? 99.7. AI ?m .10. Tin? .09
Sin? 99.7.1-F ,01,'NA?n .0?
Tin? Rfc*. HAI ANrF AL?ni
..?ns 10. HAI ANT.r AIIMINA
V?OS 10, HA| AMCF AHJM.IMA
V?OS 10, HA| ANCr A1.?O3
V?OS 10, HAI . ArTTVATH) AL?0|
V?OS 10, HAI. SILICA-ALUMINA
V?nS S, M001 s, nN TNFHT AL?03
v?ns fi» MOOI i, ON INIHI Ai.?n.i
V?OS 9-10-», R?0 14-IS*
v?ns 9.1». K?O 10.1*1 >t ,»s«
u?OS .C.APPIf P NOT SPE C I M ^ D
,",?OS.CAMPU P NOT SPFCIFIFI)
V?nS,CAPP 11- n NOT SPfCI^ltD
M0» |0. MAI. ACTIVAtFO AI ?0 )
•in 1 10. HAI. ACTIVATFD AI ?O |
* Ih. H\ 4, S04 0.4 HAL. AL?01
/NO i no%
/NO IO,CP?01 in. HAL. AL?0!
/NO ?4 ,HA| . ACMVAtHI AI ?l) 1
/NO 74. CP/OI ?1
/N(C?MJO?)? in«. MAI. CAPHC N
/pn? S4,sio? m.Ai.?n) 7,cA< .*,
/pn? ftO.sln? 1*.AL?OI ?,CA. ,9
/PO? 9H«, HAI ANrF AL70.I
CAPPltP. / SUPpnPT Fnp CATAI tST
CARplt'R / snppnNT pnp CATAI YST
CAPPlEP / SlIPpnPT F(m CATALYST
AIR AM) liAS UUYTNC,
0^ 5^1 CAN 1
stiFCIIwl. AosoMPTinti. usti) >n«
ATP AMI) t»AS OIIYIN/;
SOIIPO O^ Slfl? IN rMtM Pt'AI
INOICAI IN,, 'IKSICCANT
I-|IHCAT|I,I, .flFSICCAMT
iMIITCAtlM. OFSICCAMt
DKSICCAnl
ANTT-CAK Iflli AC.FNT
OFSlCCANl. I'OSSIMI F IJSF AS CAM
usto io iNtuonucF ,(?n to SYSTM
CHPOMATOliMAPMIC SrnApA 1 ION
A1P ANO <;AS OPYTNr.
ATP AND «tfiS DRYING
SFIFCtlvt AOSOMPT10M. IISFl) ^ r\U
ATP AMU l,»\ DPYlNIi
A1P ANO UAS OPYIN^
ATP AND LAS DHYlNr.
A1P ANO l».iS OHYINr,
SF|FCIIvL A'lSnPPTTON- ISFt FnP
SFl.tC.TIvf AisnRPTtnn- ISFI Fnp
SFIFCIIvl AiSnPPTlnM. ISH f OH
SFItCTIvl- A CAtAI YSI OH CAHHltP
1 [Until OH r.AS PMASF SEPARATION
1 IfJUID OP r.AS PMASf StPAHAllON
1 lUlllll OP r.AS PHASI- SEPAPAtlON
LIOUlli OP r.»s PMASF SEPARATION
1 luutli np ^AS PMASF StPAHAflON
I inuin OP r.AS PHASE SEPARATION
usto IN TH. CKtMicAi. INOU-.THY.
ACID in V|»YI ACI TATt MnNDMFW
COLOHCU IT.
Vf.MY LIMITED USfS IN LIQUIDS
CHNBES COIUH AS MIIMIOITY CHNGS
VtHY POHnUS
ALSO USFD IN
ALSO USFD in LIQUIDS
SOMt USE AS CAT IN LIU PROCESS
POSSIHLF USE AS CATALYST
MIOH ACTIVITY ALUMINA CAHRIEH
INtPT ALUMINA CAPPIEP
SIIHSTHATF Not SPFClFltn
IMMUNE to COMMON POISON?
KOH MIGH 503 ronctNtwAtinns
HIK.(.H) IN HxFU-Htl) nPERAttON
SHOULD HF HEnuctn HFH>HE USE.
CAlALYST HtOUTHtS HFDUCTinw
L0« POMnSIlY, T|(iMT ST
l.n» POPnSllY, CI'AHSF HRANIILt
MID. PHHOsITY, TlHMT STPIJCTURE
OG?09
D6206
n(i?04
06205
noioi
1)0117
00116
DG104
OG11B
DG119
OG1ZZ
OGU3
06125
noi?6
OG1Z7
noioj
n«i03
DGII3
OG105
HG106
D6107
DGIOB
DG109
Obi 10
nGlll
D01U
noi is
ni>?03
MS?1T
HS1?.3
HS?19
HS?.1H
HS121
MS?20
CYS01
CA?01
•CYhOl
MN101
MN1 02
MN103
HS?
-------�
APPENDIX B
-------�
..... B-l . •
TABLF. 8-1. COST (S/TON) AND SECONDARY COMPOS.
CODE
COST SECONDARY COMPOSITION
_HS20R_
HS207"
_HS183
HS227
HS225
~
0 NONE.
~0 NONE
_0 NONE
0 CR203
Q__CR203 22%
0 CR203
Q NOT_GiyE_N_
GR424
NL112
HS125
HS13?
HS203
HS205
HS189
. HS232
HS204
MS128
HS12Q
HS127
HS131
HS162
HS174
HS195
HS179
HS194
HS19?
HS182
HS200
HS193
HS126
MS123
HS201
HS220
HS221
HS157
HS184
HS19R
HS180
HS1SO
HS177
HS113
HS206
HS14R
MN103
DG120
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
6
0
0
0
0
0
0
0
0
0
0
NOT GIVEN
NOT GIVEN
NONE
CR203 23%
NOME
NONE
NONE
NONE
NONE
NONE
NONE
SI02
NONE
NONE
NONE
NONE
NONE
NONE
NONE
MG 1.3%
NONE
NONE
NONE
FEJ?03»4%» COO 4%
MOO 3 5%
M003 3%
CR203
NONE
NONE
NONE
NONE
CUO
NONE
CUO
AL 49%
CR?03
NI,AL
NONE
FE .025%
-------�
B-2
nttll?
1)6118
CC327
" ~ " CC333
CC328
CC335
CC336
CC303
CC30*
CC332
CC320
CC316
CC312
CC315
CC319
CC305
CC309
CC310
CC330
CC329
CC321
CC334
HS116
HS106
HS114
HS124
HS164
CC341
CC338
HS228
HS181
HS229
HS223
HS188
HS185
HS115
HS233
CC201
CC34?
CC339
HS119
HS118
HS217
HS231
HS144
HS159
HS163
HS230
HS20?
H5101
HS122
HS107
HS112
CC340
HS166
HS1U
0
5
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
o
0
0
0
0
0
0
o •
0
0
0
NONE
NONE "~ "• --
FF203 .64
CAO
8AO .4
CAO .6
CAO
TI02 .55
TI02 1.8
NA20
NA20 1.
NOT GIVEN
NOT GIVEN
NOT GIVEN
K20 0.55
TI02 1.8
TI02 2.2
TI02 1.8
NA?0
NA20
NONE
CAO ,9
NONE
NONE
NONE
AL203
NOT GIVEN
MGO 3.
FE203 .64
NONE
NONE
CR203 25%
NOT GIVEN
NONE
NONE
NONE
AL203 2%
NONE
NONE
CAO 1.2
NONE
NONE
AL203 14%
NONE
NONE
NONE
NONE
CR203 10%
FE?03,4%» COO 49(1
NONE
NONE
COO 5%» CUO 5%
NONE
NA20 .5
NONE
-------�
B-3
HS187
HS21R
HS143
HS219
HS178
HS141
HS133
HS135
HS224
HS175
HS161
HS142
HS209
HS222
HS214
HS137
HS139
HS191
HS136
06 105
HS210
DG10A
'( HS197
HSllQ
HS216
( HS108
HS215
HS134
( HS173
HS109
MS14Q
( MS120
HS102
HS160
« HS121
HS117
HS149
( HSH34
HS211
HS167
HS145
HS190
HS130
HS13R
HS186
HS213
HS212
HS147
HS103
HS165
MS 199
H5154
HS151
.: HS156
HS105
0
0
0
0
f)
0
0
0
0
0
9
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
o
0
0
0
0 .
0
0
0
0
NONE
NONE
K20
NONE
NONE
NOME
NONE
NONE
NONE
NONE
NONE
NONE
NI 6%
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NIS 6%
NONE
NONE
COO 3%
NONE
COO 3%
NONE
NONE
NONE
COO 3%
COO 3%
NI 4.59S
NONE
NONE
NONE
NONE
cuo
SI 02 6%
NTS 6%
NONE
NONE
NONE
NONE
NONE
NONE
NI 4.5%
NI 6%
CR?03
NONE
NONE
NONE
CUO
cuo
CR203
-------�
HS104
HS153
HS171
HS15R
DG112
EN202
AC301
EN201
FN208
" ""EN203
F.N205
" ~ENlof
FN204
HC205
FP102
EP101
NL103
AC101
EN206
EN207
RM101
ML 104
NL101
KC101
NL10?
CY105
CY102
CY103
CY101
CY501
CY104
CY201
CY601
AC104
NL105
AGIO?
NL106
AC103
AC303
AC302
G*404
CA103
DG102
DGlOfl
HC204
NL113
DG210
CA601
/ OG124
QG123
o DG204
"' """ "~"DG20fl
DG126
GR438
G«437
DG107
B-4
0
0
0
0
0
85
92
113
122
122
135
143
145
190
230
230
240
245
250
250
260
297
315
320
355
370
370
370
370
370
370
370
370
416
425
429
471
491
509
555
572
586
620
640
650
650
660
694
700
700
700
760
770
817
817
820
SI 02 6%
CUO
NONE
CR203
NONE
FE203 8.0
NONE
FE203 12%
FE203 3.5
TI02 3.5
TI02 3,0
TT02 1.7%
TI02 2.%
AL203 45%
FE203 1.8
FE?03 1.8%
AL203 33%
NA20 .9%
TI02 3.5
NOT GIVEN
Nft20 .5
AL203 29%
AL203 13%
NA20 ,3%
AL203 25%
Fr .05
FE .05
FE .04
FE .05
K20 10.8%
FE ,12
NONE
K20 10.1%
SI02
AL203 32%
CACL2 9.3%
AL203 32%
COCL2
NICKEL FORMATE
CAO .06
NOT GIVEN
CR203 9-11%
NONE
NONE
AL203 45%
NA20 ,09
MGO
K,CA,AL OXIDES
NONE
NONE
NONE
NONE
'NONE
NOT GIVEN
NOT GIVEN
-------�
0(3125
HC209
CC304
CC324
CC322
CC325
ccioi
CC326
CC331
CC313
OG104
OG109
CC311
GH413
CC3Q7
OG205
CC314
CC30B
CC337
t)G203
DG119
DG101.
CA201
CC302
GH419
G«439
CC323
CC317
DG103
CA401
GR202
HC203
DG211
06206
CA104
CC318
OG121
G«405
CA105
NL107
GK
-------�
RC101
CA30?
ucio?
HC201
CA701
DG209
NL110
MN101
GK414
G«301
GR421
GR420
MC20?
MN102
GR411
OG303
OG301
GR436
DG30P
UC204
IIC501
06305
UC101
UC20]
GR406
06212
GR409
UC203
OG213
GR43?
DG304
CA30S
NL111
IJC20?
CA301
GR42P
GR4?9
06201
OG202
CA304
AL102
G«42ft
OGllo
OG116
MC20R
G«430
OG114
QG127
7 GR431
MCI 01
AL101
CAflOl
G«427
GR42S
06111
GH101
B-6
2000
2000
2000
2000
2000
2000
2040
20RO
2090
2090
2090
2090
2100
2160
2200
2200
2300
2400
2400
2460
2600
2640
2670
2670
2700
2700
2700
2720
2800
3000
_3.000
3000
3240
3260
3550
3700
3700
3700
3700
4050
4350
4500
4800
4950
5300
5500
5500
5900
6200
6500
7600
7750
qOOO
8500
9800
loioo
NONE
NONE
NOT GIVEN
NONE
NONE
NONE
NIO 2.8%
NONE
NOT GIVEN
MO
NOT GIVEN
NOT GIVEN
COO 3.2%
NONE
NOT GIVEN
NOT GIVEN
NOT GIVEN
NOT GIVEN
NOT GIVEN
NOT GIVEN
NOT GIVEN
NOT GIVEN
NOT GIVEN
NOT GIVEN
NOT GIVEN
NONE
NOT GIVEN
NOT GIVEN
NONE
ZR
NOT GIVEN
CO, CR
NI 4%
NOT GIVEN
NONE
NOT GIVEN
BARIUM
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
Zo 3.0
NOT GIVEN
NONE
NOME
"NOT GIVEN
NONE
NONE
-------�
B-7
(
C
(
(
GR415
GR440
GR416
06115
GR417
GR422
OP10?
HC206
IJA101
UC40?
UC307
UC306
HC207
QPlOl
r,R433
G«434
(JC30?
UC301
IJA102
UC305
I.IC304
. UC303
UA103
M3101
XY101
10800
lofloo
11800
11900
12000
12700
15200
15^00
24000
2*000
...... ZftOOO .
2^000
3qOOQ
45600
4q400
4q400
BftOOO
5*000
5pOOO
80000
8QOOO
ROOOO
8^000
111000
250000
NONE
NONE
NOT GIVEN
NONE
NOT GIVEN
NOT GIVEN
NONE
C/VPBON
NOT GIVEN
NOT GIVEN
MOLECULAR S
MOLECULAR S
NONE
NONE
NONE
NONE
MN 5,2* MOL
MOLECULAR S
NOT GIVEN
MOLECULAR S
MOLECULAR s
MOLECULAR S
CR 20%» FF:
NONE
NOT GIVEN
IEVE STRUCTURE
IEVE STRUCTURE
. SIEVE STRUCTURE
IEVE STRUCTURE
IEVE STRUCTURE
IEVF_ STRUCTURE
IEVE STRUCTURE
20%
-------�
B-8
TABLE 8-2. SECONDARY COMPOSITION
CODE SECONDARY COMPOSITION
1
{
(
(
c
c
c
c
(
(
(
HC209
NL101
HS217
NL102
ML 104
HS233
ML106
NL105
NL103
HC204
HC205
HS124
OG21]
HS206
CC32R
QR429
AC102
CC339
CC318
CC317
CC301
CC336
CC333
AC302
CC304
CC335
CC30?
CC334
HC206
AC103
CY702
CY701
HC202
NU107
NL10R
HS108
HS109
H^llO
HS107
/* A "3 fi ^
\. *"* »J v O
CA401
CA305
HS230
"sill
HS229
a CA103
H5227
MS 157
HS226
AL203 12.4%
AL203 13%
AL203 14%
AL203 25%
AL203 29%
AL203 ?%
AL203 32%
AL203 32%
AL203 33%
AL203 45%
AL203 45%
AL?03
AL203
AL 49%
BAO .4
BARIUM
CACL2 9.3%
CAO 1.2
CAO 1.3
CAO 1.
CAO 1., NA20 ,52
CAO
CAO
CAO ,06
CAO .53
CAO .6
CAO ,6, BAO .5
CAO .9
CARRON
COCL?
C003 3.0
C003 3.2
COO 3.?%
COO 3.5%
COO 3.c;%
COO 3%
COO 3%
COO 3%
COO 5%, CUO 5%
coo, MOO
CO-MO OXIDES
CO, CR
CR?03 10%
CR203 22%
CR203 23%
CR203 25%
CR203 9-11%
CR?03
CR203
-------�
B-9
HS156
HS158
HS148
IJA103
HS113
HS15?
HS154
HS151
HS150
HS153
HS149
HS203
HS140
EN201
E.P102
EP101
EN20R
FN202
CC327
CC338
. CC32S
CC337
CR203
CR203
CR203
CR ?o%, FE 20%
CUO 37%
CUO
CUO
CUO
CUO
CUO
CUO
cuo i%
COO 3%
FE203 12%
FE203 1.8
FE203 1.8%
FE203 3-5
FE203 8.0
FE203 .64
FE203 .64
FE203 .64
FE203 .64
HS201
_
FE203»4%, COO 4%
COO 4%
C __
CY401
CY103
_ _
FE .025*"
FE ,04_
FE .05
CY101
CY104
CC319
CY601
CY501
CA201
HS143
CA601
HSIH
CC341
HS200
IJC302
IJC307
UC301
UC305
UC304
UC303
" ~" UC306
HS221
HS220
6R301
CC313
CC314
CC331
CC311
CC320
FE ,05
K20 0,c;5
K20 10.1%
K20 10,8%
K20 14-15%
K20
K,CA,A|_ OXIDES
MGO ?%
MGO 3.
MGO
. MG. 1.2% . ._
MM 5.2, MOL. SIEVE STRUCTURE
MOLECULAR SIEVE STRUCTURE
MOLECULAR SIEVE
MOLECULAR SIEVE
"MOLECULAR SIEVE
MOLECULAR SIEVE
MOLECULAR SIEVE
M003 3%
M003 5%
MO
NA20 0.7
Na?o 0.7
NA20 It K20 1
NA20 1,
STRUCTURE
STRUCTURE
STRUCTURE
STRUCTURE
STRUCTURE
- - - —
-------�
B-10
CC330
C"C3'2ft"
CC329
CC332
Nil 13
HC203
K_C101
CClOl
RM101
CC340
AC101
AC303
NL 1 1 0
NA20
NA20
NA20
NA20
NA20
NA20
0.9
1%
NA20
NA20
NA20
NICKEL
_NIO_?..R%
NI'O "3.1%
.45%
• 5 ____________
.5
• 9%
FORMATE
HS210
5R101
HS120
NIS 6%
NI 3%
NI 4,5»
("
C
(.
(
NL109
NIL 1 1 1
HS209
HS212
HS196
HS1_7_4
HS167
HSU5
NI 4.5%
NI 4%
NI *6%
HS130
HS18_6
~RST95
_HS179
HST94
_HS103
HS165
_H51_99
HST192
HS182
HS183
HS10R
MS 1 93
HS171
NI,AL
NONE
NONE
NONE_
NONE
NONE_
"NONE
NONE
DG112
CC321
AC301
H5123
MS116
NONE
NONE
"NONE
NONE
NONE
_NONE_
NONE
NONE
"NONE"
NONE
"NONE
NONE_
NONE
NONE
NONE
NONE.
NONE
NONE
H5106
HS1U
ML112
HS20R
HS132
NONE
_
HST8T
NONE
NONE
NONE
_NONE
-------�
B-ll
HS207
HS188
HS115
H5184
CC201
CC34?
HS119
HS118
HS19R
HS231
HS159
HS163
HS180
HS205
DG108
HS101
HS122
HS112
DG124
OG123
DG208
DG126
OG107
OG125
HS1B9
HS166
CC322
HS23?
HS187
HS218
HS204
HS219
OG104
DG109
HS178
DG205
HS141
HS133
06203
061 19
DG101
7 HS13S
CC323
HS17S
06103
HS161
GM202
HS142
NONF
NONF
NONF _._.
NONF
NONF
NONE
NONE
NONF
NONE
NONF
NONE
NONF
NONE
NONF
NONE
NONC
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONF
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONF
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONF
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONF
NONE
NONE
-------�
B-12
HS12Q
DG206
CA104
" HS22?
nGi2i
GR405
HS214
HSU6
HS137
CA102
CA303
HS139
OG113
HS191
HS136
DG105
HS129
CA702
DG122
RCJOl
CA302
HC201
CA701
DG209
DG106
MN101
HS197
MN103
MN102
OG212
DG213
HS216
HS127
CA301
MSH15
DG201
OG20?
CA304
AL10?
GR426
DG110
DG116
HC20R
G«^30
OG114
OG127
AL101
CA801
7 G«^25
Dt.111
HS134
GR415
i G«*40
OG115
DP 10?
HS173
NONF
NONE
NONE _. _.... .. ..
NONE
NONE
NONE
NONF
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONF
NONE
NONE
-------�
B-13
_pG_120_
6G1T7
HC207
DP101
GR433
GR434
_DG1 1 fl_
HS102
HS160
HS121
HS117
HS16?
_NONE
NONE
NONF
NONE
NONE. _
NONE
_NONE
" NONE
NONE
NONE
_N_PNE
NONE
NON£_
HS223 NOT GlvEN
GR435
GR428
GR4Q7
HS164
CC316
EN207
CC312
GR404
UC102
CC315
GR4Q3
GR419
GR439
NC101
GR427
GR421
GR420
GR401
GR40?
GW411
GR416
DG303
GR417
GR422
DG301
GR436
IJA101
UC402
06302
DC204
UC501
UC101
UC201
GH406
"" " G«437
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
NOT
GlvEN
GlvEN
GlvEN
GlvEN
GlvEN
GlvEN
GlvEN
GIVEN
GlvEN
GlvEN
GlvEN
GlvEN
GlvEN
GlvEN
GlvEN
GIVEN
GIVEN
GlvEN
GlvEN
GlvEN
GlvEN
GlvEN
GlvEN
GIVEN
GIVEN
GlvEN
GIVEN
GlvEN
GlvEN
GIVEN
GlvEN
GlvEN
GlvEN
GlvEN
GlvEN
UA10?
-------�
B-14
UC203
NOT Glv/EN
"NOT GIVEN"
QG304
GRM3
XY101
HS104
AC104
HS13]
HS234
CC310
CC306
CC305
CC308
CC307
CC309
EN204
EN205
NOT GIvEN
NOT GIvEN
NOT GIvEN
SIO? 6%
SIO?
SI 02 6%
TI02 1.7%
TIO? 1.8
TI02 1.8
TIO? l.B
TIO? 1.9
TI02 2.2
TIO? 2,%
TIO? 3,0
(
(
c
c
(
(
_EN203_
EN20V
CC303
CC3P4
^A105
GRV31
TIO? 3.5
TIO? .55
TIO? .55
ZN QXIDES,
ZR 3.0
-------�
B-15
TABLE B-3. AVAILABLE SIZES
CODE
SI7E
_AC101
ACT02
AC103
~AC104
AC301
AL101
AL102
CAT02~
CA103
~CA104
CA105
CA201
CA301
CA303
CA304
CA305
"CA306
_CA4Q1
CA601
CAT 01
CA702
CC101
CY101
CY103
~CYT04"
CY201
"CY302
CY401
CY501
CY601
JO 8 MESH.
1/2 TO 1/4 INCH
1/4 IN. TO 8 MESH
1/8 TN, + 1/4 IN, DIA. BALLS
1/4 INCH TO 8 MESH
CELLS 1*1/3*1/5 INCH
_il N • _BY_ 9_T NjL_BY_ 4 IN .
1/2XT/2* 3/4X3/4 INCHES
3/8X1/4 AND 1/4X1/4 INCH
1/4X1/4* 3/8x1/4
1/4X1/4 AND 3/16X3/16 INCH
3/16 AND 1/4X1/4
l/8_iNqH EXT,» 4X8 MESH SPHERE
i/8 INCH"; 4X8"MESH
1/8 INCH; 4x3 MESH
4X8 MESH
1/3 INCH
1/16X1/8 INCH
J3/J6 AND 1/4 IN. TABLETS
6-16 MM
5/8X1-1/2 INCH
5/8X1-1/2 INCH
3/16 TO 3/8 1SPHERED
"150 MICRONS MAX.'
60_MlCpONS
63 MICRONS
63JMTCRONS
"1/16 TO 1/8 I'NCH
1/16 INCH DIAM.
95 PER CENT FINER
61 AM.
THAN 149 Mil,
C0
DG102
DG103
OG104
~OG105
DG106
DG107
DG108
DG109
DG110
.248
.189
3 TO
3 TO
8 TO
_6_TP
8 TO
IN. LENGTH* ,134
IN. LENGTH* ,069
8 (TYLER SIEVE)
8 (TYLER SIEVE)
U (TYLER SIEVE)
l6 J TYLER SIEVE)
20~ (TYLER SIEVE")"
IN.
IN.
DU.
01 A,
06112
DG113
DG114
DG115
DG117
12 TO 28 (TYLER SIEVE)
6 TO 12 (TYLER SIEVE)
3 TO 9 (TYLER SIEVE)
28 TO ?00 (TYLER SIEVE)
20 TO 65 J TYLER SIEVE)
35 "TO" 60" < TYLER" SI EVE)
35 TO ftO (TYLER SIEVE)
60 fo 200 (.TYLER SIEVE)
200 TO 325 (TYLER SIEVE)
100 TO 200 (TYLER SIEVE)
60 TO ?00 (TYLER SIEVE)_
-------�
B-16
06118 80 (TY|ER SIEVE)
6 TO 16 (TYLER SIEVE)
14 TO 20 (TYLER SIEVE)
3 TO 8 (TYLER SIEVE)
6 TO 16 (TYLER SIEVE)
3 TO 8 (TYLER SIEVE)
325_(TYLER SIEVE)
50 TO 200 (TYLER SIEVE)
100 (TYLER MESH)
250 (TYLER SIEVE)
61 MICRONS
3/16X3/16 INCH
3-2OQ. MESH..
06120
06121
D6122
06123
06124
06125
06126
D6127
06201
06202
06203
1)6204
06205
062 06
Q6208
D6209
AG21P.
06211
06212
06213
06301
06302
-06.303
06304
06305
DP 101
Pi1??
ENlOl
FN201
~EN202"
EN203
EN204
EN205
EN206
EN207
ON 10 MESH(FINER SIZES ON REO)
ON 4 MfrSH(FlNER SIZES ON^REQ.)
106-325 MESH
54 TO 65 MICRONS
54 TO 65 MICRONS
IN.
EN208
JP101
FP102
GR101
GR202
GR301
GR402
GR404
"GR405
J?R406
GR4~07
GR40Q
1/8X1/8_IN_. OR 3/16X3/16.
3/16 INCH DIAMETER
1/8X1/8 OR 3/16X3/16 CYLINDERS
1/8X1/8 OR 3/16X3/16 CYLINDERS
4-8_* 8-12 M£SH» 3-5 MICRONS
4-8J8-12 * 20-50 MESH/3-5 MIcR
A_M£S.H_ SIZES ?5-30_.MESH
4-8,8-12 MESH 13-5 MICRONS
4-8,«-l2»* 14-30 MESH
CELLS 1/8,3/16,1/4.3/8*3/4 IM.
CELL? 1/8, 3/16, 1 /4, 3/8»J_/4 I M._
3/6 TYj'ER MESH
_LO/?n_MESH
4/8, 16/20, 10/30, 20/60 MESH
*/?• 4/i°» 4/u, 10/20 MESH
2/4, 4/8* 4/10, 10/20, MESH
_5/16X5/16 INCH
4/8, 4/10* 8/?4 MESH
_* f. 8 »__8_/J 4 JI^IH
4 TO 8 MFSH"
-1/?,*4 MESH
10 MFSH
1/4X1/4*3/8X3/8 INCHES
4X6 MESH,8X30 MESH
3/16,1/8 INCH
"374^X374 OR 5/8X5/8 "INCH RINGS
1/2 TO 3/4 INCH
5/8 TO 1-1/2 INCH
3/8X3/8 AND 1/4X1/4 INCH
1/4X1/8* 3/16X3/16 INCH
1/4X1/4 INCH
T/4X1/4 INCH
3/16X3/16 INCH
3/16X3/16* 1/4X1/4 INCH "
1/4X1/4 INCH
1/8 TO 3/16 INCH
3/16X3/16 INCH
-------�
c
(
(
GR416
GR417
GR419
GR420
GR421
GR422
GR424
GR425
GR426
GR427
GR428
GR430
GR431
GR432
GR433
GR434
GR435
GR436
GR437
GR438
GR439
GR440
HC201
HC202
HC203
HC204
HC205
HC207
HC208
HC209
HS101
HS102
HS103
H5104
HS105
HS106
HS107
HS108
HS109
HS110
HS111
HS112
HS113
HS114
HS115
HS116
HS118
HS11Q
HS120
H5121
HS122
HS123
= HS124
HS125
HS12Q
HS130
B-17
3/UX3/16 INCH
4Xfl MESH
1/4 fNCH
3/16X3/16 INCH
3/16X3/16 INCH
3/16x3/16, 3/16X3/8 INCH
l/4Xl/4» 1/2X1/2 INCH
3/16X1/8, 1/4X3/16 INCH
1/4X1/4 INCH
3/16X1/8 INCH
3/16X3/16 INCH
3/16X1/8 INCH
3/16X1/8 INCH
1/4X1/4 INCH
95% THROUGH 100 MESH
95% THROUGH 100 MESH
2-8 MM
1/4, 1/2, 3/4» 1-INCH
1/16, 1/8 INCH
1/8 AND 3/16 INCH
4X6, 8x30 MESH
3/16 INCH
1/8X1/6 INCHES
1/8 AND 5/32 INCH DIAMETERS
3/32, 1/8, 5/i2, 3/16 INCH
1/8 INCH
0,17-0.18 INCH DIAMETER
3/32 TO 5/32 INCH DIAM,
0.1 INCH DIAMETER
4X4 MM.
1/8 TO 1/4 INCH DIAMETER
1/8 TO 3/8 INCH DIAMETER
1/8 TNfH DIAMETER
1/8 INCH DIAMETER
1/8 INCH DIAMETER
3/16 INCH DIAMETER
1/8 INCH DIAMETER
1/8 INCH DIAMETER
1/8 INCH DIAMETER
1/8 INCH DIAMETER
1/8 INCH DIAMETER
5/3? INCH DIAMETER
1/8 TNCH DIAMETER
1/2 INCH DIAMETER
1/8 INCH DIAMETER
3/8 INCH DIAMETER
1/8 INCH DIAMETER
5/32 INCH DIAMETER
1/8 INCH DIAMETER
1/8 TNCH DIAMETER
1/8 INCH DIAMETER
1/4 INCH DIAMETER
1/4 INCH DIAMETER
3/16 TO 3/8 INCH DIAMETER
80-3?5 MESH
-------�
HS132
HS133
HS134
HS135
HS136
HS137
HS13fi
HS139
HS140
HS141
HS142
HS143
HSH4
HS145
HS146
HS148
HS150
HS152
HS159
HS160
HS161
HS163
HS164
HS165
HS166
HS167
HS171
HS173
HS175
HS176
HS177
HS180
HS181
HS182
HS184
HS185
HS186
H5187
HS188
H5190
HS191
HS192
HS193
HS194
HS195
HSl9ft
HS197
H5198
7 HS199
HbZOO
HS201
H5202
5 HS203
HS204
HS205
HbZ06
B-18
4-6 MESH
3/16X3/16 INCH
3/16X3/16 INCH
4-8 MESH
4-8 MESH
4-8 MESH
1/8X1/8 INCH
1/8X1/8 INCH
l/8xf/8 INCH
1/8X1/8 INCH
1/8X1/8 INCH
1/8X1/8 INCH
1/8X1/8 INCH
0-80 MESH
l/8Xl"/8 INCH
1/8X1/8 INCH
1/8X1/8 INCH
1/8X1/8 INCH
1/8X1/8 INCH
1/8X1/8 INCH
1/4X1/4 INCH
1/8X1/8 INCH
1/8X1/8 INCH
4-10 MESH
1/8X1/8 INCH
MlCROSpHEROIDAL
3-8 MESH
1/8X1/8 INCH
1/8X1/8 INCH
l/8»3/!6»*l/4 IN. (OIA., LENGTH)
l/8,3/16»*l/4 IN. (DIA., LENGTH)
1/8X1/8 INCH
5/3? IN. OIA. X 1/8 IN. LONG
1/4 X 1/4 INCH
1/4X1/4 INCH
l/flt3/16»+l/4 IN.(OIA.*LENGTH)
1/16 INCH DIAMETER
1/8X1/8 INCH
1/8X1/8 INCH
5/32 INCH DIAMETER
1/8X1/8 INCH
3/8, l/2» 3/4» * 1,0 INCH
1.0 INCH
1.0 INCH
3/4 INCH
325 MESH
1/8 * 3/16 INCH(DIA. * LENGTH)
5/3? * 7/32 IN. (OIA. * LENGTH)
1/16 INCH DIAMETER
1.0 INCH
1/4 INQH
1/8X1/8 INCH
4-6 MESH
2-1 MESH
1.0 TNCH (SPEC. 102)
-------�
B-19
c
c
c
HS209
HS21Q
HS211
HS21?
HS213
HS214
HS215
HS216
HS217
HS218
HS220
HS221
HS222
HS223
HS224
HS225
HS226
HS227
HS228
HS229
HS230
HS231
HS23?
HS233
HS234
KC101
MN101
MN102
MN103
NC101
NL107
NLlOfl
NL109
NLllO
NL112
RM101
UC 1 0 1
UC201
UC20?
UC203
UC204
UC301
UC30?
UC303
UC304
UC305
IJC306
UC307
: UC40?
UC501
1/1? INCH DIAMETER
1/12 INCH DIAMETER
1/12 INCH DIAMFTER
1/12 INCH DIAMETER
1/8 INCH DIAMETER
1/8X1/8 INCH
1/8X1/8 INCH
1/8X1/8 INCH
1/8X1/8 INCH
1/8X1/8 INCH
3/16 INCH DIAMETER
3/16 INCH DIAMETER
1/8X1/8 INCH
l/sxi/8 INCH
1/8X1/8 INCH
1/4X1/4 INCH
3/16»l/4»*3/8 INCH,DIA.»UENGTH
3/16»l/4»*3/8 INCH»DIA.»LENGTH
3/16 INCH DIAMETER
1/8X1/8 INCH
1/8X1/8 INCH
1/8X1/8 INCH
4-10 MESH
1/8X1/8 INCH
1/8X1/8 INCH
1/4XQ MESH* 1/4X1/2 INCH
0,2 IN.DIA. X 0.3 IN. LENGTH
0.2 IN.DIA. X 0.3 IN. LENGTH
2.8 IN.DIA. X 0.14 IN. THICK
1/8 1/16 PELLETS.5 MICRON POwD
1/16, 1/8 INCH
1/16, 1/8 INCH
1/16, 1/8 INCH
1/16, 1/8 INCH
EXTRUDED OR MICROSPHEROIDAL
1/2-1/4* 1/^-8 MESH»8-14 MESH
1/8, 1/16 INCH
1/16, 1/8 INCH
1/16, 1/8 INCH
1/16, 1/8 INCH
1/16, 1/8 INCH, 14X30,8X12 M
-------�
B-20
E B-4. AVAILABLE SHAPES
"CODE SHAPE
AC101
~A CIO2
AC 103
~A~Ci04
AC301
AC30?
Ajy03
AL101
AL102
"CAIO?
_CA103
CA104
_CA10J5
CA2~OT
CA301
CA302
_CA303
CA304
CA305
_GR AN! |LFS
" GRANULES
GRANULAR
BALLS
GRANULAR
GRANULAR
GRANULAR
'BLOCKS 8X8X2 "INCH"
EXT.RUOED
CYLINDERS? RINGS
_TABLETS
TABLETS; EXTRUSIONS
_TABLEIS
EXTRUSIONS AND TABLETS
EXTRUSIONS,SPHERES
"EXTRUSIONS; SPHERES"
EXTRUSIONS; SPHERES
SPHERES
SPHERES
CA306 EXTRUSIONS; TABLETS
cA4oi EXTRUSIONS; TABLETS
CAf>01 GRANNU) ES
_CA7pl_ IRREGULAR PARTICLES ___
CA702 IRREGULAR PARTICLES
_CC1H_HQLLOW CYLlNDERt SPHERES
CC301 PELLETs
_C_C3°? _PELLETS
CC307" GRANULES '"
Cp30? GRANULES
"cC3"i4 GRANULES
_C_C3 21 GR A N U L E_S
cC3?2 GRANULES"
CC329 GRANULES
CC330 GRANULES
CC334 GRANULESi_
CYlOl POWDER
C V10 3 POWDER
C'YT04 POWDER
CY401 EXTRUSIONS
CY601 PELLETS
DGIOI IRREGULAR GRANULES
~DGio2 "GRANULAR
_DG103 GRANULA"
DG~r04 GRANULAR"
OG105 GRANULAR
DG106 GRANULAR
06107 GRANilLAR _
DG10« GRANULAR
OG109__GRANULAR
-------�
B-21
P611'
66112
OG113
6G114
OG115
061 17_
0 Gil ft
OG119
OG120
DG121
06122
06123
DG124
P.6.125
06126
D6.127_
pG20i
06202.
OW03
OG204
OG205
06206
06208"
___
06210
_D621l
06212
06213
06~30i~
_
OG303
0.6304
06305"
OP101
OP 102
EN1_°JL
EN205
EN20R
''
GR202
GR301
GW40.1
"
GRANULAR
GRANULAR
GRANULAR
GRANULAR
GRANULAR
GRANULAR
"GRANULAR
GRANULAR
GRANULAR
GRANULAR _
GRANULAR
_G_R ANUkA.R_
GRANULAR
GRANULAR
GRANULAR
.GRANULAR..
POWDER, ALSO PELLETS
_c y L j M p R ic A L_ PELLET s
GRANULES
GRANULES
GRANULES " "'
GRANULE?
GRANULES (MiCROSPHEROIDAL)
(MICROSPHEROIOAL)
IN.
IN.
EXTRUSION
EXTRUSION
PELLETS
PELLETS _
SPHERES ? GRANULES
-SPHERES J -GRANULES
sPHERE s»e RANuLE s
SPHERES » GRANULES_
SPHERES "\ GRANULES
BLOCKS 12 IN.SO., 2
BLOCKS 12 IN.SQ., 2
_CYLUiORICAL PELLETS
PELLETS
GRANULAR _
TABLETS
GRANULES, PELLETS _
EXTRUSIONS
-RASCHlo RINGS, TABLETS,
CYLINDERS, RASCHIG RINGS
IRREGULAR LUMPS
TABLETS
TABLETS
PELLETS
JABLETS
TABLETS
TABLETS
THICK
THICK
TABLETS
SPHERICAL PILLS
TABLETS
TABLETS _
-------�
GR417
GR420
GK421
GR42?
GH424
GR426
GR427
GR428
GR430
GR431
GR432
GR433
GR434
GR435
GR436
GR437
GR438
GR439
GR440
HC201
HC20?
HC203
iif o A e
ri w C- v j
HC206
HC207
HS10]
H ^ * v cL
ij C 1 ft O
HS104
H5106
HS107
HS10Q
HS110
HS112
HS113
HS114
HS115
HS117
H5118
HS119
HS120
HS121
Hbl22
c HS123
HS124
-., HS125
HS127
HS128
B-22
GRANULES
EXTRUSIONS
PELLETS
PELLETS
PELLETS
TABLETS
PELLETS
TABLETS
POWDFR, TABLETS
POWDER, TABLETS
TABLET^, POWDER
TABLETS* POWDER
POWDER* WET CAKES
POWDER, WET CAKES
GRANULES
SPHERES
EXTRUSIONS
EXTRUSIONS
PELLETS* GRANULES
SPHERES
PELLETS* CYLINDRICAL EXTRUSION
PELLETS* CYLINDRICAL EXTRUSION
PELLETS* CYLINDRICAL EXTRUSION
PELLETS* CYLINDRICAL
POWDER
PELLETS* CYLINDRICAL EXTRUSION
PELLFTs
TABLET
TABLET
EXTRUSION
EXTRUSION
EXTRUSION
EXTRUSION, BLACK
TABLET, BLACK
TABLET
TABLET
TABLET
TABLET, GREEN
TABLET
TABLET
SPHERE, GRAYISH BLACK
TABLFT, GRAY WHITE
SPHERE
POWDFR, BROWN
TABLET, BLACK
TABLET
EXTRUSION
TABLETS* ORANGE
SPHERE, ORANGE
TABLET
TABLET
1/8 IN. EXTRUSION
-------�
B-23
HSJ.29
HS130
HS131
HS13?
HS133
HS134
HS135
HS13*
HS137
HS13R
HS13Q
HS14Q
HSU]
HS14?
HS143
HS144
HS145
HS146
HS147
HS14R
HS149
HS150
HS151
HS152
HS153
HS154
HS156
HS15B
HS159
HS160
HS161
HS16?
HS163
HS164
HS165
HS166
HS167
HS171
HS173
HS174
HS175
HS176
HS177
HS178
HS179
HS180
HS181
HS182
HS183
HS184
HS1R5
HS186
HS187
HSlflfl
HS1R9
HS19Q
POWDER
POWDER (MICROSPHEROIDAL)
POWDER
GRANULE (EXTRUSION
TABLETS
TABLETS
GRANULES (BLACK)
GRANULES
GRANULES (BLACK)
TABLETS (BLACK)
TABLETS (HLACK)
TABLET
TABLETS (GREEN)
TABLETS (GREEN)
TABLETS
TABLETS (GREEN)
POWDER (MTCROSPHERIODAL)
TABLETS (GREEN)
POWDER
TABLETS
POWDER
TABLETS
POWDFR
TABLETS
POWDER
POWDER
POWDER
POWDER
TABLETS (BLACK)
TABLETS
TABLETS (WHITE)
POWDER
TABLETS
TABLETS (SLACK)
GRANULES
TABLETS
POWDER
GRANULES (BROWNISH-BLACK)
TABLETS (GRAY)
POWDFR (MICROSPHEROIDAL — GRAY)
TABLETS (GRAY)
TABLETS (GREEN)
TABLETS (DARK GRAY)
GRANULES
POWDER
TABLETS
TABLETS
TABLETS
ELAKE (PROTECTED»HARDENED OI| )
TABLETS (PROTECTED IN LIQUID)
TABLETS
EXTRUSION
TABLETS (GRAY)
TABLETS
ELAKE (PROTECTED»HA«DENED OIL)
-------�
HS191
HS19?
HS193
HS194
HS195
HS196
HS197
HS19R
HS199
HS200
H5201
HS202"
HS203
HS204
HS205
HS206
HS207
HS20B
HS209
HS210
HS211
HS212
HS213
HS214
HS21S
HS216
HS217
HS21fl
HS219
HS220
MS221
HS222
HS223
H5224
HS22S
HS226
HS227
HS22R
HS22Q
HS230
HS231
HS23?
HS233
. H5234
KC101
MN101
MN10?
MM 103
7 MCI 01
ML107
NLlOft
NL109
r. KlLllO
RM101
UC101
UC201
B-24
TABLFTS
SPHERES
SPHERES
SPHERES
RING (GRAY)
POWDER
TABLETS (ACTIVATEO»STABLJZEni
TABLETS
EXTRUSION
SPHERES
SPHERES
TABLETS
GRANULES
GRANULES
CUBES
TABLETS
ELAKES(PROTECTED»60% STEAPINP)
ELAKES (IN HARDENED OIL)
EXTRUSION
EXTRUSION
EXTRUSION
EXTRUSION
EXTRUSION
TABLETS
TABLETS
TABLETS
TABLETS (WHITE)
TABLETS (ORANGE)
SPHERES (ORANGE)
EXTRUSION
EXTRUSION
TABLETS (YELLOW TO WHITE)
TABLETS
TABLETS (GRAY WHITE)
TABLETS
TABLETS
TABLETS
EXTRUSION (WHITE)
TABLETS (GREEMlSH-BLACK)
TABLETS (GREY)
TABLETS (WHITE)
GRANULES
TABLET*; (WHITE)
TABLETS
BALI S
EXTRUDED PELLETS
EXTRUDED PELLETS
TABLETS
PELLFT, POWDER
EXTRUSION
EXTRUSION
EXTRUSION
EXTRUSION
IRREGULAR GRANULES
PELLETS
-------�
B-25
TlC 20 3"
UC204
UC301
IJC30?
UC303
UC304
11C305
UC306
UC307
JJ.C4°2
UC501"
PELLETs» POWDER
PELLETS* BEADS, POWDER
TABLETS
TABLETS
TABLETS
TABLETS
TABLETS
TABLETS
TABLETS
TABLETS _
-------�
B-26
_._.cj3_u s H ING__STJRENGTH_IN_ _L.Bs.f_
cm
C.QO.E _. ._ ST
GR301
GR101
HS230
HS157
HS1H
HS180
HS21R
HS231
HS101
HS223
HS199
HS210
CY401
HS181
HS197
HS186
HC20?
06304
HS141
HS173
DG301
HS163
DG303
OG30?
HS143
HS222
NL109
HS113
DG211
HS150
UC201
NL108
NL110
HS187
HS10S
HS107
HS229
HS209
HS217
NLlll
ML 107
CY70?
UC203
HC201
GH425
HS213
HS134
HC203
HS182
USHlNG
PEMGTH COMMENTS
-0 APPEARS TO BE VERY FRAGILE
0 NOT .LT. 35 LRS OWL. 5% .LT.18
7
8
8
9
9
9
9 TO 25 (DEPENDING ON SIZE)
9
9
10
10
10
10
10
10
10 4-8 MESH ;6 l_BS. 8-12 MESH
10
10
11 4-8 MESH j 7 L8S. 8-12 MESH
11
11 4-8 MESH ; 7 L8S. 8-12 MESH
11 4-8 MESH ; 7 L8S. 8-12 MESH
11
11
12
12
12
12
13 1/8 INCH PELLETS
13
13
13
14
14
14
14
14
14
14
14
14 1/8 INCH PELLETS
15 MINIMUM
15 FOR 3/16X1/8 PELLETS
15
15
15 MINIMUM; 30.0 MAXIMUM
-------�
B-27
c
. c
c
HS202
HS152
HS176
HS18R
HS212
HS138
HS133
HS228
HS211
HS104
HS166
06305
CY701
HS164
HS16]
HS175
HS112
GR438
UC40?
UC204
HS224
HC208
HS215
HS191
HS119
HS121
HS159
HS214
HS120
HS233
HS140
HS109
HS110
HS10B
HS142
UC202
HS139
HS115
HS234
HS177
HS102
HS122
NC10J
H5219
HS160
HS148
UC501
HS216
7 HS103
Mbl85
c HS118
HS184
s HS146
HS144
HS198
CY601
16
16
17
17
17
17
17
18
18
18
18
18 4-8 MESH ?10 IBS. 8-12 MESH
18
19
19
19
19
20
20
21 1/8 INCH PELLETS
21
21
22
22
23
23
23
24
24
24
24
24
24
24
24
24 1/8 INCH PELLETS
25
25
25
25 DEPENDS ON SIZE (10-25 LBS.)
25 TO 63 (DEPENDING ON SIZE)
26
26
27
28
28
30
30
31
35
35
35
35
40
40
-------�
B-28
HS190
GR422
HS106
~ " """ KC101
AC101
HS116
AC104
GR401
HS124
HS206
CC101
EP101
FP102
45
45
.50
50
55
60
75
90
100
100
iao
ZOO
200
FOR 3/16X3/16 PELLETS
FOR 5/8 IN. RINGS* SIDE AXIS
LB. /SO. IN., .THIS IS LOW.
LBS/SQ. IN,
HS114
240
(
c
-------�
B-29
TABLE B-6. HARDNESS
CODE HARDNESS COMMENTS
HC203
DG118
AL102
G«202
^ O /L T O
\5 *^ ' J '
EN101
HC205
5
5
8
90
90
95
95
MIN;KNIFE EDGE, VOOOG.
MOH SCALE
MOH SCALE
PER CENT
BALL MILL, INDEX
-------�
B-30
TABLE B-7. PQRE SIZE IN ANGSTROMS
c _
c
CODE
06301
UC203
IJC204
06303
UC101
06302
UC201
UCIO?
NC101
UC202
06304
06205
CC201
KC101
06212
06208
06213
wLlOl
ML 108
NL110
NL102
HC209
NL105
NL106
NL103
NL104
06202
06206
06209
CC326
CC101
CC327
CC325
CC32H
CC335
CC304
CC324
CC331
CC336
CC303
CC323
CC311
CC313
CC332
PORE
SIZE COMMENTS
3
3
4 ALL FORMS
4
4
5
5
9
10
10
20
22
50
67
70
70
75
80
8?
90
95
120
143
200
300
4000
20000
50000
60000
60000
7QOOO
Hoooo
Vioooo
120000
120000
120000
13QOOO
13QOOO
150000
-------�
B-31
CC320
CC316
CC302
CC3U
CC312
CC31S
CC319
CC30S
CC309
CC301
CC310
CC330
CC32Q
CC32]
CC322
CC30R
CC334
CC317
CC307
160000
170000
200000
?OQOOO
210000
240000
250000
250000
260000
280000
300000
30QOOO
330000
370000
390000
390000
440000
50QOOO
-------�
B-32
TABLE:
CODE
AC301
HS116
HS106
HS114
HS124
HS164
CC341
CC33H
HS228
AC302
CC337
HS181
HS229
HS223
HS188
RM101
GFH31
HS185
HS115
HS233
CC201
CC34?
CC339
HSllq
HS118
HS217
HS231
EM01
HS144
HS15Q
HS163
HS230
HS20?
GR 1 0 1
HS101
HS122
HS107
G«430
HS112
OG205
CC34n
HS166
HS11]
HS187
HS21R
HS143
OG20?
HS21Q
HS17B
B-8. PQRE VOLUME (CC/GM)
PORF
VOLUME COMMENTS
,015
.060
.070
.070
.120
.140
.140
.140
,140
,175
.180
.180
.180
.190
.200
.200 MIN» 0.25 MAX
.200
.200
.200
.210
.210
.220
.230
.230
.230
.250
.250
.250
.260
.260
.260
.280
.280
.280 CCL4 PORE VOL AT 800A
.280 MIN. .33 MAX.
.280
.290
.290
,290
.300
.300
.310
.310
.320
.330
,340
.340
.340
-------�
BT-33
HS141
HS133
HS135
HS224
HS175
HS161
HS14?
HS209
HS222
HS214
HS146
HS137
HS139
NL111
HS191
HS136
OG105
HS210
DG103
.350
.350
.360
.360
.360
.360
.370
.370
.380
.380
.380
.380
.380
.380
.380
.390
.400
OG115 .400
(
HS197
HS110
DG116
HS216
HS108
HS215
HS134
HS173
HS109
HS140
HS120
HS102
HS160
OG111
DG108
OG109
DG110
DG102
DG107
OG101
DG104
HS121
.400
.400
.400
.400
.400
.400
.400
.400
.400
.400
.410
.420 MINI, .51 MAX.
.420
.430 AT 1750 F
.430
.430
.430
.430
.430
__
OG203 .450
,4_50
~
7
6
J-
A
HS117
ML107
HS149
HS234
HS167
HS145
NL109
HS190
HS130
.460
.460
.470
.480
.480
.490
.500
.500
.500
_
-------�
B-34
ij C 1 *!i Q
M *•* i O O
KC101
NlLlOR
HS186
HS213
CY701
HS212
CY70?
HS147
N1105
.510
.510
.510
.530
.530
.540
.540
.540
.550
,550 MIN.» 0.60 MAX.
.560
CY104 .570
_^6J)0
NL106
CY201
DG201
NL104
DG210
Nt-103
GR202
HS199
HS154
DG125
CY105
.600 MINI, 0.65 MAX.
.600
.600
,610
.630 '
.650
.650
.650
.670
,670
.690
.690
.700
.700
,7?0
,720 MINIMJLJMJ__t78_MAx.IMU.M
DG127 .750
_DG212 , 750
HS151 0760
HS105
NL102
NL101
CY102
CY103
HS104
HS153
HS171
OG211
DG20R
OG204
HS15R
OG123
06112
OG206
DG209
.770
.800 MIN. 0.9 MAX.
.800 MIN. 0.85 MAX.
.890
.910
.920
.970
1.000
1.000
1.040
1.130
1.150
1.150
1.150
1.200
-------�
B-35
B-9_, .SliRF AC_E. AREA ( S0._ MET_E?S_PFrRjGj R AM)
CODE
AREA COMMENTS
DP101
DH102
FP101
AC301
CC301
HC204
CC334
CC309
CC307
CC308
CC314
CC329
CC315
CC302
CC336
CC323
CC321
CC305
CC322
CC316
CC317
CC310
CC304
CC306
CC33?
CC31Q
CC303
CC319
CC312
CC330
CC311
CC320
CC335
CC331
CC338
CC324
CC328
AC30?
CC341
CC313
CC337
CC333
CC325
CC327
HS123
HS220
HS221
HS193
HS195
HS136
6.00 (384 SQ.FT/CU.FT,l/8-IN.CELL)
0,00 (384 SQ.FT/CU.FT. 1/8-IN.CELL)
-0.00 SURFACE AREA EXTREMELY HIGH
.04
.09
,08 MINI. 0.1 MAX.
.09
.09
.11
.11
.14
.14
.15
.16
,16
,16
.17
.19
.19
.19
.20
.20
.21
.22
,23
.25
.27
.27
.29
.30
.30
.31
.31
.34
.34
.38
.45
.50
.55
.57
,58
,64
.74
,87
1.00
1.00
1.00 . . .
I. 00
1.00
-------�
B-36
HS114
HS153
HS201
HS116
HS192
HS135
HS200
HS194
CC342
CC339
ccioi
HS203
HS190
CC340
HS159
CC326
HS137
1 .00
1.00
1.00
1.00
1.00
1.00
1.00
1.00
1.40
2.30
3.00
4.00
4*00
44L Q
• O *
5.00
5.64
6.00
_ __
HS228"
MS 164
HS154
.
HS124
HS147
HS149
_H.S2?3
HS'l 1 7
JHS115
"HST58
HS156
HS'l 66'
J1SUL
HC201
7.00
. 8.00.
16.00
io.oo
ii.od
L3«Qp_
15.00
17,00
19.00
_? 1 • 0 0__
35.00
_37_tOO_
41,00
HS~15i"
HS) 39
HS~233
HS119
HS229
HS107
HSl"63
HS138
fSTi?"
HS141
HS187
45*00
4 6 • 0 0_
47.00
MIN. 70. MAX.
50.00
52.00
56.00
59.00
59.00
HS188
HS143
HS1T8"
__^_
6Q.OO
63.00
64. 00
64.00
65.00
HS202
HS218
HC207_
HS1 01
69.00
7o.OO
75,00
78,00
7R.OO
8o,00
80. 00
-------�
HC20S
DG202
EN101
HS146
HS145
HS161
HS167
HS178
HS122
HS144
HS181
HS133
HS197
HS160
HS121
HS134
HS191
HS211
HS230
HS224
HS128
HC203
HS212
GR430
HS199
HS175
HS110
HS108
HS142
HS180
HS18S
HS179
HS1Q9
HS186
EN201
HS102
HS162
HS216
HS103
HS213
HS2U
HS120
EN202
M5140
CY302
— ' •• -"HS215
FN20S
H'S130
EN208
CC201
FN203
AC101
RM101
FN206
GR101
HS210
B-37
9o.oo MINIMUM; 100 MAXIMUM
9s. 00
95.00
10Q.OO
100.00
106.00
lOs.oo
116.00
iis.oo
i?o.oo
130.00
130.00
13P.OO
137.00
139.00
146.00
140.00
14Q.OO
141.00
145.00
156.00
iso.oo MINIMUM; iso MAXIMUM
15?. 00
155.00 TABLETS
J60. 00
160.00
160.00
160.00
166.00
165.00
16^.00
165.00
16fe,00
168.00
17s. 00
180.00 MIN. 200 MAX.
Tao.oo
180.00
181.00
184.00
18ft. 00
194.00
19s. 00 FOR 6% VOLATILE MATERIAL
?Oo.OO
20Q.OO
200.00
?OQ.OO
?oo.oo
20Q.OO
200.00
205.00 FOR 6% VOLATILE MATERIAL
210.00
210.00 MlNt 240. MAX
210.00
21?. 00
-------�
B-38
HS219
-NL1T1"
HS105
CY501
EN204
"HC20R
HS209
~HS'l'3"i"
HS234
"CY702
HS171
CY701
_NL107
NL.T06"
wLioa
"NLIIO
GR431
HS104
NL105
?40
?4Q
?55
.00
.00
.00
.00
.00
.00
.00
,00
.00
.00
.00
.00
.00
FOR 6% VOLATILE MATERIAL
_..
27 0
?7p
27
NL103
DG206
HC209
NL113
bG'11'2
QG2Q1
?77
_28Q
28 p
300
.00
.00
.00
.00
.00
,J)p
.00
,00
.00
.00
.00
TABLETS
MINIMUM! 315 MAXIMUM
CY104
DG123
0"G20"4"
DG209
___
33o.
33 0»
34 o.
340.
35o.
356.
.
00
00
00
00
00"
00
VIL109
350.
36 0.
AC104
D"G213
DG211
"406.
400.
NC101
CY101
OG212
UC306
CT105"
UC30?
"UC304
DG210
44Q.
45 p •
"45p.
506.
500.
500
UC305
500.
"500.
UC307
NL101
OG127
UC501
UC402
__
50 p.
506.
52 0.
55p.
556.
550»
-57s.
00
00
00
00
00
00
00"
00
00"
00
00
00
00"
00
00
00
00
00
00"
00
00
00
00
00
00
PELLET
MINI MUM $ 600 MAXTMUM
MINIMUM; 65o MAXIMUM
-------�
B-39
DG105
DGZ08
DG205
DG125
DG116
DG115
OG10K
OG103
DG106
DG102
DG107
DG101
OG10Q
DG110
OG111
OG104
DG114
GR439
DG203
GR202
t> OQ.OO
ftOQ.OO
ftOQ.OO
60o«00
70o«00
700*00
750.00
750.00
75Q.OO
800.00
BOo.OO
BOo.OO
ROo.OO
800*00
POQ.OO
ROO.OO
ROO.OO
800.00
800.00
-------�
B-40
TABLE R-10. BULK DENSTTY(LBS. PER Cil. FT)
CODE OFNSI
EP101
OG206
OG112
DG211
CY102
CA301
CA303
CA30?
DG123
DG209
DG113
CA104
NL102
GK434
NL101
OG110
GR433
CY101
DG204
CY103
CY105
DG20S
HS171
HS137
HS135
HS151
HS165
DG127
NL104
HS136
NL103
NCI 01
NL 1 1 3
CY201
HS105
OG201
CY701
CY702
NL106
CY104
NL105
HS104
i DG124
CY501
MM 1 0 1
MN102
DP 1 0 1
GR202
HS13?
CY30?
TY"
23
24
24
24
24
25
25
25
25
25
25
25
26
26
26
26
26
27
27
27
27
28
30
30
30
30
30
31
31
31
31
32
32
32
32
32
33
33
33
33
33
33
33
34
34
34
34
34
34
35
COMMENTS
DRYtLOOSE
MINIMUM* 30 MAX,
EXTRUSIONS»40 SPHERES
FOR EXTRUSIONS? 48. FOR SPHERE
FOR EXTRUSIONS; 40. FOR SPHERE
MINIMUM* 68. MAXIMUM
MINIMUM. 35 MAXIMUM
PELLET
PACKED
PACKED
MINt 51 MAX.
MIN» 51 MAX.
L8./CU.FT, FOR 1/8 IN, CELLS
-------�
c
c
OP102
...... _ cwii
NL109
CY601
IIC302
0^125
HS203
HS205
HS158
HS189
DG212
ML 107
HC209
DW213
CC328
HS199
CA304
UC307
IJC306
UC304
IJC303
UC305
OG202
HS153
HS156
UC202
OC3210
HS103
DG304
DG203
CC330
HS101
UC402
OG303
DG30?
UC301
DG111
NL108
NL110
HS186
OG102
OG107
HS232
DG108
D6103
UC201
IIC102
OG109
7 IJC204
ntiii?
6 OtilOB
DG104
OG114
OGlOft
OG301
OG116
B-41
35 LB./CU.FT. FOR 1/R IN. CELLS
35 POURED
35
36
37
37
37
37
38
38
39
39
39
39
40
40
40
40
40
40
40
40
41
4]
41
42 1/16 AND 1/6 INCH PELLETS
42
42 PACKED
43 SPHERES ¥ 30 L8S. PQWQER
43
44
44 TO 58 (DEPENDING ON SIZE)
44
44 SPHERES ; 30 LRS, POWDER
44 SPHERES » 30 LRS. POWDER
44
44
45
45
45
45
45
45
45
45
45
45
46
46 1/16 INCH PELLETS
46
46
46
46
46
46 SPHERES I32LBS. POWDER
-------�
B-42
(
(
(
(
OG115
06101
UC501
UC203
DG121
GR440
HS102
KC101
HC205
DG120
DG11Q
DG122
CA305
CC329
CC322
DG118
CA201
HS212
CC312
DG305
EN101
HC203
NL111
OG205
HS211
RMlQl
HS117
HS190
CC313
GR401
HS234
CC323
HS191
CC333
HS160
AC104
HS204
HC202
HC20B
HS175
HS12R
EN208
HS149
HS121
CC33?
AC101
HS214
HS129
EN20ft
H5127
EN204
GR101
HS147
EN205
HS21S
AC303
46
46
46
47 1/8 INCH PELLETS
47
47
47 TO 55 (DEPENDING ON SIZE)
47
47
47
48
48
48
48
48
48
49 EXTRUSION, 56. TABLET
49
49
49
49
49 MINIMUM! 80 MAXIMUM
50
50
50
50 MIN» 55. MAX
51 PACKEO
51
51
52
52
52
52
52
53
53
53
53 PACKED!
53
53
54
54
54
54 PACKEO
54
55
55
55
55
55
55 FOR 6% VOLATILE MATERIAL
55
55
55
55
-------�
B-43
FN203
UClOl
EN201
HC204
H5161
AC 103
FN20?
HS145
GR421
AGIO?
HS222
HS218
HS210
EN207
HS141
CA102
HS112
HS163
CA103
HS131
CC331
HC201
GK430
CC101
HS13R
HS120
HS140
HS108
HS162
CC326
GR431
HS122
HS130
CC325
HS219
HS173
HS202
HS166
HS111
HS224
CC324
HS10Q
HS213
CC320
G«^07
DG126
G«^06
H517B
CC201
CC31Q
6 CC301
cC3^ . _..
5 GK422
"~" " " " "" " "HS107
CC317
HS143
55 FOR fi% VOLATILE MATERIAL
55
56
56
56
57
57 FOR 6% VOLATILE MATERIAL
58
58
58
59
59
59
59
60
60
60 PACKED
60
60
60
60
60 MIN. 69 MAX.
60 TABLETS
60
60
60 PACKED
60
60 PACKED
60
60
60 TABLETS
60 PACKED
60
61
61
61
62
62
62 PACKED
63
63
64 PACKED
64
64
65
65
65
65
66 TAPPEDt 54 LOOSE
66
66
67
67
67 PACKED
67
-------�
B-44
C
C
HS142
HS187
HS167
CC308
HS230
HS174
HS195
CC315
HS110
" HS216
CC316
HS11H
HS179
HS134
CC314
HS133
HS146
HS154
HS144
HS115
CC339
GRM3
CC340
HS194
CC342
CC311
HS114
H5231
GR438
HS228
HS106
HS19?
GR425
HSllft
CC321
CC337
HS139
HS182
CC309
HS200
MS193
GR420
GR4Q5
HS126
MS 123
CA105
HS197
CC338
CC307
HS?01
HS220
CC310
o HS1BH
HS221
MS 157
CC304
67
68
68
68
68
68
68
69
69 PACKED
70
70
70 PACKED
70
70
71
71
72
73
73
74 PACKED
74
75
75
75
75
75
75 PACKED
75
75
75
75 PACKED
75
75
75 PACKED
76
76
77
77
78
78
79
80
80
80
80 PACKED
80
80
80
81
82
82
82
83
83
83
-------�
HS184
CC34]
HS159
HS176
AC30?
HS198
CC302
HS119
CC303
HS217
HS180
HS181
CC327
CC306
CC305
CC334
HS229
CC335
HS185
HS150
H5177
HS164
HS113
HS223
HS124
HS152
HS233
CC336
AC301
HS206
HS14H
CA601
HS19ft
B-45
84
84
85
85
85
85
87
87 PACKER
87
87
90
90
90
95
96
96
97
98
100
101
104 DEPENDS ON SIZE (94-104 1FT3)
105
105 PACKED
108
112 PACKED
113
116
121
130
135
135
135 REDUCED! 170 NON. REDUCED
-------�
B-46
TABLE B-ll. CRYSTALLINITY
"CODE CRYSTALLINITY
DG118
DG301
EP10P
UC201
UC203
IJC204
UC202
OG304
DG303
OG302
EP101
HC203
GR101
AMORPHOUS
CUBIC
DIATOMACFOUS STLTCA
POWOFR FORM-CUBIC
POWDFR FORM-CUBIC
POWOFR FORM-CUBIC
POWOFR FORM-OCTAHEDRAL
BCC (DjAMOND STRUCTURE)
CUBIC
CUBIC
DIATOMACEOUS SILICA
GAMMA ALUMINA
-------�
B-47
IE S I!EUNGSTROMS )
CODE SIZE ..... COMMENTS
-------�
B-48
TABLE JjMJL• 16NLTJPN. LCISS._(_PER_._CENt.l
CODE
HC204
EP101
EP10?
CY70J?
CY701
HC208
EN201
EN20R
HC201
EN101
DGH05
NL111
HC207
D6123
CY401
. 06105
OG204
06112
DG209
06101
06206
06108
OG103
DG104
OG106
06107
D6121
1)6120
06119
06203
DG10?
EN206
06114
EN202
FN204
KC101
AC104
OG109
06110
EN?03
EN207
AGIO]
06115
06111
06113
""06117
DG12?
00124
06116
06125
LOSS
.5
1.0
1.0
1.4
1.5
1.7
2.0
2.0
2.0
2.0
2tO
2.5
2.5
3.5
3.5
4.4
4.5
4.5
5.0
5.5
5.5
5.5
5,5
5.5
5.5
5.5
5.6
5.6
5.6
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6.0
6,0
6.0
6.0
6.0
6.5
6.5
6.5
6.5
6.5
6.5
6.5
6.5
8.0
COMMENTS
TO 2.0, 1400F
PER CENT ON IGNITION
1400F
AT 1800F
AT IfiOO F
UOOF
AT 1800F
AT 1200F
MAXIMUM
AT 1750 F
2300F
AT 1750 F
AT 1750 F
1750 OEG F
AT 1750 F
AT 1750 F
AT 1750 F
AT 1750 F
AT 1750 F
AT 1750 F
AT 1750 F
AT 1750 F
AT 1750 F
AT 1750 F
ALSO AVAILABLE AS 2% VOLATILE
A|_SO AVAILABLE AS 2% VOLATILE
AT 1750 F
AT 1750 F
ALSO AVAILABLE AS 2% VOLATILE
1100C
AT 1750 F
AT 1750. F
AT 1750 F
AT 1750 F
-------�
B-49
EN205
AC103
CV601
D6208
OG11«
OG210
DG127
CY201
AC303
AC102
CY104
NL10A
CY103
NL105
NL102
NL103
NL101
NL104
CY105
CY101
CY102
OG126
8.0
8 S
9)4 1470F
10. 0
10.0 AT 1750 F
12.0
12.0 AT 1750 F
12,0
12.1
12.4 1100C
12.5
13.0
13.0
13.0
13.0
13.0
13.0
13.0
16.0
16.0
18.0
-------�
B-50
TABLE a-14. PARTICLE DENSITYJLB. PER cu. FT.
CODE
HC209
CC328
CC337
CC341
CC340
CC338
CC312
CC339
CC313
CC33?
CC330
HC203
CC342
CC33]
CC333
CC32Q
CC32S
CC326
CC31P
CC324
CC31R
CC320
CC32?
CC315
CC30R
CC317
CC3U
CC323
CC303
CC3U
CC321
CC316
CC310
CC307
CC301
CC309
CC304
CC302
DG118
CC327
AUO?
CC306
7 CC305
CC335
CC334
CC336
HFNsITY COMMENTS
6?
64
67
70
71
73
74
75
78
79
79
79
80
85
89
90
94
101
102
102
103
104
104
113
115
116
117
118
125
125
1?6
126
127
128
130
131
136
136
137
138
143
147
153
155
174
-------�
B-51
TABLE B-15. MAXIMUM SERVICE TEMPERATURE (F)
CODE
TEMP,
COMMENTS
c
CA304
CA301
CA303
G«421
GR«22
AC101
GR420
r,R202
GR405
CA30?
CA305
CA105
CY302
CA401
GR301
CA306
GR425
CA104
CA201
GR407
GR413
GH*11
GR^04
CA601
CY70?
UC501
CY701
CA103
GR438
AC104
UA103
MCI 01
GR406
GR402
GR436
GR403
CA701
CA102
DP102
GR101
CA702
OP101
200
250
300
350
350
350 REACTIVATION TEMP
350
350
375
450
600
600
700
750
750 MAXIMUM
750
750
750
800
825
840
850
890
950
1000
1000 MAXIMUM
1000
1100
1200
1250
1450
1500 MAXIMUM
1500
1850
1850
2200
2300
2400
?460 IN AIR
2500 SHORT TERMtMAXIMlIM
2600
-------�
B-52
TABLE H-16. ATTRITION (PER CENT)
CODE ATTRITION" COMMENTS
c
MN101
ENlOl"
CC324
CC335
CC305
CC311
CC326
CC320
CC310
CC316
MN103
CC315
CC321
CC304
CC302
CC332
CC325
CC307
CC308
CC336
CC309
CC317
CC327
CC314
CC331
CC313
CC322
CC318
CC303
CC306
CC301
CC330
CY104
CC334
CY201
7 CC32H
CY103
c NL108
= NL110
~ " NL107
4 NL109
-6.00
-o.oo
.02
.10
!so
,60
,80
.80
1.00
1.20
2.00
2.00
1.00
3.00
3.00
3.00
3.00
3.00
3.00
3.00
5.00
5.00
5.00
5.00
5*00
5*00
7.00
8.00
8.00
9.00
9.00
12.00
13-00
U.oo
16.00
9j .00
91,00
92*00
HIGHLY RESISTANT TO DISINTEGR,
RESISTANT
EXCELLENT RESISTANCE
LOW ATTRITION LOSS
PER CENT, 1 HOUR
PER CENT, 1 HOUR
PER CENT, 1 HOUR
AFTER TUMBLING FOR ONE HOUR
AFTER TUMBLING FOR ONE HOUR
AFTER TUMBLING FOR ONE HOUR
AFTER TUMBLING FOR ONE HOUR
-------�
APPENDIX C
-------�
TABLE C-
CODE
AC301
HS116
HS106
HS1U
HS124
WS164
CC34]
CC338
HS228
AC302
I CC337
HS181
HS229
( HS223
HS188
RM101
C GR431
HS185
HS115
C HS233
CC201
CC34?
C CC339
H5119
HS118
( HS217
HS231 .
EN101
( HS144
HS159
HS163
i HS230
HS202
GR101
' HS101
HS122
H5107
GH430
HS112
DG205
CC340
7 MS166
HS111
o HS187
HS143
HS219
HS17B
C-l
1. PORE VOLUME
PORE
VOLUME
.015
.060
.070
.070,
.120
.140
.140
.140
.140
.175
.180
.180
.180
.190
.200
.200
.200
.200
.200
.210
.210
.220
.230
.230
.230
.250
.250
.250
.260
.260
.260
.280
.280
.280
.280
.280
.290
.290
.290
.300
.300
.310
.310
.320
.330
.340
.340
.340
.350
VSt PORE SI7E
PORE
SIZE
0
a
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
40
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
20
0
0
0
0
0
0
143
0
-------�
C-2
_HS141 _____ ,J5p_ ___ __ __ Q
HS133 .350 0
HS135 .360 _0
HS224 .360 0
_HS175 __ __.360 ___ _ Q
HS161 .360 0
36 0
___
HS209 ~~ .370 0
HS222 i37Q_ _ __ Q
HS2U .380 6
. HS146 ...... __ ,380 _____________________ 0
HS137 .380 0
HS1..3 9 ____ ,_3 M_ _____ 0_
l ,3RQ 0
1 _ ,380 __ _ ___0_
HS136 .380 0
)G10S _ .380 _____ 0
HS210 .390 0
06 LQ 3 ____ ^.4 0_0 ____ Q
OG115 .400 0
D«106 .400 0_
HS197 .400 6
H.S110. .400 0_
I DG116 .400 0
HS216 ..4JLQ Q
HS10R .400 0
( HS215 ,400 0
HS134 .400 " 0"
HS173 ,j4J) 0 Q_
( HS109 .400 0
MS 14 0 .400 0
HS120 .410 0
( : HS102 .420 Q_
HS160 .420 0
OGlll .430 Q
( OG108 .430 0
OG109 .430 0
o .430
0®A02 «i3.P__ 0_
06107 .430 " 0
DGlOl .430 0
DG104 .430 0
HSI^T._ ,4 so p_
OG203 .450 22
OG114 .450 0
HS117 " .460 " '" "" "6"
ML107 .460 0
HS149 "" "".470" " 0
_H S 2 3_4 _____,_4 8 0 0_
HS211 .480 0
HS167 .490 0
HS145 .500 """ 0
NL109 • .500 0
HS190 .500 0
_HS130 ._500 0_
-------�
C-3
HS13H
KC101
NL108
HS186
HS213
CY701
HS212
CY70?
HS147
" " ~" ~NL105
HS103
CY104
CY302
ML 106
CY201
06201
MS16S
NL113
NL104
06210
NL103
G«439
G«202
HS199
HS154
OG213
D6125
CY105
CY101
06127
DG212
HS151
HS156
HS105
NL102
NL101
CY102
CY103
HS104
HS153
HS171
06211
OG20H
06204
HSlBfl
06113
06123
06112
7 06206
0^209
.510
.510
.510
.530
.530
.540
,540
.540
.550
.550
.560
.570
*600
.600
.600
.600
.610
.630
.650
.650
,650
.670
.670
.690
.690
.700
.700
.720
.720
.750
.750
,760
,760
.770
,800
.800
.840
,890
.910
,920
.970
1,000
r.ooo
1.040
1.130
1.150
1.150
1.150
1.200
1.700
0
50
75
0
0
0
0
0
0
82
0
0
0
90
0
0
0
0
95
0
95
0
0
0
0
70
0
0
0
0
60
0
0
0
80
70
0
0
0
0
0
0
67
120
0
0
0
0
168
-------�
C-4
TABLF c-2. SURFACE AREA vs. POPE STZE
C
C
CODE
AC301
CC301
HC204
CC334
CC309
CC307
CC30R
CC329
CC315
CC336
CC323
CC321
CC305
CC322
CC317
CC304
CC306
CC33?
CC318
CC303
CC319
CC312
CC330
CC311
CC320
CC335
CC331
CC338
CC324
CC328
AC302
CC341
CC313
CC333
CC327
HS123
7 HS220
HSZ21
HS193
_.. __ .... . ._ HS195
s HS136
_. ~HS114
HS153
H5201
AREA
.04
.OR
.08
.09
.11
.14
.15
.16
.17
.19
.19
.20
.21
.23
.27
'.11
.30
.31
.31
.34
.34
.38
!50
.55
,58
.64
!87
1.00
1.00
1.00
1.00
1.00
1.00
1.00
1.00
1.00
SIZE
0
0
440000
260000
580000
390000
330000
240000
200000
120000
130000
370000
250000
390000
170000
500000
300000
60000
120000
150000
110000
120000
250000
210000
300000
130000
160000
60000
110000
0
70000
50000
0
0
150000
0
25000
20000
12000
0
0
0
0
0
0
0
0
-------�
C-5
HS116
HS19?
HS135
HS200
HS194
CC342
CC339
CC101
HS203
HS165
HS190
CC340
HS159
CC326
HS137
HS106
HS22R
HS164
HS154
XY101
HS124
HS147
HS149
HS223
HS117
HS115
HS158
HS156
HS166
HS111
HC201
HS231
HS151
HS139
HS233
HS119
HS229
HS107
HS163
HS13R
HS112
HS141
HS187
HS173
HS18B
HS143
HS11R
HS217
7 HS22?
HS202
HS21R
HC207
s HS101
HC205
DG20?
EN101
I. 00
1.00
\.oo
1.00
] .00
1.40
2.30
?.60
J3.00
4*00
4.00
4.69
•5.00
5.64
6.00.
6.80
7.00
R.OO
lo.oo
10.00
li.oo
13.00
15.00
17.00
19.00
21.00
35.00^
37.00
4J.OO
45.00
45.00
46*00
47.00
49.00
50.00
5?. 00
56.00
59.00
59.00
60.00
66.00
63.00
64*00
64,00
65.00
67.00
ftg.OO
7o.OO
7^.00
78.00
78.00
8o.OO
RO.OO
9Q.OO
95.00
95.00
0
0
0
0
0
0
0
4000
0
0
0
0
0
300
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
143
-------�
c
HS146
HS145
HS161
HS167
HS17R
HS122
HS144
HS181
HS133
HS19?
HS160
HS121
HS134
HS191
HS211
HS230
HS224
HS12B
HC203
HS212
GR430
HS199
HS175
HSllQ
HS10R
HS14?
HS180
HS185
HS179
HS10Q
HS186
EN201
HS102
HS162
HS216
HS103
HS213
H5214
HS120
EN202
HS140
• - - - - CY302
HS215
ENZ05
HS130
EN20R
CC20]
EN203
7 AC101
prtlOl
c E^206
GR101
5 HS210
HS219
NLlll
H5105
C-6
lOQtOO
lOo.OO
foo.oo
105.00
iio»oo
HB.OO
12Q.OO
130.00
13Q.OO
13?. 00
137.00
13Q.OO
14Q.OO
140.00
J.46.00
141.00
145.00
150.00
150.00
15?, 00
155.00
160.00
1^0.00
160.00
160.00
160,00
16S.OO
165.00
165.00
166*00
168.00
J75.00
180.00
180.00
186.00
181.00
184.00
186.00
194,00
195.00
20Q.OO
200.00
20Q.OO
20o.OO
20Q.OO
200.00
?Oo.OO
205.00
210.00
210*00
?io.oo
212.00
• 212.00
214.00
215.00
218.00
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
40
0
0
0
0
0
0
0
0
-------�
C-7
CY501
EN204
HC200
HS209
HS131
HS234
CY702
HS171
CY701
NL107
ML 106
NL108
NL110
GR431
HS104
NL105
ML103
06206
HC209
ML 1 1 3
06112
06201
HC202
CY104
06113
06123
06204
06209
NL104
ML109
KC101
AC104
06213
06211
ML102
NC101
CY102
CY101
D6212
UC306
CY105
UC302
UC304
D6210
UC303
OC305
UC301
UC307
7 ML 1 0 1
06127
UC501
UC40?
CY201
06105
062 Ofl
06205
?2o.OO
22Q.OO
?27«00
?28«00
240.00
240.00
P55.00
?58«00
?58»00
260.00
?7Q.OO
270.00
?7o.OO
274.00
277.00
?8o.OO
280.00
285.00
290.00
30Q.OO
30Q.OO
32^.00
336.00
330.00
3^0.00
34Q.OO
350.00
350.00
35Q.OO
36Q.OO
380.00
390.00
40o*00
400.00
44Q.OO
450.00
450.00
50n.OO
500.00
500.00
50Q.OO
500.00
500.00
500*00
500.00
50Q.OO
500.00
50Q.OO
520.00
550*00
550.00
550.00
• 57s« 00
60Q.OO
60Q.OO
600*00
0
0
0
0
0
0
0
0
0
0
90
75
75
0
0
82
95
168
82
0
0
0
0
0
0
0
120
200
95
0
50
0
70
0
80
9
0
0
60
0
0
0
0
0
0
0
0
0
70
0
0
0
0
0
67
-------�
C-8
DG125
OG116
DG115
DG108
OG103
DG106
DG102
DG107
DG101
DG109
OG111
DG114
GR439
DG203
GR202
*o6.oo
70Q.OO
700.00
750.00
75Q.OO
750.00
80Q.OO
80Q.OO
800*00
80Q.OO
800.00
800.00
80Q.OO
800.00
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
22
0
c
-------�
C-9
CODE ~ AREA" TEMPERATURE
AC301
CC301
HC204
CC334
CC309
CC307
CC308
CC314
CC329
CC315
CC302
CC336
CC323
CC321
CC305
CC322
CC316
CC317
CC310
CC304
CC306
CC332
CC31R
CC303
CC319
CC312
CC330
CC311
CC320
CC335
CC331
CC338
CC324
CC328
AC302
CC341
CC313
CC337
CC333
CC325
CC327
HS123
HS220
HS221
HS193
HS195
o HS136
" ~ HS114
HS153
HS201
.04
.08
.OB
.09
• 0.9
.11
.11
.14
.14
.15
.16
.16
.16
.17
.19
.19
.19
,20
.20
,21
.22
.23
.25
,27
.27
.29
,30
.30
.31
.31
.34
.34
.38
.45
.50
.55
.57
.58
.64
,74
.87
1.00
1,00
1.00
1 . 0 0
1.00
1,00
1.00
1.00
1,00
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
-------�
C-10
HS116
H519?
HS135
HS200
HS194
CC34?
CC339
CC101
HS203
HS165
HS190
CC340
HS159
CC326
HS137
HS106
HS22H
HS164
HS154
XY101
HS124
HS147
HS149
HS223
HS117
HS115
HS15R
HS156
HS166
HS111
HC201
HS231
HS151
HS139
HS233
HS11Q
HS22Q
HS107
HS163
HS13R
HS112
HS141
HS187
HS173
HS18R
H$143
HS11R
HS217
HS222
H520?
HS21R
HC207
5 HS101
------ -- HC205
06202
EN101
1.00
1.00
1.00
1.00
1 .00
1.40
?.30
2.60
3.00
4*00
4*00
4.69
5.00
5.64
6*00
6.RO
7.00
8.00
lo.oo
lo.oo
1] .00
13.00
15.00
17.00
19.00
2i .00
35.00
37.00
4T.OO
45.00
45,00
4ft. 00
47.00
49.00
50.00
5?. 00
56.00
59.00
59.00
6o.OO
60.00
63.00
64.00
64*00
65.00
67.00
69.00
70-00
78.00
7R.OO
80. 00
80.00
9o.OO
95.00
95.00
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
-------�
HS146
HS145
HS161
HS167
HS17*
HS122
HS144
HSlfll
HS133
HS197
HS160
HS121
HS134
HS191
HS21.1
HS230
HS2?4
HS128
HC203
HS212
GR430
HS199
HS175
HS110
HS10R
HS142
HS180
HS185
HS179
HS109
HS186
EN201
HS102
H5162
HS216
HS103
HS213
HS214
HS120
EN202
HS140
CY302
HS215
EN205
HS130
EN208
CC201
EN203
AC101
RM101
EN206
GR101
HS210
HS21Q
NL111
HS105
C-ll
10Q.OO
100.00
100.00
105.00
110.00
iis.oo
120.00
130.00
130.00
132.00
137.00
139.00
140.00
Uo.OO
14Q.OO
141,00
145.00
150.00
150.00
152.00
155,00
160,00
16Q.OO
160.00
160.00
160.00
165.00
165,00
165,00
166.00
16ft. 00
175.00
18Q.OO
180.00
18Q.OO
181,00
184.00
I8f,,00
194.00
195,00
20o.OO
?0o,00
206.00
?OQ.OO
20Q.OO
200.00
200.00
205,00
210.00
210.00
210.00
21?. 00
• 212.00
2U.OO
21_5,00
218.00
0
0
0 .
0
0
0
0
0
0
0
_ 0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
700
0
0
0
0
0
0
350
0
0
2500
0
0
0
-------�
C-12
CY501 226.00 0_
~£N?04~ "?2~6VOO ~ 0
HC20R 227.00 0
HS209 228.00 " 0
HS131 ?4Q.OO 0
HS234 " 240.00~ " "" ~ 0
CY702 255,00 1_OJ?P_
HS171 258.00 "" 0
C.Y7P1 _25.B.OO __ _ 1000
NL107 260.00 0
_Nll06 27Q.OP 0_
NL108 270.00 0
NL_1J 0 2 7 Q . p_Q_ 0_
6*431 274.00 0
HS104 277.00 Q_
NL105 ?8Q.OO 0
_NL103 280.00 Q
DG206 285.00 6
HC209 29Q..OQ p_
NL113 30Q.OO 0
QG112 300.00 0
"OG'20'l" " 325.00 ' " "6"
_HC202 33Q.OO 0
CY104 330.00 0
_DG l^l^ 3AO_«0 Q 0
DG123 346.00 0
DG204 35Q.OO 0
DG209" 350,00 """ 0^
_N|-104 35Q.OO OL
NL109 36Q.OO 0
_K^1 01__ 38 6 ._0_Q 0_
AC104 39Q.OO 1250
JpG 213 4 0 0 • 0 0 Q_
DG211 "." 40o,00 " 6
NIL 102 440,00 0_
"NlClOl 450,00"" 1500
CY102 450,00 0
CY101 50Q.OO 0
DG212 __50g,00 p._
"DC306 506.00 ~ " 6
CY105 500.00 Q
UC302 500.00 0
UC304 506.00 0
50Q.OO 0
UC303 50Q.OO _ ^0
'OC305 " "" "50Q.OO" 0
1IC301 500.00 0_
yC307 506.00 0
NL 1 01 52 0.0 0 0_
~OGT2"7 5 5 oT 00 0
UC501 550.00 _ 1000
UC402 550.00 6
CY201 . 575.00 __0
DG105 f.OQ.00 0
_nG20R ^Oo«0p 0_
-------�
C-13
DG125
OG116
DG115
OG108
OG103
DG106
DG102
DG107
DG101
OG109
OG110
DG111
DG104
DG114
G&439
DG203
G«20?
A0o»00
70Q.OO
70Q.OO
75Q.OO
75Q.OO
750. -00
aOo.OO
ROQ.OO
80Q.OO
QOQ.OO
QOQ.OO
fiOo.OO
_5lPO%00
SOfl.OO
ftOQ.OO
flOo.OO
._-85ntOO_
0
0
0
0
.0
0
0
0
0
0
0
0
0
0
0
0
-------�
C-14
ABLF: -4 .
S1J Y_V S±_PART_I Ci..F_pE N si T Y
CODE
EP101
OG206
06112
06311
CY102
CA301
CA303
CA302
OG123
DG209
D6113
CA104
NL102
GR434
NL101
OG110
GH433
CY101
OG204
CY103
CY105
DG208
HS171
HS137
H5135
HS151
HS165
DG127
NL104
HS136
NL103
NC101
NL113
CYH01
HS10S
OGH01
CY701
CY70?
NL106
CY104
NL105
; HS104
DG124
CY50]
MN101
MN10?
OP101
GR20?
HS132
BULK PARTI
DELNSITY DENS I
23
24
24
24
24
?5
25
25
25
?5
25
25
26
26
26
26
26
27
27
27
27
2R
30
30
30
30
30
31
31
31
31
32
32
32
32
32
33
33
33
33
33
33
33
34
34
34
34
34
34
CUE
TY
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
-------�
C-15
CY30?
DP102
CY401
NL109
CY601
UC302
OG125
HS203
HS205
HS15H
HSlflq
OG212
NL107
HC209
DG213
CC32R
HS199
CA304
UC307
IJC306
UC304
UC303
UC305
OG202
HS153
HS156
UC202
DG210
HS103
DG304
OG203
CC330
HS101
UC40? .
DG303
DG302
UC301
DG111
Nt-lOR
NL110
HS186
OG102
nGio?
H5232
OG1Q8
DG103
UC201
UC102
DG109
Ut204
o OG117
' ~ •" ' " OG105"
DG104
DG114
OG106
DCJ301
35
35
35
35
36
37
37
37
37
3*
38
39
39
39
39
40
40
40
40
40
40
40
40
41
41
41
4?
42
42
43
43
44
44
44
44
44
44
44
45
45
45
45
45
45
45
45
45
45
46
46
46
46
46
46
46
46
0
0
0
0
0
6
0
0
0
0
0
0
0
62
0
64
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
79
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
-------�
C-16
QG116
OG115
DG101
UC501
UC203
OG121
GW44Q
HS10?
KC101
HC205
DG120
DG119
0612?
CA305
CC329
CC322
DGlla
CA201
HS212
CC312
OG305
FN101
HC203
NL111
DG205
HS211
RM101
HS117
HS190
CC313
GR401
HS234
CC323
HS191
CC333
HS160
AC 104
HS204
HC202
HC208
HS175
HS128
EN208
HS149
HS12)
CC33?
AC101
H5214
HS129
EN206
HS127
EN204
GH101
HS147
EN205
HS215
46
46
46
46
47
47
47
47
47
47
47
48
48
48
48
48
48
49
49
49
49
49
49
50
50
50
50
51
51
51
52
52
52
52
52
53
53
53
53
53
53
54
54
54
54
54
55
55
55
55
55
55
55
55
55
55
0
0
0
0
0
0
0
0
0
0
0
0
0
0
90
104
137
0
0
74
0
0
79
0
0
0
0
0
0
78
0
0
118
0
89
0
0
0
0
0
0
0
0
0
0
79
0
0
0
0
0
0
0
0
0
-------�
C-17
AC303
EN203
ucini
EN201
HC204
HS161
AC103
EN202
HS145
G«421
AGIO?
HS222
HS218
HS210
EN207
HS141
CA102
HS112
HS163
CA103
HS131
CC331
HC201
GR430
ccioi
HS138
HS120
HS140
HS108
HS162
CC326
GR431
HS122
HS130
CC325
" ~ HS219 •
HS173
HS202
HS166
HS111
HS224
CC324
HS10P
HS213
CC320
6«*07
06 126
GR406
HS17H
CC201
CC31Q
- - ' CC301
s CC318
GR423
4 HS107
CC317
55
55
55
56
56
56
57
57
58
58
58
59
59
59
59
60
60
60
60
60
60
60
60
60
60
60
60
60
60
60
60
60
60
60
61
61
61
62
62
62
63
63
64
64
64
65
65
65
65
66
66
66
67
67
67
67
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0,
0
0
0
0
0
85
0
0
0
0
0
0
0
0
101
0
0
0
94
0
0
0
0
0
0
102
0
0
104
0
0
0
0
0
102
130
103
0
0
-------�
C-18
HSU 3 67 0
HS~U2~~ " 67 6
HS187 68 __Q
MS 167 68 - ^
CC30R _68 _____ U5
HS230 68 0
JHS_174. __&8 O
HS195 68 0
CC315 69 113
HSllO 69 0
_HS216 70 .Q
CC316 70 126
70 o_
HS179 70 0
HS134 _ _ 70_ _ _ _ _0
CC314 " 71 ~ 117
HS133 71 _0_
HS146 72 0
JHS1J54 73 Q_
HS144 " 73 6
HS115 74 ._ _ 0
CC339 74 75
G.R4.13 15 0_
CC340 75 71
_H S1.94 75 0_
CC342 75 80
CC3_11__ 75_ 125
HS114 75 0
_H S_2 31 75 0_
GR438 75 0
75 0
HS106 75 0
( __ HS192 75 _Q
GR425" ." ~75 6"
HS116 75_ 0
( "" CC321 76 126
CC337 76 6_7
HS139 77 0"
( H S18 ? 71 0
CC309 ~" " 78 " 131
JH5200 _ 78_ 0
. ~ "" HS193 79 "0
__J5R4?!' BO 0_
G«4"b"5" 80 0
_HS126 ___80 Q
HS123 " "80 " 6"
__ CA105 _ 80 Q_
H5197" " " 80"" " "0
j CC338_ 80 73
CC307 " " 81 ~ 128
«_ _ HS201 82 0
HS220 82 0
3 CC310 • 8? 127
HS188 83 -•-•-• Q
_; HS221 83 0
-------�
C-19
c
(.
(
(
(
CC304
HS184
CC341
" " HS159
HS176
AC302
HS198
CC30?
HS11P
CC303
HS217
" ~ " " HS18(T "
HS181
CC327
CC306
CC30S
CC334
HS22Q
CC335
HS185
HS150
HS177
HS16A
HS113
HS223
HS124
HS152
HS233
CC336
AC301
HS206
HS148
CAbOl
HS196
84
84
84
~85
85
85
85
87
87
87
87
90
90
90
95
96
96
97
98
100
101
104
105
105
108
112
113
116
121
130
135
135
135
137
136
0
70
0
0
0
0
136
0
125
0
6
0
138
147
153
174
0
155
0
0
0
0
0
0
0
0
0
193
0
0
0
0
-------�
C-20
TABLE C-5. BuLK DENSITY VS ATTRITION
CODE
EP101
OG206
DG112
oG2ii
CYIO?
CA301
CA303
CA302
DG123
OG209
OG113
CA104
NL10P
GR434
NL101
DG110
GR433
CY101
DG204
CY103
CY105
DG20R
HS171
HS137
HS135
HS151
HS165
OG127
NL104
HS136
NL103
NC101
NL113
CY201
H5105
DG201
CY701
CY702
NL106
CY104
NL105
7 HS104
DG124
CY501
MN101
5 MN10?
OP101
GR20?
HS132
RULK
DENSITY
23
24
24
. 24
24
25
25
25
25
25
25
25
26
26
26
26
26
27
27
27
27
28
30
30
30
30
30
31
31
31
31
32
32
32
32
32
33
33
33
33
33
33
33
34
34
34 .
34
34
34
ATTRITION
-
0*00
0*00
0*00
o.oo
0*00
0.00
o.oo
0.00
0.00
o.oo
0.00
0.00
0.00
o.oo
0.00
0.00
0.00
o.oo
0.00
16.00
o.oo
0.00
0.00
0.00
o.oo
0.00
o.oo
o.oo
o.oo
o.oo
o.oo
0.00
o.oo
14.00
0.00
o.oo
0.00
0.00
0.00
12.00
0.00
0.00
0.00
0.00
-o.oo
-0.00
0.00
0.00
-------�
C-21
CY302
DP102
CY401
ML 109
CY601
UC302
DG125
HS203
HS205
HS158
MS189
OG212
NL107
HC209
DG213
CC328
HS199
CA304
UC307
UC306
UC304
UC303
UC305
DG202
HS153
HS156
UC202
OG210
HS103
DG304
OG203
CC330
HS101
UC402
OG303
DG302
UC301
DG111
NL108
NL110
HS186
DG102
OG107
HS232
DG108
OG103
IIC201
UC102
DG109
UC204
OG117
DG105
OG104
" " "" DG1U
DG106
DG301
35
35
35
35
36
37
37
37
37
38
38
39
39
39
39
40
40
40
40
40
40
40
40
41
41
41
42
42
42
43
43
44
44
44
44
44
44
44
45
45
45
45
45
45
45
45
45
45
46
46
46
46
46
46
46
46
0*00
0*00
OtOO
92.00
0*00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
92.00
0.00
0.00
16.00
0.00
0.00
0.00
o.oo
o.oo
0.00
0.00
o.oo
0.00
0.00
0.00
0.00
0.00
0.00
0.00
9.00
0.00
0.00
0.00
0.00
o.oo
o.oo
91.00
91.00
o.oo
o.oo
OtOO
0.00
0.00
0.00
0.00
0.00
0.00
o.oo
0.00
0.00
o.oo
0.00
0.00
-------�
C-22
DG116
D6115
DG101
UC501
UC203
DG121
GR440
HS102
KC101
HC205
DG120
DG119
OG122
CA305
CC329
CC322
DG118
CA201
HS212
CC312
06305
EN101
HC203
NL111
OG205
HS211
RM101
HS117
HS190
CC313
GR401
HS234
CC323
HS191
CC333
HS160
AC104
HS204
HC202
HC208
HS175
HS128
EN208
HS149
HS121
~ CC33? '
AC101
HS2U
HS129
EN206
HS127
EN204
GR101
HSU?
EN205
HS215
46
46
46
46
47
47
47
47
47
47
47
48
48
48
48
48
48
49
49
49
49
49
49
50
5_0
50
50
51
51
51
52
52
52
52
52
53
53
53
53
53
53
54
54
54
54
54
55
55
55
55
55
55
55
55
55
55
0*00
OtOO
0.00
0.00
0*00
0.00
0.00
0.00
_.20
0.00
o.oo
0.00
0.00
0.00
5.00
5.00
0.00
0.00
0.00
8,00
0.00
.02
0,00
91.00
0.00
0.00
0.00
0.00
0.00
5.00
0.00
0.00
5.00
0.00
9*00
0.00
o.oo
0.00
o.oo
0*00
o.oo
o.oo
0.00
0.00
0.00
2.00
0.00
o.oo
0.00
o.oo
0.00
o.oo
0.00
0.00
0.00
-------�
AC303
EN203
UC101
~ EN201
HC204
HS161
AC103
EN202
HSH5
GH421
AC102
HS222
HS218
HS210
EN207
HS141
CA102
HS112
HS163
CA103
HS131
CC331
HC201
GR430
ccioi
HS13H
HS120
HS140
HS10R
HS162
CC326
G«431
HS122
H5130
CC325
HS219
HS173
H5202
HS166
HS111
HSH24
CC324
HS109
H5213
CC320
GR407
DG126
GK406
HS17R
c^zoi
CC319
" CC301
CC318
G«42?
HS107
CC317
C-23
55
55
55
56
56
56
57
57
58
58
58
59
59
59
59
60
60
60
60
60
60
60
60
60
60
60
60
60
60
60
60
60
60
60
61
61
61
62
62
62
63
63
64
64
64
65
65
65
65
66
66
66
67
67
67
67
0.00
0.00
0.00
0*00
0.00
0.00
0.00
o.oo
0.00
0*00
0.00
0.00
o.oo
0.00
0.00
o.oo
o.oo
o.oo
0.00
o.oo
0.00
5.00
0.00
0.00
0.00
0.00
0.00
o.oo
o.oo
0.00
.70
0.00
o.oo
0.00
3.00
0.00
0.00
0.00
o.oo
0.00
o.oo
.10
0.00
0.00
.80
o.oo
0.00
o.oo
o.oo
o.oo
3.00
8.00
5.00
0.00
0.00
-------�
C-24
HS143
HSU?
HS187
HS167
CC308
HS230
HS174
HS195
CC315
HS110
HS216
CC316
HS118
HS179
HS134
CC314
H5133
HS146
HS154
HS144
HS115
CC339
GKM3
CC340
HS194
CC342
CC311
HS1U
HS231
GH438
HS228
HS106
HS19?
GR425
HS116
CC321
CC337
HS139
HS18?
CC309
HS200
HS193
GR420
GR40B
HS126
HS123
CA105
HS197
CC338
CC307
HS201
HS220
CC310
HS188
HS221
HS157
67
67
68
68
68
68
68
68
69
69
70
70
70
70
70
71
71
72
73
73
74
74
75
75
75
75
75
75
75
75
75
75
75
75
75
76
76
77
77
78
78
79
80
80
80
80
80
"80""
80
81
82
82
P2
83
83
83
0.00
0*00
0*00
0.00
3*00
0*00
0*00
0.00
1.20
0.00
0.00
1.00
0.00
0.00
0.00
3.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
.60
o.oo
o.oo
0*00
0*00
0*00
0*00
0*00
o.oo
2.00
0.00
0.00
o.oo
3.00
o.oo
o.oo
0.00
0.00
0.00
0.00
o.oo
0.00
0.00
3*00
0*00
0*00
• 80
0.00
o.oo
-------�
C-25
CC304
HS184
CC341
HS159
HS176
AC30?
HS198
CC302
HS119
~CC303
HSH17
HS180
HS181
CC327
CC306
CC30B
CC334
HS229
CC335
HS185
HS150
HS177
HS164
HS113
HSH23
HS124
HS152
HS233
CC336
AC30]
HS206
HSU8
CA601
HS196
84
84
84
85
85
85
85
87
87
87
87
90
90
90
95
96
96
97
98
100
101
104
105
105
108
112
113
116
121
130
135
135
135
137
2.00
0.00
0.00
0.00
0*00
0.00
0.00
2.00
o.oo
7.00
0.00
0.00
0.00
3.00
7.00
.50
. _ . 13.00 _. ... ..... .
0.00
.20
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
3.00
0.00
0.00
o.oo
0.00
-------�
C-26
TABLF: c-n. ATTRTTION vs HARDNESS
CODE
FN101
CC324
KC101
CC335
CC305
CC311
CC326
CC320
CC310
CC316
MN103
CC315
CC321
CC304
CC302
CC332
CC325
CC307
CC308
CC336
CC319
CC309
CC317
CC327
CC3U
CC331
CC323
CC313
CC32?
CC3bq
CC3/1B
CC303
CC306
CC301
CC312
CC330
CC333
CY104
CC334
CY201
CC328
CY103
7 NlLlOB
ML 11 1
NL110
ML 107
ML109
ATTRITION
.02
.10
.20
.20
.50
.60
.70
.80
.80
1.00
1.00
1.20
2.00
2.00
2.00
?.oo
3.00
3.00
3,00
3.00
3.00
1.00
3.00
3.00
3.00
5.00
5.00
5.00
5.00
5.00
5.00
7.00
7.00
8*00
R.OO
9.00
9.00
lp.00
13.00
U.on
16*00
16.00
9J.OO
91.00
9i.OO
9?. 00
92.00
HARDNESS
95
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
-------�
APPENDIX D
A COMPUTER LOGIC FOR
-------�
D-l
APPENDIX D
A COMPUTER LOGIC FOR CATALOGING, SORTING, AND TABULATION
A general-purpose data storage and retrieval program has been written
in Fortran IV language, specifically for Battelle's CDC 6400 computer system,
and capable of indefinite expansion up to the limits of any available computer
compatible with a Fortran IV system.
Information is punched into cards, one element per card. One element
of information consists of both numeric and alphanumeric parts. Each element
of information bears both a material code and a property code which uniquely
identify the element. Twenty properties are permitted for each material, as
given in Table 1. The computer stores the element of information in the infor-
mation array according to material and property codes. Whenever an updated or
corrected element of information is entered the program indicates the update by
printing the old information which is being replaced. This permits some control
over accidental and unintentional misidentification of new information.
Preparation of the input information is the time-limiting operation and
the operation during which a number of technical judgments are made. Once infor-
mation has been abstracted from printed material for a set of chosen substances,
the keypunching of computer cards proceeds quite rapidly. The Computer manip-
ulation of this input data is comparitively rapid. Any judgments based on
scanning the computer output may require some time and thought, but it appears
that the time-limiting operation is the preparation of the input data, during
which time the required technical judgments must be made by knowledgable
personnel.
A system of this type would seem to be best suited to situations in
which technical judgments can be set up and clearly specified in advance. Hence
the logical or judgmental structure must necessarily be rigid. This entire
system is flexible only to the extent that various comparisons can be made within
this fixed judgmental structure. Personnel must be trained to set up the data
input with sufficient internal checks and balances to insure that typographical
errors and mistakes are minimized. This requires that simple and standard
procedures be set up, and also suggests that flexibility is not one of the
hallmarks of such a system.
After all the input data have been read into the computer, the user may
arrange, manipulate, print, save, or calculate changes in numerica data, all
by the judicious use of the available program options. These options are
controlled by the user, and are called into operation by reading into the
computer the appropriate option command cards. These commands are performed one
at a time in the order that they appear in the command deck. These manipulation
operations are described briefly here. The program listing that follows this
-------�
D-2
Sorting
Since the information elements are stored in the data matrix in
the order that initial elements were encountered in the data deck, it was
necessary to provide some means for ordering the stored information. Three
sorting options have been provided.
SORTN XX causes the rearrangement of the entire data store in order
of increasing numeric value of property code XX.
SORTA XX causes the rearrangement of the entire data matrix in
increasing alphanumeric value of the alphanumeric field associated with
property code XX.
Numerical Calculations
The program provides four means of modifying numerical information
by calculation. Inversion (INVRT XX) calls for the reciprocal of the numeric
value of the property code XX. This will be done to all the values for all
materials. Inversion of zero produces a minus zero. The original numeric
values are not saved.
Numeric values may be multiplied by a constant (FACTR XX) which
is specified on the command card. All the available (non-zero) values of
property XX are so treated. The original values are not saved.
Arithemetic operations are available through the command ALTER XX
P YY. This command causes the numeric values in XX to be treated by the
numeric values in YY according to the value of the operator P: Multiplication
(*), Division (/), Subtraction (-), or Addition (+). Division by a zero in YY
produces a minus zero in XX. Again, the original value of XX is not saved.
A constant specified on the command card may be added to all numeric
values of XX by calling ADDTO XX.
Output and Tape Storage
t»
Six types of output are provided by the program.
BLITZ dumps the data store using a fixed format. All the information
for every material is printed, two materials per page.
TABLE produces printed output similar to the master tables of
Appendix A, and from which these A tables were produced. This fixed-format
output has been included to permit more efficient handling of important
alphanumeric information such as name and classification, composition, major
-------�
D-3
PRINT XX prints the material code, the numeric values, and the
alphanumeric comments of property code XX for each substance in the data
store. No entry is printed where the numeric value is zero (or blank), pro-
vided the alphanumeric value is also blank. The output format is specified
by the user (see Require Specifications below).
PRINT XX N YY prints material code, followed by the numeric values
of property codes XX and YY. If the value of XX is zero (or blank), no entry
will be printed.
PRINT XX A YY prints the material code and the alphanumeric values
of property codes XX and YY.
PRINT XX B YY prints the material code, the alphanumeric value of
property code XX, and the numeric value of property code YY.
The program user may wish to preserve the information store on tape
rather than on punched cards. The option WRITE causes the program to copy
the data matrix onto a specified tape (Tape 7 on the CDC 6AOO). This taped
information is returned to the core storage upon subsequent use of the program
by calling COPY 7.
Required Specifications
The user must specify the output formats for the four PRINT commands
described above. If labels for the various output tables are desired, they
must also be specified by the user.
FORMT causes the storage of a variable format specified by the user.
When a format is stored, it remains in effect until replaced by a new format
supplied by a new FORMT command.
LABEL immediately prints any variable format which is to be used
for Table or column headings. Although this .command as required by the
program looks like a format (FORMT) command, it is executed immediately, and
is not stored by the program for subsequent use. Whenever a label is desired,
it must be entered at the appropriate place in the command deck.
Summary and Program Listing
The program listing which follows shows that this program is unsophis-
ticated even though the possible combinations of user options are many. Enough
options have been provided to permit the generation of a large number of two-
column and larger tables, which can be produced at the command of the user and
-------�
D-4
may be modified and sorted in a total of seven ways. More sophisticated sorting
and perhaps even search procedures are not required at the present time,
although these are programmable if needed at a future time.
A complete listing of the program from which these tables have been
-------�
D-5
Table D-l. Listing of Command Deck Used to Produce Tables.
NDATA
COPY?"
NOATA
BLITZ
TABLE
FOHMT
LABEL
LABEL
RFSTORE DATA MATRIX
119X»AS,2X,3A10>
..U.Hj , 19X.27HTABLE B-3... _.AVAILABLE..SIZES//.)..
(?OXt4HCODE»5X,4HSIZE//J
PRINT A04
"LABEL (iHff19X,28HTABLE B-4. AVAILABLE SHAPES//)
LABEL _ (?Oxi4HCODE,5X,5HSHAPE//)
PHINT A05
SOHTA 01
TABLE
SORTA 02
TABLE
SOHTA 12
"LABEL"" nHy,.9~X~t26HTA~BLE B-II.
LAHEL _' 10.0> " ~ " " ~"
_ J; LABEL (J..H1 _!?X»42.HTABLE C-3.. SURFACE AREA .VS.._MAXIMUM_TEMP..//J
PRINT10N18 •. ' ' _
FORMT " <.H ",19X"tA5t2X'.>i6."6Y2X"."3Al'0)""
SORTN 18 ..
LABEL "" " UHi'i 19Xf"43HT'A8LE 8-15. MAXIMUM SERVICE TEMPERATURE (F)//j
LABEL (20x«4HcppE«8x«5HTEMp.'7-x•RH_COMMENTS//)
"PP'INT IB "" •
SORTN 17
LABEL ~~ " (1H1,19X.45HTABLE B-U. PARTICLE DENSITYOx»4HCODE.6X.7HDENSlTY.2X»BHCOMMENTS//) _____
"PRINT 17
SOHTN 13
LABEL "~" (THY»T9Xr4i"HfABLE B-f?. CRYSTALLITE "s'lZE (ANGSTROMS)"//)
LABEL (?Ox»4HCODE»9X,4HSIZE.RX,«HCnMMENTS//)
~PRINT "13 " .
SOHTN 06 . . __
" LAriF.L """TlHi,i"9XV37HTABLEB-5." "CRUSHING STRENGTH IN LBS.//) ""
T LABEL (?9x»RHCHUSHlNG/20X»'+HCOpF,SXi8HSTHENGTH»2X»8HCOMMENTS//)
~" PRINT 0"6
L _ SOHTN 07
"LABEL " "Ti"Hi,i9Xt20HTABLEB-6. HARDNESS//)
•. LABFL _ :_
•;- — -pHjNT - 07 - . —- -
SOHTN _11
-------�
D-6
Table D-l. (Continued) _
LABEL ^(?Ox»4WCODE,6X,7HDENSTTY,^X»RHCOMMENTS//)_ :
PRINT 11" ' "" " ..-.-...-- -
__ _FORMT (j'H ,19XiA5,2X,FlO,0.2X.F10.0>
LABEL MHlM9X,45HTABLE C-4. BULK DENSITY VS. PARTICLE DENSITY//)
LABEL (30X»«HHULK,7X,RHPARTTCLE )
LABEL (?OX»4HCOOE.6X,7HOENStTY ,4X.7HDENSITY //)
PHI NT 11Nl7 _
"FOKMT " MH ti9XtA5.2x,Fio.6»2X,Fio.2>
LABEL _ _ UH~nl9X.37HTABLE C-5. Bin K DENSITY VS ATTRITION//) .
LAUEL (30X.4HRULK /20X,4HCO|)E,6X,7HDENSITY,3X,9HATTRITION //)
PRTNT11N19 ..
FOHMT <]H .19X»A5,2X,F10.2»2X,F10.)
_ SOHTN 19
LAHFL ~ iYHi,l~9x"t33HTABLE C-6. TfTHTT'lON VS HARONESS/7)
_LABEL (?OX»4HCODE,4X,9HATTRlTION,*Xt8HHAHONESS//)
PHINT19N 7
_ _ FOHMT _ _
-------�
D-7
Table D-l. (Continued)
_L ABEL (?0X » *H_CPDE • 6X , 7.HDENST TY,?X, RHCOMMENTS//) ._
PRINT" ii ' '•' "'•""
FORMT __ _ (]'H »19X.A5.2X,F10,Ot2X,F10.0>
LARFL <1Hi»l9X.45HTAHLE C-4. BULK DENSITY VS. PARTICLE DENSITY//)
LABEL _ C10xt4HBULK,7X,RHPARTICLE ) . .
LABEL "
PHI NT 1_1 N1 7_ __ .
"FORMT (IH ii9x\A5«2x,Fio.o.?x,no.2)
LABF.L _ __ (\Hi»l9X,37HTARLE C-5. RH|K DENSITY VS ATTRITION//) ..... ...
LABEL OOX^HRULK /2ox,4HCODE»6x,7HDENSiTY,3x,yHATTRiTiON //>
PRTNTHN19 ..
TOHMT (1H .19X»A5«2X,F10.2.2XtFlO.)
SOKTN 19 _ __
LAHFL (l'Hi,19Xt33HTABLE C-6. ATTRITION VS" HAR'ONF.SS//)
LABEL _ (?OX»4HCODE,4X,9HATTWITION,*X»8HHAKONESS//)
PRINT19N 7
FORMT _ ()H »19X»A5,2X,F10,2.?X,3A10) . „
LABEL (tHl»10Xi33HTARLE B-lfi. ATTRITION (PER CENT)//)
LABEL (2PX»4HCODE,4X,9HATTRTTIOM,3Xf 8HCOMMENTS//)
"PRINT" 19
FOHMT _ |1H .19XtA5,2X,F10.1t?X,3A10) _ __
SORTN 16 .
LABEL _ (lHi,19Xt37HTARLE B-13. IGNITION LOSS (PER CENT)//)
LABEL (?OX»4HCODr,9X,4HLOSS,3X,RHCOMMENTS//>
_PRINT 16 __
FORMT '" (1H .19X»A5«2X.Fld.O.?X,3A10)
SOHTN 08
LAHEL " " ~" "'(iHi«19X»34HTABLE B-7. PORE SIZE'lN ANGSTROMS//)"
LABEL :_n3x«4HPORF /20X»4HCOoE»9X,4HSIZE»2X.8HCOMMENTS //)
'PRINT"'"OH"
_FOWMT y_H_ »l?.x»A5«2Xi.Fiq.3»2X_,3A10) :
SOHT'N 09
LABEL (lHif,19Xi31HTABLE B-8. PORE VOLUME (CC/GM)//)
LABEL (13X«4HPORE /20X»4HCOf)E.7X,ftHVOLUME«2X,8HCOMMENTS //)
PRINT 09 .
FOHMT VlH ,19X,A5,2X,F10.3»?X,F10.0)
LABEL (1H1,19X«37HTABLE C-l. PORE VOLUME VS. PORE SIZE//)
"LABEL" n3x»4HPORE*8X,4HPOHE/20X,4HCODE«7X,6HVOLUME«8X.4HSIZE//)
PHINT09N08
FOHMT MH tl9XiA5f2X,F10.0.?Xf3A10)
SORTN 03__
LABFL " " " "(JHl«19X««TABLE B-l. COST CS/TON) AND SECONDARY COMPOS.«//)
LABEL
-------�
D-8
Table D-l. Listing of Command Deck Used to Produce Tables.
RFSTORT'OATA "
NDATA
~ COPY 7
NDATA _
" BLITZ
TABLE _ _ _ ___
........ FORMT -• — - -^ fl9x,A5,2x,3Al6)
_, LABEL . UHj »19X.27HTABLE 8-3. AVAILABLE SIZES//)
LABEL
PRINT10N18
""FOHMT - "U'H "tl9XtA5.2X«F10.d»2X»3A10)
SOHTN 18 _ ^_
LABEL " ~ """ '('T'HI 119X»43HTA8L£ 8-15. MAXIMUM SERVICE TEMPERATURE (F)/"/)
LABEL__ (20x«4HCOt)E.8X,5HTEMP.,7X,fiHCOMMENTS//)
"PRINT "18 "" " " "
SOHTN 17
LABEL " (lHi,19Xi45HTABLE 8-14. PftRTTCLE DENSITY(L8. PER CU. FT.)//)
LABEL (20x»4HCODE,6X,7HDENSTTY.2X,BlHCOMMENTS//)
PRINT 17
SOHTN __ 13 __ __
"LABEL "" (IHl fT9X,4lHfA8LE" 8-12. ""cRYS'f ALTl TE"SIZE ' ( ANGSTROMST//)
LABEL __ _ L_ _
PRINT " 07" " "" " " "
SORTN 11
-------�
D-9
P~ROGR~AM~ TABLES VINPUT,oufPUT,fAPES= iNPuf,TAPE6=ouTPuY»TAPE?)
"6003
0003
0003
0003
DIMENSION iA(3Y.IDATA{3eo»20
1 IFORM(6)»TEMP(20)*
DIMENSION LITO (2,20)
_-MTA IFORM/ftJ;lOM_ /_
DAT A TITO"/ IOH CLAS
i _ IOH c
2 IOH COST,
3_ IOH _AVAIL
4 IOH AVAILA
_5 1.0 H „
6 IOH
7 IOH
,3)
ITMP<20,3)
»KODE(380)
8
9
1
1
IOH
_10H.
IOH
-1PJ1
IOH
IOH
__
6
7
IOH
JOH.
IOH
IOH
R
9
IOH
C
C
,10HSIFICATIOM
,10HOMPOSniON
»ioH2co ACTIVE
.l.OHABLE SIZES.
»10HBLE SHAPES
»1 Q H H _ST_R EN. G T H __
,10H HARDNESS
? IOH PORE SIZF
P »10HORE VOLUME
____SU_ , 10HRFACE _AREA
BU »10HLK DENSITY
c_RJ__JLi_Q H S_T A L LINIT Y
OHLLITE SIZE
, 10HMAJOR USES
»10HMAJOR USES
_ _fl.OHVOLATlUITY
PARTIC »10HLE DENSITY
MAX. ,1QH _OP.,_J.EMP.,
»10H ATTRITION
__tjQH COMMENTS
CRYSTA ,1
PROGRAM WRITTEN BY 0. P. MOON» JANUARY 1969.
C
C
c
c
_
PROGRAM
AS A. GENERAjL-Py_RPO_S.E DATA STORAGE AND RETRIEVAL
w IT'H L T M I T FO~F AC 1 ! L I T Y" FOR " DA TARE ARRANGEMENT ( SORT ING )
C
C
c
c
AND MANIPULATION.
"oF" DATA PER CARD.
_ _CC FORMAT
1- 5 AS
CARDS, ONE ELEMENT
THE FOLLOWING FORM
C
C
c
c
c
c
c
c
c
c
c
c_
~c
c
"c
c
c
c
H-20 E10.0
21-50 3A10
DIMENSIONS FOR NUMERIC
MAY BE RECORDED IN REMARKS.
DATA ARE STORED ON PUNCHED
EACH CARD CONTAINS DATA IN
CONTENTS
CODE DESIGNATING SUBSTANCE OR MATERIAL
£OPE_OEJ_IGNATIN6 PROP£RTY_ OR CHARACTERISTIC..
NUMERIC VALUE, IF ANY, OF PROPERTY
ALPHANUMERIC VALUE Op REMARKS
VALUES SHOULD RE SET BY PROGRAM USER AND
_. CA-R_D ISJfcAO IN, THE_SUBSTANCE CODE IS EXAMINED TO SEE IF
A NEW" ONF",~ THEM AN"'ARRAY" INDEX "L is ASSIGNED TO IT. THE PROPERTY
CODE 15 USED AS ARRAY INDEX M. THE VALUE OF THE PROPERTY IS THEN
STORED IN LOCATION (L»M). NOTE THAT THIS ALLOWS FOR ONLY ONE
VALUE FOR A PROPERTY. IF DUPLICATES ARF ENCOUNTERED, THE LATEST
VALUF. WILL BE RETAINED AND OTHERS PRINTED OUT TO ALERT USER.
DIMENSIONAL LIMJTS FOR THE ABOVE ARE
L 380 SUBSTANCES OR MATERIALS _
M 20 CHARACTERISTICS
NDATA SIGNIFIES THE END OF INPUT DATA. FOLLOWING NDATA, THE USER
-------�
D-10
IjSE OF THF,
OPERATIONS
FOLLOWING OPTION CARDS* IN AMY COMBINATION OR SEQUENCE.
WILL BE~~PERFORMED 'IN" THE ORDFR" CALLED FOR. LATER
c
" c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c "
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
"c
c
c
c
c
c
c
c
c
c
c
c
c
CORRECTION OF DA
'OPTIONS
""CC 1-10"
BLITZ
TABLE
FORMT
LABEL
PRINT _X X _
PRINTXXNYY
PR1NTXXBYY
1NVRT XX
FACTR XX
ALTERXXPYY
ADDTO XX
»"»»IN ORDER TO
""""ADDTO AMD A|'
*"""L£SS THAN 10
50RTN XX
SORTA XX
SORTK
WRITE
COPY?
MORE
TA MAY BE HANDLED BY MEANS OF WRITE AND COPY?
OPERATION
"PRODUCES SERIAL DUMP_OF DATA ARRAY* USING
FIXED FORMAT
"PRINTS PREDEFINED TABLE
"STORES VARIABLE FORMAT IN CC 21-80 FOR LATER
USE IN DATA OUTPUT. SEE CDC 6400 REF. MANUAL,
FORMT MAY BE CHANGED BY SUBSEQUENT FORMT CARD.
"PRINTS VARIABLE FORM/\T IN CC 21-80. USED FOR
PAGE OR COLUMN HEADINGS. NOT STORED,
"PRINTS SUBSTANCE CODE, NUMERIC VALUE* AND
ALPHANUMERIC VALUE OF CHARACTERISTIC XX FOR
EACH SUBSTANCE PER FORMT, OMITS ENTRIES WHERE
VALUES ARE BLANK. XX MUST BE INTEGER 1-20.
"IN NEXT TWO OPTIONS* SET YY EQUAL TO ZERO OR
BLANK IF ONLY XX IS DFSIRED.
"PRINTS SUBSTANCE COD£ AND NUMERIC VALUES ONLY.
"PRINTS SUBSTANCE CODF AND ALPHANUMERIC VALUES
ONLY,
"PRINTS SUBSTANCE CODF, ALPHANUMERIC VALUE OF
XX, THEN NUMERIC VALUE_QF YY» ONLY, FOR
EXAMPLE* XX MAY RE NAME OF SUBSTANCE* YY A
PROPERTY.
"INVERTS THE NUMERICAL VALUE OF CHARACTERISTIC
XX. 1/0 = MINUS ZERO.
"MULTIPLIES EACH NUMERIC VALUE OF CHARACTERISTIC
XX BY FLOATING POINT FACTOR IN CC 11-20.
"PERFORMS OPERATION XX (OP) YY USING NUMERIC
VALUES OF CHARACTERISTICS XX AND YY AND STORES
RESULT AS NEW NUMERIC VALUE OF XX. OPERATOR
P MAY BE * - * OR /, DIVISION BY ZERO PRODUCES
A MINUS ZERO. FORMER VALUE OF xx is DESTROYED.
"ADDS THE QUANTITY SPFCIFIED IN CC 11-20 TO
THE NUMERICAL VALUE OF CHARACTERISTIC XX,
AVOID THF CREATION OF FALSE DATA, INVRT. FACTR*
T£R ARE PROGRAMMED TO RrGAPD AN ABSOLUTE VALUE
tt""l_0._A.S._A_BLANKENTRY_ AND. TO .RETURN A MINUS
"REARRANGES SUBSTANCES AND ALL DATA IN ORDER OF
INCREASING NUMERIC VALUES OF CHARACTERISTIC xx.
"ALPHAqETIC SORT, NOT ALPHNUMERIC
"DITTO FOR MATERIAL CODES
"WRITES DATA FROM STORAGE ARRAYS ONTO TAPE ?.
IF TO RE SAVED* TAPE REQUEST CARD MUST BE USED
TO ASSIGN MAGNETIC. OTHERWISE* DISC MAY BE
USED FOR TEMPORARY STORAGE.
"COPIES DATA FROM TAPF 7 AND STORES IT IN
" "ORIGINAL ARRAYS. RETURNS USER TO DATA ENTRY
PORTION OF PROGRAM, T^US REQUIRES AN NDATA
"" CARD BEFORE OTHER OPTIONS CAN BE PERFORMED,
-------�
D-ll
C_
"c
c
c
c
NDATA AND ALLOWS READING IN OF MORE DATA
A 7-8-9 END OF Fl|E INDICATES END OF OPTION DECK.
AND MUST RE FOLLOWED BY 6-7-8-9 END OF JOR CARD.
MUST RE PRESENT
10003
•0005
>"00~07
"
>OO4
'0020
0021
0041
0044
0"645~~
0047
0052
10
11
12
1
0052
PP53
6655
0057"
006T
"'REWIND 7
Dp 98 1 = 1,22800
98 IDATA(I)=10H
DO 99 I=l»7600 _
99 XDATA(I)sO.
NL = 0
READ DATA INPUT
f! E A 0 < 5,1 _)_ I TEM ,. I, KiMvX ,_IN
IF(EOF»5) 11»12
CALL EXIT
IF(ITEM.F.Q.5HNDATA) GO TO 50
IF(NL.LT.I) GO TO 30
FORMA T (A5»12 * A1 ,1 ?, F1 0 . 0 »
-------�
D-12
0235
0237
0240
0242
0243
0245
0246
0250
0251
0253
0254
0256
0257
0261
0301
0301
0302
0304
0307
0310
0314
03]5
0317
0326
0327
0331
0337
034?
0343
0347
0352
0352
0360
0362
0363
0365
•0365
0373
'0376
10400
10401
10403
10412
• 0415
10441
)0444
)0444
)0446
. .._
C
53
3
C
60
61
C
70
C
80
81
C
90
91
92
C
100
110
21 r
111
120
IF(ITEM.EQ.5HLASEL) GO TO 70
lFdTEM,EQ.5HPRlNT) GO TO 100
IF(ITEM.E0.5HSORTM) GO TO 201
IF(ITEM.EQ.5HSORTA) GO TO 200
IFUTEM.F0.5HSORTK) GO TO 202
IF (ITEM.FO.SHFACTR) GO TO 80
IF ( ITEM.FQ.5HINVRT ) GO TO 90
IFUTEM.EQ.5HALTER) GO TO 400
TFdTtM.F.Q.SHADDTo) GO TO 420
IF (ITEM.FQ.5HWRITE) GO TO 500
IF(ITEM.EQ.5HCOPY7) GO TO 600
IFUTEM.F0.5HTARLF) GO TO 700
IF (ITEM.E0.5HBLIT7) GO TO 800
ERROR IN OPTION CARD. STOP RUN.
PRINT 3, ITEM,I,K,M,X,IN
FORMATUHO.iSHOPTlON ERROR » A5, 12, Al", I2,Fl 0. 0,6A1 0)
CALL EXIT
STORE FORMAT FOR LATER ~USE "
DO 61 1=1,6
IFORM(I)=IN(I)
GO TO 50
PRINT HEADINGS AND LABELS
WRITE(6,IN)
GO TO 50
MULTIPLY NUMERICAL VALUES OF CHARACTERISTIC M BY FACTOR X.
DO 81 1=1, NL
XDATAd»M)=XDATA(I»M)"X
GO TO 50
INVERT NUMER1CAL_VALUES OF CHARACTERISTIC M.
DO 92 1=1, NL
IF(ABS(XOATA(I,M) ) .LT.l.E-05) GO TO 91
XDATAd »M)=1 ,/XDAfA(I»M)
GO TO 92
XOATA ( I tM) =-0.
CONTINUE
GO TO 50
PRINT OUTPUT PFR iFORM
TF(I.EQ.O.OR.M.FQ.O) GO TO 110
IF(K.EO.IHA) GO TO 140
IF(K.EO.IHN) GO TO 150
IF(K.EQ.IHR) GO TO 160
GO TO 53
iFd.EQ.o.AND.M.FQ.O) GO TO 53
M=MAXO (I ,M)
IF(K.EO.IHA) GO TO 120
IF (K.EQ.1HN) GO TO 130
DO 111 J=1,NL
IF(ARS(XDATA(J,M) \ . GT . 1 .E-05) GO TO 211
TF(lDATA(J,M,l) .EQ.10H ) GO TO 111
WRITER* I FORM) KODE(J) *XDATA(JtM) » I DAT A ( J»M« 1 ) »IDATA(J»M,2>t
CONTINUE " ~~ ""
GO TO 50
DO 121 J=1,NL
-------�
D-13
)045P
)0473
>047(S
• 0476
10500
10506
10520
10523
10523
10525
10531
'0563
i0566
'0566
'0570
•0576
0614
0617
'0617
0621
0627
0653
0656
0656
0657
0660
0661
0662
0663
0665
067T
0672
0674
0700
0703
0706
0713
0715
0716
0721
0727
0734
0741
0745
0752
0756
0762
0762
0767
0770
0773
121
1.30
131
1*0
1 4J-
150
151
160
161
200
C
201
C
C
202
C
300
301
302
303
1304
304
WRITF(6,IFORM) KOf)E(J) « IDATA ( J»M , 1 ) , I DAJA ( J t M , 2 ) , IDATA ( J, M , 3 )
CONTINUE
GO TO 50
no 131 J=I,NL
TF(A8S(XDATA .LT.l.E-05) GO TO 151
WRITE(6«TFORM) KOoE(J) tXDATAUf I) »XDATA(j,M)
CONTINUE
GO to 50
DO 161 J=1»NL
IF(A8S(XOATA(J,M)>. LT.l.E-05) GO TO 161
WRITE (6, 1 FORM) KODE(J) » ( I DAT A ( J» I »K) «Ksl , 3) tXDATA(J«M)
CONTINUE - - . - -
GO TO 50
JJ«1
ARRANGE DATA IN ALPHABETICAL ORDER OF CHARACTERISTIC M
GO TO 300
JJ = 2
ARRANGE ALL DATA IN ORDER OF INCREASING NUMERIC VALUES OF
CHARACTERISTIC M.
GO TO 300
JJ = 3
SORT BY KODE
DO 360 1=1, NL
XTEM=XDATA(I,M)
IKOD=KODE(I)
DO 3ol J=l,20
TEMP(J)=XDATA(l. J)
lTMP(J«l)aiDATA(I,Jil)
TTMP{J,3)=IOATA(I,J«3)
ITMP(J»2)=IDATA(I»J«2)
L=I*1
DO 350 JsL»NL
IF(L.GT.NL) GO TO 350
GO TO (302,303,13o4) ,JJ
IF(IDATA(J»M.1) ,EQ.10H ) GO TO 350
iF(iDATA(j,M,i) .GT.ITMP
-------�
D-14
0777 _ _JKOD=KODE(J) _____ ____ ____ ___
100'1~ " """ KODE(J)=KODEU) "" ..... "
1003 KODE(I)=IKOO
1004 DO 310 Jl =1,20
1006 _ TEMP(J1 )=XDATA(J, jl)
101? ' XbATAU* Jl)sXnATA(I« Jl)' " -------- .....
1017 ____ xDATA(I»Jl)=TEMP(jl) __ __________ _ __ _ __ ___
-j--~> — "no '3"io"kai",3"
1023 TTMp(Jl»»<)=IOATA(j»Jl»K)
1033 iDATAU»Jl,K)sinATA(I»Jl»K)
1043 310 lOATA(I»Jl,K) = TTMP(JltK) _______
1054 350 CONTINUE " " "" " "" ~~~ " ..... "
1Q.57 __ 360 CONTINUE ____ ___ __ _________ ____
106T GO To 50
C PERFORM OPERATION NUMERICAL VALUE_OF XDATA(I) (OP, K) XQATA(M)
C AND STORE AS XOAU(I)
10&T _ _400 J=l __ ___ _______ __
In 6?" '""" " IF(K.EQ,1H*) GO'TO 404
1_064 __ IFJj5-»tQ^.LH-i_GO TO 4Q3__ _____ __ _ _____ ___
1066" lF(K".EQ.iH«) GO T0~402
1067 __ __ I.FIK..EQ»IH/) GO TQ_401 __ ___ __
1071 " GO TO 53
1071 _ _*Q1 J=J*1 ____ _____________________
1073 402 J-J*1
40 3_ J_=_J * 1 _________ ____________
"
__ _ __ _________
"1077 404 00 4lO L = 1,ML
11.01 _ _ If.
-------�
D-15
__ __c BEFORE OTHER OPTIONS CAN RE ACCEPTED.
)j2"ff" ~"60b" READ(7) NL • (KODE ( T ) , 1 = I ,NL) » ( ( XDATA'u ", J) V J=l i i2oV» 1 = 1 »N|_) »"
...... _, . _ .1 U(IDATAU,J»K) ,K = 1,3) tJ=l»20)»I = l»NL)
)1340 REWIND 7
H_342_ ________ ...... GO TO 10. . ____ ._.__ _____________ _________ . ..
C SERIAL OtJMp OF OAyA ARRAY
)J34_3 ___ 6_FJ>J?MAT<6H.1_COOE,5X.»23HNAME AND CLASSIFICATION, 16X , 1 iHCOMPOSI T ION ,
1 18X,15HAVAILABLE SIZES » 15X//)
7 FORMAT(1X,A5»2X,3A10»2X,3A10»2X,3A10»2X,3A10)
8 FORMAT (11H1MAX TEMP F « 12X , 1 OHMAJOR USF.S,22X 1 1 OHMA JOR USES.
...... ._._. .. _______ 1 ... 23Xf SHCOMMENTSf 16X,4HCOQE//)
11341 9 FORMAT(1X,F10.0.2X»3A10,2X»3A10»?X»3A10,5X,A5)
____ .____ ___ _____________
11347 DO 7iO J=l»NL
!JL351 __________ 7.10_pRINT._7»._KODE(J)...(IDATA(JtlfM) »M=1,3) » ( I DATA ( J»2»M) ,M=1»3) »
(IDATA(j,4»M) fM=l»3)
11414 DO 720 J=1,NL
11416 720 PRINT 9, XDATA(J,18),(IDATA(J,14,M),M=1,3),(I OATA (J,15»M),M=1,3),
1 (iDAfA(J,20»M) ,M=1,3) ,KOOEU)
'_1A60 _ GO Tp 50
C SERIAL DUMP OF DArA ARRAY....BLITZ ROUTINE, 2 MATERIALS PER PAGE
11460 8QQ DO 8i2 JP = 1,NL»2
'1462 WRITE (6,16)
'JL465 ijSjF_ORMA_I _1 LHJJ
K = JP
1467 DO 811 L =_1»2
1470 J = K * L - 1
L*J? __ __ _IF (J_»_GT» NL) GO TO 811 _
'1476 " WR'ITE (6,116) KOOp (J) »KODE MATERIAL CODE «, A5« 31 X »_»MA_TERIAL_ CpDE__» L_A_5//J_
1505 ~DO~8lO M * 1,"2~0
1507 810 WRITE (6»17J LlfO(1t")tLlTQ(2*M)«Mt XDATA(J»M),
_..__. i[)ATA(j,M,i) , InATA(J,M,2) , IDATA(J,M,3)
J543_ _ 17 FORMAT (IX, 2Alo* IX, I2» IX, FH,3, IX, 3A10)
1543 811 CONTINUE
1_545 §.l?_ .CONTINUE
15~50" " GO" TO 50
-------�
APPENDIX E
THESAURUS OF CODES IDENTIFYING THE
-------�
APPENDIX E
THESAURUS OF MATERIALS COOES
COUE
AC
AC101
AC102
AC 103
AC104
AC301
AC302
AC303
AC
At
AL101
AL102
AL
BC
BC101
BC
BC
BC
CA
CA102
CA103
CA104
CA105
CA201
CA301
CA302
CA303
CA304
CA305
CA306
CA401
CA601
CA701
"CA702
CAH01
CA
CC
CC101
cc2oi
CC301
CC302
~~ ~ ' CC303
CC304
CC305
CC306
CC307
CC308
CC309
CC310
CC311
IDENTIFICATION
f-1
F-5
K-6
H-151
T-fil
T-71
F-7
ALSlMAG 614-HC
ALS1MAG 795-HC
HESOKii
C-ll
C-12
C-13
C-lb
C-101
C-31-2
C31-1
C31-1A
C35
C36
C49
C20
C73
cu
ClB
C54
SAHT-99
•»«
AAMC
AAMU
AAMT-80
AAMT-B3
AELT
ALC
AMC
AMM
AMQ
AMT
CELl
MANUKACTUREH
ALUMINUM COMPANY OF AMERICA (ALCOA)
1501 ALCOA BUILDING
PITTSBURGH* PA. 15219
PHONE (412)553-4545
AMERICAN LAVA CORPORATION
CHATTANOOGA, TENNESSEE 37405
PHONE (6l5)265-3
-------�
CC312
CC313
CC314
CC315
CC316
CC317
CC318
CC319
CC320
CC321
CC322
CC323
CC324
CC325
CC326
CC327
CC326
CC329
CC330
CC331
CC332
CC333
CC334
CC335
CC336
CC337
CC338
CC339
CC340
CC341
CC342
CC
CY
CY101
CY102
CY103
CHO
CHT
CLC
CLO
CLT
CMC
CMM
CMO
CMT
MLC
MMC
MMT
SAHO
SAHT-99
SAMT-96
SEHt
SLC
SMC
SMT
$MT-9<+
SMT-95
1«MT
SAEHS-18
SAEHS-3
SAEHS-33
SAEHS-5
AMERICAN CYANAMtO COMPANY
AEROCAT 80/90 REFINERY CHEMICALS DEPARTMENT
AEROCAT 75/85 HOUND BROOK, NEW JERSEY OH805
AEROCAT AAA PHONE (201)35^-2000
AEROCAT SSS-4
CY105
CY201
CY302
CY401
CY501
CY601
CY701
CY702
CY
DG
DG101
UG102
DG103
OG104
DG105
DGlOb
DG107
OG108
OG109
AEROCAT TS-ISO
AERO HDS-3
AEROFORM PHF-4
AEROCAF PAA-3
AERO HOS-i?
AERO HDS-2A
~ GRADE 01 "~
GRAUE 03
GRADE OS
GRADE 07
GRADE 08
GRADE 40
GRADE 41
GRADE 12
»»AEKOCAT FLUID CRACKING CATALYST
DAVISON CHEMICAL DIVISION
«'. R. GRACE AND COMPANY "~ "' ""
101 NORTH CHARLES STREET
BALTIMORE* MARYLAND 21203
PHONE (301)727-3900
-------�
OG110
UG111
OGii2
DG113
OG114
DG115
DG116
DG117
DG11M
DG119
OG120
OG121
06 122
DG123
DG124
DG125
OG126
DG127
1)6201
DG202
DG203
DG204
DG205
DG206
OG209
OG209
DG210
DG211
OG212
DG213
OG301
OG302
UG303
DG304
OG305
DG
DP
OP101
DP102
DP
DP
DP
DP
DP
EN
EN101
EN201
EN202
EN203
EN204
EN205
EN206
EN207
KN208
EN
EP
GRADt 14
GRADE 15
GRADE 58
GRADt 62
GRADE 922
GRADE 923
GRADE 950
GRADE 09
GRADE 19
GRADE *CALLF.D KAOLIN CRACKING CATALYST
tSACTlVATEl) BAUXITE DESULF'URI^AT ION CATALYST
//POROCEL-LPD SULFUR RECOVERY CATALYSf
-------�
EP101
EP102
EP
EP
GR
GR101
GR202
GR301
GR401
GR402
GR403
GR404
GR405
GR406
GR407
GR409
GR411
GR412
GR413
GR414
GR415
GR416
GR417
GR419
GR420
GR421
GR422
GR424
GR425
GR426
GR427
GR428
GR429
GR430
GR431
GR432
GR433
GR434
GR435
GR43b
GR437
GR438
GR439
GR440
GR
~ HC
HC201
HC202
HC203
HC204
HC205
"HC206
HC207
HC208
HC209
CELATOM MP-95
CELATOM MP-99
G-43
G-32E
G-51
G29
G31
G3
G66
G33
G65
G35
G41
G4?
G72
G39
G63
G74
G75
G73
G55
G6R
G24 ANQ G28
G67
G62
G6)
G13
G22
G49
G69
GbO
G7l
ICI 35-4
G4?
G64
G43
G32
G77
//
H2-1
<*S
Ji
1100 AMERICAN BUILDING
CINCINNATI, OHIO 45202
PHONE (452)721-7010
GIRDLER CATALYSTS, CHEMETKON CHEMICALS
DIV. OF CHEMETRON CORPORATION"
4900 CRITTENDON DRIVE
P.O. BOX 337
LOUISVILLE, KY. 40201
PHONE (502)36^-9541
HOUDRY" PROCESS AND "CHEMICAL^COMPANY """" "
DIV. OF AIR PRODUCTS AND CHEMICALS, INC.
1339 CHESTNUT STREET
PHILADELPHIA, PENNSYLVANIA 19107
PHONE (215)LQ>3-6000
«»CHROME-ALUMINA CAT ALYST « SER IES A, GRADE 25Z
'" SSCObALT-MOLYODATE CATALYST « SERIES C"
//HOUDRY HARD ALUMINA
( (KAOLIN, GRADE A
) )PALLADIUM-CARHON POWDER CATALYSTS
HC
-------�
HC
HC
HC
HS
HS101
" HS102
HS103
HS104
HS105
HS106
HS107
HS108
HS109
HS110
HS111
HS112
HS113
HS1U
HS115
HS116
HS117
HSllfl
HS119
HS120
HS121
H5122
HS123
HS124
HS125
HS126
HS127
HS128
HS129
HS130
HSl31
HS132
HS133
HS134
HS135
HS136
HS137
HS138
HS139
HS140
HSU1
HS142
HS143
HS144
HS145
HSUh
HSH7
HS148
HS149
HS150
HS1S1
HS152
S/PLATINUM-ALUMINA CATALYST. TYPE 3G
•B*SYNTHETIC SILICA-ALUMINA CATALYSTS
HARSHAw CHEMICAL COMPANY
AL-0104T DIV, Or KEWANEE OIL COMPANY
^"AL-U04T 1933EAST~97 STREET
AL-1906E CLEVELAND* OHIO 44106
AL-1H02E PHONE (216)721-8300
AL-1706E
CO-0301E
CO-0901T
COMO-0401T
COMO-0603T
COMO-0601T
CH-0101T
CR-0205T
CU-1407T
CU-1900S
MG-0601T
KE-1401S
MO-0401P
MN-0201T
NI-0304T
NI-440bE
V-0701T
V-0601T
V-Q501S
ZN-0103T
ZN-0302T
AGO 10 IE
ALOlOlP
AL0102P
ALQ109P
AL1401P
AL1605P
BAQ108E
CO-0101T
CO-0108T
CO-0401G4-8
CO-0402G4-8
CO-0403G4-B
CO-ObOlT
CO-Ob02T
CO-0402T
CRQ103T
CR0104T
CR0105T
CRQ304T
CRl^04P
CR14U4T
CU0202P
CU0203T
CUQ401P
COQ402T
CUllOhP
-------�
HS153
HS154
HS156
HS157
HS158
HS159
HS160
HS161
HS162
HS163
HS164
HS165
HS166
HS167
HS171
HS173
HS174
HS175
HS17A
HS177
HS17R
HS179
HS180
HSlfll
HS182
HS183
HS184
HS18B
HS186
HS187
HS188
HS189
HS190
HS191
HS192
HS193
HS194
HS195
HS196
HS197
HS198
HS199
HS200
HS201
HS202
HS203
HS204
HS20S
HS206
HS207
HS20H
HS209
HS210
HS211
HS212
HS213
CU1110P
CU1«OOP
CU180HT
CU2000P
CU0307T
CU08U3T
CU090SP
CU1700T
CU2501G4-10
FE0301T
FE0303P
MN0501G3-8
MO-0502T
M01101P
H01201T
NlolOlT
NI0102T
NI01U4G
NI0104P
NI0104T
NIQ107T
NIQ108T
NI0109F
NI0109T
NlQllftT
NI0122E
NIQ301T
NI0302T
NI0704E
NI07U7T
NI0901S
NIQ912S
NIlOUOP
NI1406T
NIl'JOlS
NI160US
NI1601T
NI1BOOG4-6
NI1901G2-1
N1200HC1
NI3001T
N 1 320 IF
NISOOOF
NU301E
NU403F.
NU303E
-------�
HS214
HS215
HS216
HS217
HS21B
HS219
HS220
HS221
HS222
HS22J
HS224
HS225
HS226
HS227
HS22H
HS229
HS230
HS231
HS232
HS233
HS234
HS
KC
KC101
KC
KC
KC
KC
MB
MB101
MB
MB
MB
MN
MN101
MN102
MN103
MN
NC
NC101
NC
NC
NC
NC
NL
NL101
NL102
NL103
NL104
NL10S
NL106
NL107
NL108
NL109
NL 1 1 0
NL111
PDQbOlT
PD0505T
PDQ509T
1 I0102T
V0301T
V0802S
viooiE
V1Q02E
W0101T
W0602T
WOH01T
2NQ311T
ZNQ311T
ZNQ312T
ZNQ^OIE
ZNQ601T
ZNO&02T
/:No70).T
ZWQ304T
ZNO«03G4-10
AL1602T
KA-201
THT
TYPE 210
TYPE 11
TYPE 29
#&
tt«
it
NALCAT 7H3
NALCAT 7H.1S
NALCAT KSF
NALCAT KSG
NALCOMO 471
NALCOMO 474
NALCO MM-501
NALCU NM-5Q2
NALCO NI-W
KAISER CHEMICALS
DIV. OF KAISER ALUMINUM AND CHEMICAL CORPORATION
300 LAKESIDE DRIVE
OAKLAND, CALIFORNIA 94604
PHONE (4L5)CRi-2211
MATHEY BISHOP* INC.
APPARATUS AND SYSTEMS DIVISION
MALVERN* PENNSYLVANIA T9355
PHONE (215)644-3100
MONSANTO COMPANY
800 N. LINDBERGH BOULEVARD
ST. LOUIS, MISSOURI 63166
PHONE (314)0X4-1000
NORTON COMPANY
50 NEW BOND STREET
WORCESTER, MASS, 01606
PHONE (617)853-1000
*«ZEOLON SYNTHETIC ZEOLITE* HYDROGEN FORM
NALCO CHEMICAL COMPANY
CATALYST DIVISION
401 WEST 71 STREET
CHICAGO, ILLINOIS
PHONE (3121.767-6677
**FLUIO CRACKIN'7 CATALYST, NALCAT LOiV ALUMINA
I5FLU1U CRACKING CATALYST* NALCAT HIGH ALUMINA
-------�
NL112
NL113
NL
RM
RM101
RM
RM
RM
UA
~ 'UA101
UA102
UA103
UA
UA
UA
" UA"
UA
uc
UC101
UC201
UC202
UC203
UC204
UC301
UC302
UC303
UC304
UC305
UC306
UC307
UC402
UC501
UC
XY
XY101
XY
XY
XY
//
NAL'CAT NO- 12
KA-l
ox-T
OX-2
»«
AW300
bA
13X
3A
4A
SK100
SK110
SK200
SK300
SK310
SK40U
SK410
SK500
SK-120
OXY-COMB
//ALUMINA RASE CARRIER
REYNOLDS METALS COMPANY "
REYNOLDS MF.TALS BUILDING
"RICHMOND, VIRGINIA 23218
PHONE (703) AT2-2311
UNIVERSAL OIL PRODUCTS*
AIR CORRECTION DIVISION
TOKENEKE ROAD
DARIEN» CONNECTICUTT "06820
PHONE (203)655-8711
««FABRICATED METAL UNITS PREPARED BY ELECTROCHEMICAL
DEPOSITION OF COATINGS WHICH CONTAIN ACTIVE METALS
~ (NO""NAME GIVEN) .
LINDE DIVISION
UNION CARBIDE CORPORATION
270 PARK AVENUE
NEW YORKi NEW YORK 10017
PHONE (212)551-2345
OXY-CATALYST* INC.
EAST BIDDLE STREET
WEST CHESTER* PENNSYLVANIA 19380
PHONE (215)692-3500
-------�
APPENDIX F
BLITZ TABLES: THE AVAILABLE INFORMATION FOR
-------�
MATERIAL CODE AClOl
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE AC102
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
? VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-0
o
24S
-0
0
55
0
6
0
2LO
55
6
0
6
0
6
0
350
0
0
-0
0
4?Q
i)
0
6
0
0
0
0
58
0
0
n
0
l?
0
0
n
0
• 000
.000
• 000
• ooo
.000
•_0_00
.000
• ooo
.000
• ooo
• ooo
.000
• ooo
• ooo
.000
.e;00
• 000
• ooo
.000
• ooo
.000
.000
• ooo
.000
• ooo
.000
.000
• ooo
• ooo
.000
.000
.000
• ooo
.000
.000
.400
.000
.ooo
• ooo
.000
MATERIAL CODE AClOl
SOR, ACTIVATED ALUMINA
AL203 92%» NA20 0,Q%
NA20 .9%
1/4 INCH TO 8 MESH
GRANULES
DRYING GASES AND LIQUIDS
MAINTENANCE OF TRANSFORMER OIL
1100C
REACTIVATION TEMP
MATERIAL CODE AC102
SOR, ACTIVATED ALUMINA
AL203 77%» NA20 0.8% CACL2 9.3
CACL2 9.3%
1/2 TO 1/4 INCH
GRANULES
1100C
-------�
"\
MATERIAL CODE AC103
CLASSIFICATION
COMPOSITION!
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE AC104
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUMF
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
o MAX. OP. TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
q
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
IT
18
19 "
20
MATERIAL CODE AC103
-0.000 SOR, ACTIVATED ALUMINA
-0.000 AL203 88» NA20 ,86, COCL2 2,0%
401.000 COCL2
-0.000 1/4 IN, TO 8 MFSH
-0.000 GRANULAR
6.000
0,000
o.ooo
o.ooo
o.ooo
57.000
6.000
o.ooo
-0.000 BREATHER EQUIP, * ApPLK. REQ.
-6.000 VISIBLE IND. Or ADSORPTION
R.c;00
o.ooo
6.000
o.ooo
o.ooo
MATERIAL CODE AC104
-0.000 SOR, ALUMINA GEL
-6.000 AL203 90» SI02 2.2. NA20 1.6%
416.000 SI02
-6.000 1/8 IN. * 1/4 IN. niA. BALLS
-0.000 BALLS
75.000
o.ooo
6.000
o.ooo
390.QOO
53.000
6.000
o.ooo
-0.000 DRYING GASSFS UNDER HIGH. PRESS
-0.000 * STATIC DRYING APPLICATIONS
6.000
0.000
1250.000
o.ooo
-------�
c
c
MATERIAL CODE AC301
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP, TEMP.
ATTRITION
COMMENTS
MATERIAL CODE AC302
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
""MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP,
ATTRITION
5 COMMENTS
1
?.
3
4
5
6
7
8
9
10
11
12
13
U
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-0
-0
92
-0
0
0
0
6
130
0
0
6
0
6
0
6
0
6
-n
-6
555
6
-0
0
0
6
«5
0
0
..-o
-6
6
0
0
0
-0
• 000
• ooo
• 000
.000
.000
.QOO
.000
.000
.015
• 040
• ooo
.000
• ooo
• ooo
.000
.000
• ooo
.000
• ooo
.000
.000
.000
.000
• ooo
.000
• ooo
.000
.000
.175
.500
.000
• ooo
.000
• ooo
• 000
.000
.000
• ooo
• ooo
• ooo
MATERIAL CODE AC301
CRR, ALUMINA* CATALYTIC GRADE
MGO,AL203»SI02
NONp
1/4 INCH TO 8 MESH
GRANULAR
REFORMING»CRACKING
MATERIAL CODE AC302
CAT, TABLETEO ALUMINA
AL203 99,5%, S03 ,09» CAO .06%
CAO .06
GRANULAR
LOW-SURFACE-ARFA CATALYST
AGGREGATE (CASTABLE REFRACTORY)
-------�
MATERIAL CODE AC303
CLASSIFICATION 1
COMPOSITION 2
"" "COST, 2CD ACTIVE 3
AVAILABLE SIZES 4
AVAILABLE SHAPES" "5
CRUSH STRENGTH 6
HARDNESS 7
PORE SIZE 8
PORE VOLUME 9
SURFACE AREA 10
BULK DENSITY 11
CRYSTALLTNITY 12
CRYSTALLITE SIZE 13
MAJOR USES 14
MAJOR USES 15
VOLATILITY 16
PARTICLE DENSITY 17
MAX. OP. TEMP. 18
ATTRITION 19
COMMENTS 20
MATERIAL CODE ALlOl
CLASSIFICATION 1
COMPOSITION 2
COST, 2CO ACTIVE 3
AVAILABLE SIZES 4
AVAILABLE SHAPES 5
CRUSH STRENGTH 6
HARDNESS 7
PORE SIZE 8
PORE VOLUME 9
SURFACE AREA 10
BULK DENSITY 11
CRYSTALLTNITY 12
CRYSTALLITE SIZE 13
MAJOR USES 14
MAJOR USES 15
VOLATILITY 16
PARTICLE DENSITY 17
6 MAX. OP. TEMP. 18
ATTRITION 19
5 COMMENTS 20
MATERIAL CODE AC303
-0.000 CAT. ACTIVATED ALUMTNA
-O.QOO AL203 84%» NICKEL FORMATE 2.5%
50Q.OOO NICKEL FOHMATE
o.ooo
-0.000 GRANULAR
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
55.000
6.000
o.ooo
-6.000 CATALYST (PROD. OF CONTROLLED
-o.ooo ATMOS. IN HEAT-TREATING FURN.)
1?.100
o.ooo
o.ooo
o.ooo
-6.000 GRADE F-l + NICKEL FORMATE
MATERIAL CODE ALlOl
-0.000 CRR, HONEYCOMB, ALUMINA
-0.000 ALUMINA 96% (ALSIMAG 614)
7600.000 NONE
-0.000 CELLS 1,1/3,1/5 INCH
-0.000 BLOCKS 8X8X2 INCH
o.ooo
0.000
6.000
o.ooo
6.000
o.ooo
o.ooo
o.ooo
-O.OOO NOX FUME ABATEMENT
-0.000 HCN REACTOR
o.ooo
o.ooo
o.ooo
o.ooo
-------�
_MA.TERTAL_CO.DE AL.102.
ATERIALCODE ALIOS.
C
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE BClOl
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUMF
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
/ VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
s COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
Tl
12
13
14
15
16
17
18
19
20
-0.000 CRR» CORDIERITE
6.000 MGO.AL203. (5/2SI02)
4350.000 NONE
-0.000 9IN, BY 9IN, BY 4lN.
-0.000 EXTRUDED
n.ooo
R.OOO MOH SCALE
0.000
0,000
6.000
0*000
6*000
0*000
-6,000 CARRIER IN HCN REACTOR
-0,000 NOX FUME ABATEMENT EQUIPMENT
6.000
143.500
6.000
0.000
o.ooo
MATERIAL CODE BClOl
-0.000 SOR, ACTIVATED CARRON
-0.000 CARBON
2000.000 NONE
6.000
o.ooo
o.ooo
o.ooo
6.000
o.ooo
6.000
o.ooo
o.ooo
o.ooo
-0.000 REMOVES TOXIC GASES FROM AIR
o.ooo
o.ooo
0.000
o.ooo
o.ooo
-------�
MATERIAL CODE CA102
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE CA103
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
o MAX. OP. TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-o.ooo
-0. 000
1810.000
-o.ooo
-0.000
0.000
o.ooo
o.ooo
o.ooo
o.ooo
60.000
o.ooo
o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
2400.000
0*000
o.ooo
-o.ooo
-o.ooo
586.000
-6.000
-o.ooo
6.000
o.ooo
o.ooo
o.ooo
6.000
60.000
o.ooo
o.ooc
-o.ooo
o.ooo
6.000
o.ooo
1106.000
o.ooo
6.000
MATERIAL CODE CA1Q2
CAT, NICKEL ON REFRACTORY
NIO 20-40%? REFRACTORIES-BAL.
NONE
1/2x1/2, 3/4x3/4 INCHES
CYLINDERS; RINGS
MFG. NH3» STEAM REFORMING
MATERIAL CODE CA103
CAT, IRON+CHROMIUM OXIDES
FE203 77-81%; CR203 9-11%
CR203 9-11%
3/8X1/4 AND 1/4X1/4 INCH
TABLETS
PRODUCE HYDROGEN
-------�
MATERIAL CODE CA104
CLASSIFICATION 1
COMPOSITION 2
COST, 2CD ACTIVE 3
AVAILABLE SIZES 4
AVAILABLE SHAPES 5
CRUSH STRENGTH 6
HARDNESS 7
PORE SIZE 8
PORE VOLUME 9
SURFACE AREA 10
BULK DENSITY 11
CRYSTALLINITY 1?
CRYSTALLITE SIZE 13
MAJOR USES 14
MAJOR USES 15
VOLATILITY 16
PARTICLE DENSITY 17
MAX. OP. TfcMP. 18
ATTRITION 19
COMMENTS 20
MATERIAL CODE CA105
CLASSIFICATION 1
COMPOSITION 2
COST, 2CD ACTIVE 3
AVAILABLE SIZES 4
AVAILABLE SHAPES 5
CRUSH STRENGTH 6
HARDNESS 7
PORE SIZE 8
PORE VOLUME 9
SURFACE AREA 10
BULK DENSITY 11
CRYSTALLINITY 12
CRYSTALLITE SIZE 13"
MAJOR USES 14
MAJOR USES 15
; VOLATILITY 16
PARTICLE DENSITY 17
MAX. OP. TfcMP. 18
ATTRITION 19
.5 _ COMMENTS 20
-o.ooo
-0,000
15] 6.000
-o.ooo
-o.ooo
0.000
o.ooo
6,000
o.ooo
o.ooo
P5.000
o.ooo
o.ooo
-o.ooo
o.ooo
O.QOO
o.ooo
750.000
o.ooo
6*000
-o.ooo
-o.ooo
1*67.000
-o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
80.000
0_._QOO_
6Yo o o
-o.ooo
o.ooo
6,000
o.ooo
600.QOO
o.ooo
. 0,000
MATERIAL CODE CA104
CAT, NICKEL OXIDE ON ALUMINA
NIO 30-70%» CARRIER BAL.
NONE
1/4X1/4, 3/8X1/4
TABLETS; EXTRUSIONS
MINIMUM, 68, MAXIMUM
METHANATION
MATERIAL CODE CA105
CAT» CU»ZN,AL OXIDES ON BASE
CU,ZM,AL OXIDES
ZN OXIDES
1/4X1/4 AND 3/16X3/16 INCH
TABLETS
PRODUCE HYDROGEN
-------�
MATERIAL CODE CA201
.MATERIAL CODE CA201
CLASSIFICATION
COMPOSITION
"COST, 2CD ACTIVE
AVAILABLE SUES
" " AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP, TEMP.
ATTRITION
COMMENTS
1
1
1
1
1
1
2
3
4
5
6
7
8
9
0
1
2
3
4
-0
-0
1245
_-_6
-6
0
0
6
0
6
49
6
15
16
1
1
7
8
19
20
8JL
o
6
0
0
0
0
0
A
• ooo
• 000
.000
. ooo
.000
.000
.000
• ooo
.000
»ooo__
• ooo
.000
.000
.000
.000
.000
• ooo
.000
• ooo
• ooo
CAT.
V205
K20 1
3/16
VANADIA* K-PROMOTED
9-10%* K20 14-15%
4-15%
AND 1/4X1/4
EXTRUSIONS
EXTRUSIONf
H2SQ4
AND
56.
CONTACT
TABLETS
TABLET
CATALYST
MATERIAL CODE CA301
MATERTAL CODE CA301
CL A S S I Fl C~A TTON
___ COMPOSITION
COST/ 2co ACTIVE
_j^VATLABLE SIZES
A V A IT A 8 L E ~S H A P £s
___ CRJ.JSH_ STRENGTH
HARDNESS
PORE SIZE
"PORE VOLUME
SURFACE AREA
CRYSTALLINITY
"CRYSTALLITE SIZE
_ _ ___ MAJOR USES
- MAJOR USES
VOLATILITY
~PA~RTTCLE~ DENSITY
_ 1AX«_OP. TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
9
10
IT
12
13 ""
14
15
16
17
18
19
20
-o.ooo
-6.000
3550.000
-o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
25.000
o.ooo
o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
250.000
o.ooo
-6.000
CAT* PALLADIUM ON ALUMINA
PALLADIUM 0.09-0.11%
NONE
1/8 INCH EXT.« 4XR MESH SPHERE
EXTRUSIONSiSPHERES
EXTRUSIONS»40 SPHERES
HYDROGENATION
-------�
MATERIAL CODE CA302
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLIN1TY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE CA303
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
/ VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
~9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
5
6
7
8
9
10
11
12
13
14
15
16
17
18
"19
20
-o.
-0.
2000.
_ _ -6.
-0.
6.
0.
Q.
0*
0.
25.
6.
0.
-6.
0.
0.
000
000
000
000
000
000
000
000
000
000
000
000
000
000
000
000
MATEPTAI CODE CA302
CAT, PALLADIUM ON ALUMINA
PD 0.045-0.055%, AL203 BALANCE
NONE
1/8 INCH; *xe MESH
EXTRUSIONS} SPHERES
FOR EXTRUSIONS; 40. FOR SPHERE
HYDROGENATION
o.ooo
450.000
P«
-o.
-0.
1820.
-0.
0.
6.
0.
0.
?o!
p.
p.
0.
300.
6.
-0.
000
ooo
000
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
3-YEAR EXPECTED LIFE
MATERIAL CODE CA303
CAT* PALLADIUM ON ALUMINA
PD 0.045-0.055%* A| ?03 BALANCE
NONE
1/8 INCH; 4xa MESH
EXTRUSIONS; SPHERES
FOR EXTRUSIONS; 48. FOR SPHERE
HYDROGENATION
-------�
MATERIAL CODE CA304
CLASSIFICATION]
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAXt OP. TEMP.
ATTRITION
COMMENTS
1
MATERIAL CODE CA305
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
2
3
4
5
6
7
8
9
10
11
12
13
14
15"
16
17
18
19 ""
20
MATERIAL CODE CA304
-o.ooo CAT; PALLADIUM ON SPECIAL CRR.
-0.000 NOT GIVEN
4050.000 NONE
-6.000 4X8 MESH
-0.000 SPHERES
Q.OOO
o.ooo
o.ooo
o.ooo
0.000
40.000
o.ooo
o.ooo
-6. QOO SELECTIVE HYDROGENATION
o.ooo
6.000
o.ooo
200.000
o.ooo
-6.000 3-YEAR EXPECTED LIFE
MATERIAL CODE CA305
-0.000 CAT* NI»CO»CR ON ALUMINA
-6.000 NI,CO»CR»ALUMINA
3000.000 CO, CR
-n.ooo 1/3 INCH
-0.000 SPHERES
6.000
o.ooo
o.ooo
o.ooo
o.ooo
49*000
o.ooo
o.ooo
-0.000 SELECTIVE HYOROGENATlON
o.ooo
o.ooo
o.ooo
600.000
o.ooo
-------�
c
MATERIAL CODE CA306
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SUES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE CA401
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
"MAJOR USES
: VOLATILITY
PARTICLE DENSITY
MAx. OP. TEMP.
"ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-o.ooo
-6,000
-o.ooo
-0,000
o.ooo
o.ooo
Q.OOO
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
-o.ooo
-0,000
1400,000
-o.ooo
6.000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
0.000
-o.ooo
-o.ooo
6.000
o.ooo
o.ooo
-o.ooo
MATERTAI CODE CA306
CAT»COO* MOO ON ALUMINA
COO, MOO, ALUMINA
COO, MOO
1/16x1/8 INCH
EXTRUSIONS; TABLETS
HYDROGENATION
MATERIAL CODE CA4Q1
CAT* METAL OXIDES ON NA-AL203
CO-MO OXIDE* NI-MO OXIDE
CO-MO OXIDES
3/16 AND 1/4 IN. TABLETS
EXTRUSIONS; TABLETS
HYDROGENATION; HYORODESULFURI-
ZATlON? HYDRODENITRTFICATION
-------�
MATERIAL CODE CA601
-MATERIAL. CODE CA601.
CLASSIFICATION 1
COMPOSITION 2
"COST", 2co ACTIVE 3
AVAILABLE SUES 4
"AVAILABLE SHAPES" 5
_jCRySH__S> T RE N G T H 6_
HARDNESS" 7
____ _ PORE SIZE _8
PORE VOLUME 9~
SURFACE AREA 10
BULK DENSITY 11
CRYSTALLINITY L?
CRYSf ALl I TE~ SIZ E ~13~
__ MAJOR USES 14
"MAJOR USES 15
VOLATILITY 16
"PARTICLE DENSITY "if"
MAx. OP. TEMP. 18
ATTRITION 19
COMMENTS 20
-0.
-6.
694.
_-Q.»
-0.
0*
_o»
0.
- 0,
135.
_ J).
0.
__?6.»
6.
____ n .
o*
950.
000
000
000
ooo
000
OQO
ooo
ooo
ooo
ooo
ooo
OPP
ooo"
ooo
ooo
ooo
ooo
ooo
ooo
OOP
CAT, MIXED OXIDES
FE,K,CA,AL OXIDES
K,CA,AL OXIDES
6-10 MM
GRANNULES
REDUCED? 170 NON-RFDUCEO
..S YN T HE SIS . OF_ AMMONIA
^2_YELARS__STOR AGE \
MATERIAL CODE CA701
_MATEP1_A L _CP D E__C ATj) 1
\ AVjAlLA
^ AiiATlAD
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
1
2
4
5
6
7
8
9
10
11
12
13
14
15
16
PARTICLE DENSITY 17
c MAX. OP. TEMP. 18
ATTRITION
', COMMENTS
19
20
-0.
-0.
2000.
-6.
-0.
6.
0.
n.
0.
0.
o.
n.
0.
-0.
0.
0.
n.
2300.
0.
0.
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
600
ooo
ooo
ooo
ooo
ooo
CAT* NICKEL OXIDE ON ALUMINA
NI 4-7%» AL203 BALANCE
NONE
5/8X1-1/2
IRREGULAR
INCH
PARTICLES
STEAM-HYDROCARRON REFORMING
•
-------�
MATERIAL CODE CA702
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVF
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE CA801
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-0
. .. -0
2000
rO
-n
0
0
-0
0
6
0
0
0
-0
0
0
n
2600
0
6
-0
-0
7750
6
0
0
0
n
o
0
0
6
Q
-0
"" -6
0
0
0
0
-n
,000
.000
.000
• ooo
• ooo
jt-O.OQ
.000
«ooo
• 000
• 000
.000
.000
• 000
• ooo
.000
.000
• 000
.000
.000
.000
• 000
.000
• ooo
• ooo
.000
• ooo
.000
,000
.000
.000
• ooo
• 000
.000
.000
• ooo
.000
• ooo
.000
• ooo
.000
MATERIAL CODE CA702
CAT» CHROMIUM OXIDF ON ALUMINA
CR 4-8%; AL?03 BALANCE
NONE
5/8x1-1/2 INCH
IRREGULAR PARTICLES
STEAM-HYDROCARRON REFORMING
MATERIAL CODE CA801
CAT» NOBLE METAL ON ALUMINA
NOT GIVEN
NONE
REMOVAL OF 02 FROM N2, NH3 AND
INERT GASES
-------�
MATERIAL CODE CClOl
CLASSIFICATION!
COMPOSITION
COST, 2co ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAx, OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE CC201
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
RULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
MAX, OP. TEMP.
ATTRITION
s COMMENTS
1
2
3
4
5
6
7
8
9
10
11
1?
13
14
15
16
17
18
19
20
1
2
3
4
6
7
8
9
10
11
12
13
14
15
16
1 f
18
19
20
MATERIAL CODE CClOl
-0.000 CHR, ALUMINA, GAS REFORMING
0.000 AL203 99.5%» NA20 n.45%
1080.000 NA20 .45%
0-000 3/16 TO 3/8 (SPHERF)
0.000 HOLLOW CYLINDER, SPHERES
180.000
o.ooo
4000.000
o.ooo
?,AOO
60.000
0*000
o.ooo
0.000 GAS REFORMING
o.ooo
0.000
0*000
o.ooo
o.ooo
-0.000 RESISTANT TO STEAM AND H2
MATERIAL CODE CC201
-o.ooo CRR» CARBON-ON-ALUMTNA
0.000 AL203 89%» CARBON 11%,
0.000 NONE
o.ooo
o.ooo
o.ooo
o.ooo
40*000
.210
200.000
66.000 TAPPEOf 54 LOOSE
6.000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
6.000
o.ooo
-------�
r "
MATERIAL CODE CC301
CLASSIFICATION
COMPOSITION
COST, 2co ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE CC302
CLASSIFICATION
COMPOSITION
COST, SCO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
MATERTAI CODE CC301
-0.000 CRR« ALUM. OXIDE, FUSED (WHITE)
-0.000 AL203 88»SI02 9,CAQ 1,NA20 .52
1920.000 CAO l.» NA20 .52
o.ooo
-0.000 PELLETS
6.000
0.000
280000.000
0.000
.079
6f>.000
6.000
0.000
0.000
o.ooo
0.000
12Q.740
6.000
8.000
-0.000 MEDIUM POROSITY»COARSE GRANULE
MATERIAL CODE CC302
-0.000 CRR» ALUM. OXIDE, FUSED (WHITE)
-0.000 AL203 89,SI02 9, CAO .6» BAO .5
1260.000 CAO .6, BAO .5
o.ooo
-0.000 PELLETS
0.000
o.ooo
200000.000
0.000
.158
87.000
0.000
o.ooo
0.000
o.ooo
0*000
13*. 030
o.ooo
p.ooo
-------�
MATERIAL CODE CC303
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUMF
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE CC304
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CPYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
c MAX. OP. TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
U
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
IB
19
20
MATERIAL CODE CC303
-0.000 CRR, ALUM. OXIDE, FUSED (WHITE)
-O.QOO AL203 80«SI02 18,5, TJ02 .55
6.000 TI02 .55
6.000
o.ooo
0.000
o.ooo
120000.000
o.ooo
.270
87.000
6.000
0.000
0.000
o.ooo
n.ooo
124.800
6.000
7.000
-0.000 MED. POROSITY, TIGHT STRUCTURE
MATERIAL CODE CC304
-0.000 CRR, ALUM. OXIDE, FUSED (WHITE)
-0.000 AL203 84.5,5102 10.4»CAO .53
940.000 CAO .53
0.000
0.000
6.000
o.ooo
60000.000
o.ooo
.207
84.000
6.000
o.ooo
o.ooo
n.ooo
o.ooo
136.030
n.ooo
2.000
-------�
. CODE CC305
MATERIAL CODE CC305
(.
(
c
CLASSIFICATIOM 1
COMPOSITION 2
COST, 2co ACTIVE 3
AVAILABLE SIZES 4
AVAILABLE SHAPES 5
CPU SH_S T_RF NG_T_H_ 6_
HARDNESS 7
PORE SIZE 8
PORE VOLUME 9
SURFACE AREA 10
"BULK DENSITY n
CRYSJ ALL I.N IJ Y_12_
CRYSTALLITE SIZE 13
MAJOR USES 14
MAJOR USES 15
VOLATILITY 16
PARTICLE DENSITY 17
MAX. OP. T_EM.P._ia.
ATTRITION 1~9
COMMENTS 20
-0.000 CRR« ALUMINUM OXlDr, FUSED.
-O.OOO AL203 72*5102 22.TI02 1.8
0.000 TI02 1,8
_ Q • 0 0 0 1
0*000
0.000
.2500.00.000
0.000
96.000
CL*.QO_O_
0*000
o»ooo_
o.ooo
0.0.0.0
J5?*800
£L»J3JOJL
_-0 * 0 Q.OJE X TR A -LO_W_ POROS11Y, TIGHT... S T RU *
MATERIAL CODE CC306
MATERIAL CODE CC3Q6
CLASSIFTCATION
COMPOSITION
"CfTST, 2CO ACTIVE
__
A V A I LA 8 L E" "S HAP E S
__ CRUSH STRENGTH 6
""HARDNESS"
____ PORE SIZE 8
PORE VOLUME" "9
_ SURFACE, _ARE A 10
BULK" DENSITY
CRYST ALL INI TY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
1
2
3
4
5
6
7
-o.ooo
.-. 0*000
0*000
0*000
0*000
6*000
0*000
"CRR, ALUM'INUM'OX
AL203 8S.5»SIO?
TI02 1.8
TDP
10.
~, FUSED.
5»TI02^ 1
.8
_
> A R"f I C L E : '" D E N S I TT
MAX. OP. TEMP.
ATTRITION
COMMENTS
120000.000
o.ooo
11
12
13
U
15
16
17
18
19
20
95.000
6.000
o.ooo
0*000
0*000
6.000
147.000
o.ooo
7.000
-------�
MATERIAL CODE CC307
CLASSIFICATION 1
COMPOSITION 2
COST, 2CD ACTIVE 3
AVAILABLE SIZES 4
AVAILABLE SHAPES 5
CRUSH STRENGTH 6
HARDNESS 7
PORE SIZE 8
PORE VOLUMF 9
SURFACE AREA 10
BULK DENSITY 11
CRYSTALLINITY 12
CRYSTALLITE SI/E 13
MAJOR USES 14
MAJOR USES 15
VOLATILITY 16
PARTICLE DENSITY 17
MAX. OP. TEMP. 18
ATTRITION 19
COMMENTS 20
MATERIAL CODE CC308
CLASSIFICATION 1
COMPOSITION 2
COST, 2CD ACTIVE 3
AVAILABLE SIZES 4
AVAILABLE SHAPES 5
CRUSH STRENGTH 6
HARDNESS 7
PORE SIZE 8
PORE VOLUMF 9
SURFACE AREA 10
BULK DENSITY 11
CRYSTALLINITY 12
CRYSTALLITE SIZE 13
MAJOR USES 14
MAJOR USES 15
7 VOLATILITY If)
PARTICLE DENSITY 17
c MAX. OP. TEMP. 18
ATTRITION 19
D COMMENTS 20
MATERIAL CODE CC307
'
-0.000 CRR, ALUMINUM OXIDE, FUSED,
-O.QOO AL203 85»SI02 11,TI02 1,9
1180.000 TI02 1.9
0.000
-0.000 GRANULES
o.ooo
o.ooo
580000.000
0.000
.106
81 .000
6.000
0.000
0.000
o.ooo
o.ooo
127.700
o.ooo
3.000
-6.000 MEDIUM POROSITYtCOARSE GRANULE
MATERIAL CODE CC308
-0.000 CRR» ALUMINUM OXIDF, FUSED.
-0.000 AL203 85.5»SIO? 10.5»TI02 1,8
1220.000 TI02 1.8
6.000
-0.000 GRANULES
o.ooo
0.000
390000.000
0.000
.107
68.000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
115.300
6.000
3.000
-------�
MATRRTAL CODE CC309
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
8ULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP, TEMP.
ATTRITION
COMMENTS
MATERIAL CODE CC310
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUMF
SURFACE AREA
RULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
MAX. OP. TtlMP.
ATTRITION
5 COMMENTS
1
?.
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
n
12
13
14
15
16
17
18
19
20
MATEPTAl CODE CC309
-0.000 CRRt ALUMINUM OXIDF, FUSED.
.-0.000 AL203 84tSl02 11»TI02 2.2 . ...... ..
0.000 TI02 2.2
o.ooo
o.ooo
6.000
0.000
260000.000
o.ooo
.091
78.000
0.000
0.000
0.000
o.ooo
o.ooo
131.000
o.ooo
3.000
-0.000 MEDIUM POROSITYtOPFN STRUCTURE
MATERIAL CODE CC310
-0.000 CRRt ALUMINUM OXIOF, FUSED.
-O.QOO AL203 72tSI02 ?2«TJ02 1.8
0.000 TI02 1.8
6.000
o.ooo
o.ooo
o.ooo
300000.000
o.ooo
.202
82.000
o.ooo
o.ooo
0.000
o.ooo
o.ooo
127.200
o.ooo
• 800
-------�
.MATERIAL CODE.CC313.
-MATERIAL CODE. CC313
CLASSIFICATION 1
COMPOSITION 2
COST, 2CD ACTIVE 3
AVAILABLE SIZES 4
AVAILABLE SHAPES 5
CRUSH STRENGTH 6
HARDNESS 7
PORF SIZF 8
PORE VOLUMF 9
SURFACE AREA 10
BULK DENSITY 11
CRYSTALLTNITY 12
CRYSTALLITE SIZE 13
MAJOR USES 14
MAJOR USES 15
VOLATILITY 16
PARTICLE DENSITY 17
MAX. OP. TEMP. 18
ATTRITION 19
COMMENTS 20
-0.000 CRR» SILICON CARBIDE
-0.000 SIC 80»SI02 14.AL20? 4tNA20 ,7
1100.000 NA20 0.7
o. ooo
o.ooo
0,000
o.ooo
isonoo.ooo
0.000
.569
51.000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
78.100
0,000
R.QOO
_-_o.. ooo HIGH PO_RosiTY, ..TIGHT STRUCTURE
MATERIAL CODE CC314
_M A.I£aiAL-CQ-PE _C C 314
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUMP
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
i COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-o.ooo CRR» SILICON CARBIDE
-0.000 SIC QO»SI02 14,AL203 4.NA20 .7
1220.000 NA20 0.7
o.ooo
-0.000 GRANULES
O.QOO
o.ooo
200000.000
o.ooo
.138
71.000
0.000
o.ooo
0.000
o.ooo
o.ooo
116.700
o.ooo
3.000
-------�
MATERIAL CODE CC315
.MATERIAL.CODE CC315
CLASSIFICATION
COMPOSTTIOM
COST,"2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE CC316
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUME
SURFACE AREA
RULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
L. COMMENTS
1
?.
3
4
5
6
7
8
9
10
11
12
13
U
15
If)
17
18
19
20_
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-0.000 CRR» SILICON CARRIOE
-0.000 SIC 77,5»SI02 l5»A|_203 5.5
0.000 NOT GIVEN
0.000
o.ooo
0.000
o.ooo
240000.000
0.000
.150
69.000
0.000
0.000
o.ooo
o.ooo
0.000
113.^00
o.ooo
1.200
rJJ»_00
-------�
I *
MATERIAL CODE CC317
CLASSIFICATION)
COMPOSITION
"COST, 2co ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SUE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE CC318
CLASSIFICATION
COMPOSITION!
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUMF
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
: VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION)
COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
MATERIAL CODE CC317
-0.000 CRR, SILICON CARBIDE
-0.000 SIC 78,5102 15fAL2O3 4»CAO 1
1380.000 CAO 1.
0.000
o.ooo
6,000
o.ooo
500000.000
o.ooo
.197
67.000
o.ooo
o.ooo
0.000
o.ooo
o.ooo
116.100
0.000
3.000
-o.ooo MED. POROSITY, COARSE STRUCTURE
MATERIAL CODE CC318
-0.000 CRR, SILICON CARBIDE
-0-000 AL203 4, SIC 78,SIO? 14»CAO 1.3
1520.000 CAO 1,3
6.000
0.000
0.000
o.ooo
110006.000
o.ooo
.248
67.000
6.000
o.ooo
6.000
o.ooo
o.ooo
I03.ci00
n.ooo
5.000
-------�
MATERIAL CODE CC319
_MATEPIAL CODE. CC319
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
i
2
3
4
5
6
7
8
9
10
11
12
13
U
15
16
17
18
19
-0.000 CRR» SILICON CARBIDE
-0.000 SIC 77.SI02 16.AL203 6»K20 .55
0.000 K20 0.55
0.000
0.000
0.000
0*000
250000.000
o.ooo
.273
66.000
6.000
0.000
0.000
o.ooo
0.000
10?. 300
o.ooo
3.000
20 r_0j.OOQ_MJ:DIUM ppRosiTV»OPEN STRUCTURE
MATERIAL CODE CC320
MATEDTAL CODE CC320
CLASSIFICATION!
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
' - ATTRITION
P COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-0.
-0.
0.
0.
0.
o.
0.
160000.
o.
.
64.
6.
0.
0.
0.
o.
104.
0.
-6.
000 CRR* SILICON CARBTnE
000 SIC 59,5102 27,AL203 UtNA20 1
000 NA20 1.
000
000
000
000
000
000
306
000
000
000
000
000
000
100
ooo
poo
-------�
. .S-
MATERIAL CODE CC321
CLASSIFICATION
COMPOSITION
"COST*, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE CC322
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZF
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TfcMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
MATERIAL CODE CC321
-0.000 CRR» MULLITE
.-0.000 AL203 67»SI02_30«CAO. .7
0.000 NONE
0.000
-0.000 GRANULES
0.000
0.000
370000,000
0.000
,172
76.000
o.ooo
o.ooo
0.000
o.ooo
o.ooo
12* .000
o.ooo
2.000
-6.000 LOW POROSITY»COARSF GRANULE
MATERIAL CODE CC322
-0.000 CRRt MULLITE
-0.000 AL203 6R,SI02 29,CAO ItBAO .49
1060.000 NONE
0.000
-0.000 GRANULES
o.ooo
0.000
390000.000
o.ooo
.188
4R.OOO
.-_o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
104.200
6.000
5.000
-------�
MATERJAL CODE CC323_
MATERIAL CODE CC323
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE CC324
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
, VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
i COMMENTS
1
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-0.000 CRR« MULLITE
-0,000 AL203,69»SI02_30,NA20 .43.
1340.000 NONE
0.000
o.ooo
6.000
o.ooo
130000.000
o.ooo
.164
52.000
0.000
0.000
0.000
o.ooo
0.000
lia.OOO
6.000
s«ooo
-6.000 MED. POROSITY* TIGHT STRUCTURE
MATERIAL CODE CC324
-0.000 CRR» ALUMINUM OXIDE (SINTERED)
-0.000 AL203 88.SI02 10«TI02 .55
1060.000 TI02 .55
o.ooo
0*000
o.ooo
n.000
70000.000
0.000
• 380
63.000
O.QOO
o.ooo
0.000
0.000
o.ooo
102.300
o.ooo
• 100
-------�
MATERIAL CODE CC325
MATERIAL CODE CC325
CLASSIFICATION
COMPOSITION
"COST* 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUMF
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZF
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP, TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
U
15
16
17
18
19
20
-0.000 CRR, ALUMINUM OXIDF (SINTERED)
-O.QOO AL203 96*5102 2.4.FE203 0.64
1080.000 FE2o3 .64
0.000
o.ooo
0,000
o.ooo
20000.000
o.ooo
.737
61*000
n.ooo
o.ooo
o.ooo
o.ooo
o.ooo
94.200
n.ooo
3.000
-6.000 HIGH POROSITY* TIGHT STRUCTURE
MATERIAL CODE CC326
MATERIAL CODE CC326
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
9
in
11
12
13
14
15
16
1~7
18
19
20
-0.000 CHR* ALUMINUM OXIDF. (SINTERED)
-0.000 AL203 99.5.NA20 ,45,FF,203 .03
1080.000 NA20
0.000
o.ooo
o.ooo
o.ooo
300.000
o.ooo
S.640
60.000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
101.100
o.ooo
.700
-------�
MATERIAL CODE CC327
CLASSIFICATION 1
COMPOSITION 2
COST, 2CD ACTIVE 3
AVAILABLE SIZES 4
AVAILABLE SHAPES 5
CRUSH STRENGTH 6
HARDNESS 7
PORE SIZE 8
PORE VOLUME 9
SURFACE AREA 10
BULK DENSITY 11
CRYSTALLTNITY 12
CRYSTALLITE SIZE 13
MAJOR USES 14
MAJOR USES 15
VOLATILITY 16
PARTICLE DENSITY 17
MAX. OP, TEMP. 18
ATTRITION 19
COMMENTS 20
MATERIAL CODE CC328
CLASSIFICATION 1
COMPOSITION 2
CftST, 2CD ACTIVE 3
AVAILABLE SIZES 4
AVAILABLE SHAPES 5
CRUSH STRENGTH 6
HARDNESS 7
PORE SIZE 8
PORE VOLUME 9
SURFACE AREA 10
BULK DENSITY 11
CRYSTALLTNITY 12
CRYSTALLITE SIZF 13
MAJOR USES 14
MAJOR USES 15
7 VOLATILITY 16
PARTICLE DENSITY 17
c MAX. OP. TEMP. 1R
ATTRITION 19
5 COMMENTS 20
MATERIAL CODE CC327
-0.000 CRR, ALUMINUM OXIDF (SINTERED)
-0.000 AL203 96,SI02 ?.4, FE203 .64
0.000 FE203 .64
o.ooo
o.ooo
0.000
o.ooo
12000.000
o.ooo
.868
90.000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
13R.SOO
0.000
3.000
-o.ooo MED. POROSITY, TIGHT STRUCTURE
MATERIAL CODE CC328
-0.000 CRR, SILICA
-0.000 SI02 93,AL203 6»BAO ,4»MGO .33
0.000 BAO ,4
o.ooo
o.ooo
6.000
o.ooo
50000.000
o.ooo
.449
40.000
0.000
o.ooo
o.ooo
o.ooo
o.ooo
63.650
o.ooo
16.000 ~~ ' """
-------�
MATFRJAL CODE CC329
CLASSIFICATION
COMPOSITION)
COST, 2CD ACTIVF.
AVATLABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERTAL CODE CC330
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
2
3
4
5
6
7
8
9
in
11
12
13
14
15
Ik
17
18
19
20
MATERTAL CODE CC329
-0.000 CHR» SILICA
-0.000 SIO? 94,NA20 2.6,CA0..2»MGO ,81
6,000 NA20
6.000
-0.000 GRANULES
6,000
0.000
330000.000
0*000
.140
48.000
0,000
0*000
o.ooo
o.ooo
o.ooo
89.860
0.000
5.000
-0. 000 LOW POROSITY* COARSE GRANULE
MATERIAL CODE CC330
-0*000 CRR. SILICA
-6*000 SI02 95«NA20 3,6,Al_203 .56
0.000 NA20
o.ooo
-0.000 GRANULES
0.000
o.ooo
300000.000
o.ooo
.300
44*000
0.000
o.ooo
0.000
o.ooo
0.000
78.ftOO
o.ooo
9.000
-------�
MATERT.AL CjOOE CC331
CLASSIFICATION
COMPOSITION!
COST, 2co ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
RULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE CC332
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME.
SURFACE AREA
RULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION!
COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
ir
12
13
14
15
16
T7
IB
19
20
MATERIAL CODE .CC331
-0.000 CRR» SILICA
-O.QOO SI02 81,AL203 15,NA20 1»K20 1
1100.000 NA20 1, K20 1
o.ooo
o.ooo
0.000
o.ooo
110000.000
o.ooo
.339
60.000
0.000
0.000
o.ooo
o.ooo
o.ooo
84.900
o.ooo
5.000
-6.000 MED. POROSITY* TIGHT STRUCTURE
MATERIAL CODE CC332
-0.000 CRR» SILICA
-O.QOO SIO? 94,NA20 4,5, CAO ,59
0.000 NA20
0.000
o.ooo
o.ooo
0.000
150000.000
o.ooo
.230
54.000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
7R.*00
o.ooo
2.000
-------�
MATERIAL CODE CC333
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZF
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE CC334
CLASSIFICATION
COMPOSITION
"COST," 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
s COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
Ifl
19
20
1
?,
3"
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
MATERIAL CODE CC333
-0.000 CHR» SILICA
-0.000 SI02 95.CAO 4.95,AL203 .23
0.000 CAQ
0.000
o.ooo
0.000
0.000
25000.000
o.ooo
.644
5?. 000
0.000
o.ooo
o.ooo
o.ooo
o.ooo
API. 600
0.600
9.000
-6.000 MED, POROSITY, TIGHT STRUCTURE
MATERIAL CODE CC334
-0.000 CRR. ZIRCON
-6.000 ZR02 60.SI02 36»AL203 2«CAO .9
0.000 CAO .9
0.000
-0.000 GRANULES
0.000
o.ooo
440000.000
o.ooo
.090
96.000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
173.700
6.000
13.000
-------�
MATERIAL CODE CC335
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTAI.LTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE CC336
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
"CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
o COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
1H
19
20
MATERIAL _CO.DE CC335
-0.000 CRR* ZIRCON
-0.000 ZH02 54,5102.. 3_fl*AL?03 7»CAO .6
0.000 CAO .6
0.000
0.000
n.QOO
o.ooo
60000.000
0.000
• 310
9*. 000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
154.900
6.600
• 200
-6.000 LOW POROSITY* TIGHT STRUCTURE
MATERIAL CODE CC336
-0.000 CRR* ZIRCONIA
-0.000 ZR02 93*CAO 5*SI02 ,6,AL203 .5
0.000 CAO
6.000
o.ooo
o.ooo
0,000
120000.000
o.ooo
,163
- 121.000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
193.QOO
6. ooo
3.000
-------�
MAT.ERJLAL . CODE .CC337
MATERIAL CODE CC337
CLASSIFICATION!
COMPOSITION
"COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRljSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUMF
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION!
COMMENTS
MATERIAL CODE CC338
CLASSIFICATION
COMPOSITION!
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TF.MP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
9
10
11
1?
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-0.000 CRR» ALUMINUM OXIDF (SINTERED)
-0.000 AL203 96»SI02 2»4»FE203 .64
1220.000 FE203 .64
0.000
0.000
0.000
0.000
0.000
• 180
.577
76.000
6.000
o.ooo
o.ooo
o.ooo
0.000
66.ROO
o.ooo
0.000
-0.000 EXTRA-HIGH POROSITY»FINE PORE
MATERIAL CODE CC338
-0.000 CRR, ALUMINUM OXIDF (SINTERED)
-O.QOO AL203 96»SI02 2«4»FE203 .64
0.000 FE203 .64
0.000
o.ooo
o.ooo
0.000
0*000
• 140
.340
80.000
o.ooo
o.ooo
0.000
o.ooo
6. ooo
73.100
6.000
o.ooo
-------�
MATERIAL CODE CC339
MATERIAL. CODE_CC339
CLASSIFICATION
COMPOSITION
"COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
PARTICLE DENSITY
MAx. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE CC340
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
o MAx. OP. TEMP.
ATTRITION
<. COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11 ~
12
1 3 ~ ~
U
15 "
16
17
18
19
20
-0.000 C«R» ALUMINUM OXIOF (SINTERED)
-0.000 AL203 96»SI02 1.3,CAO ] .2
0.000 CAO 1.2
0.000
o.ooo
0.000
0.000
0.000
• 230
?.300
74.000
6.000
0.000
o.ooo
0,000
o.ooo
74.900
o.ooo
0.000
-0.000 EXTRA-HIGH POROSITY, FINE PORE
MATERIAL CODE CC340
-0.000 CRR, ALUMINUM OXIDE (SINTERED)
-0.000 AL203 99,NA20 ,5,FF?03 .04
O.OOO NA20 .5
o.ooo
o.ooo
o.ooo
o.ooo
0.000
.300
4.&90
7B.OOO
6.000
o.ooo
o.ooo
o.ooo
6.000
71.200
o.ooo
6.000 '" " "
-------�
MATERIAL CODE CC341
CLASSIFICATION
COMPOSITION
"COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE CC342
CLASSIFICATION
COMPOSITION
COST, 2co ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACF AREA
RULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
MATERIAL CODE CC341
-0.000 CRR, ALUMINUM OXIDE (SINTERED)
-0.000 AL203 82»SI02 9.5,M60 3,BAO 2
0.000 MGO 3.
0.000
0.000
h.ooo
o.ooo
0.000
.140
.555
84.000
6.000
o.ooo
o.ooo
o.ooo
0.000
69.950
6.000
o.ooo
-0.000 EXTRA-HIGH POROSITY* FINE PORE
MATERIAL CODE CC342
-0.000 CRR, ALUMINUM OXTDF (SINTERED)
-0,000 AL203 99.8,5102 ,OR,FE203 .04
O.QOO NONE
0.000
o.ooo
0.000
n.ooo
0.000
• 220
T.400
75.000
6.000
o.ooo
o.ooo
o.ooo
6.000
80.000 .
o.ooo
o.ooo
-------�
MATERIAL CODE CYlOl
.MATERIAL CODE CYlQl
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUMF.
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-o.ooo
-o.ooo
370.000
- o.ooo
-o.ooo
6»j)00
o.ooo
o.ooo
.720
500.000
27.000
o.ooo
o.ooo
o.ooo.
o.ooo
16.000
o.ooo
o.ooo
o.ooo
o.ooo
CAT* MOLECULAR SIEVE
SI02 86»AL203 14, FF .05
FE .05
150 MICRONS MAX.
POWDER
MINIMUM; .78
MINIMUM; 650
MINIMUM, 35 M
CRACKING
MAXIMUM
MAXIMUM
AX I MUM
_ .
MATERIAL CODE CY102
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUMF
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZF
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
s COMMENTS
2
3
4
5
6
7
8
9
10
It
12
13
14
15
16
17
18
19
20
-n.ooo
-0,000
370.000
n.ooo
0.000
0.000
0.000
0.000
»R40
450.000
24.000
o.ooo
0.000
o.ooo
o.ooo
i s . o o o
o.ooo
o.ooo
o.ooo
o.ooo
CAT, MOLECULAR SIEVE
SI02 74,AL203 ?6*FF ,05
FE .05
MINIMUM; .92 MAXIMUM
MINIMUM; 600 MAXIMUM
MINIMUM, 30 MAX.
CRACKING
-------�
MATERIAL CODE CY103
CLASSIFICATION
COMPOSITION
"COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
RULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP, TEMP.
ATTRITION
COMMENTS
MATERIAL CODE CY104
CLASSIFICATION
COMPOSITION
COST, SCO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
"" MAJOR USES
VOLATILITY
~~ "PARTfCLE DENSITY"
MAX. OP. TEMP.
ATTRITION
s COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
1R
19
20
-0.
0.
370.
6-
-0.
0.
0.
6.
•
6.
27.
6.
o.
6.
0.
13.
0.
0.
16.
6.
-0.
-0.
370.
0.
-0.
0.
0.
0.
*
330.
33.
n.
0.
0.
0.
l?.
0.
0.
l?.
0*
000
000
000
000
000
000
000
000
890
000
000
000
000
000
000
000
ooo
000
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
570
ooo
ooo
ooo
ooo
ooo
ooo
500
ooo
ooo
000
ooo
MATERIAL CODE CY103
CAT, MOLECULAR SIEVE
SI02 74,4%; AL203 2596; FE .04%
FE .04
60 MICRONS
POWDER
CRACKING
PER CENT. 1 HOUR
MATERIAL CODE CY104
CAT. MOLECULAR SIEVE
SIO? 66, AL203 34, FE ,12
FE .12
63 MICRONS
POWDER
— . ...
CRACKING
-------�
MATERIAL CODE CY105
MATERIAL. CODE__CY105
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE CY201
CLASSIFICATION
COMPOSITION
COST, 2co ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
POME VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
MAX. OP. TtMP,
" ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-0.000 CAT. MOLECULAR SIEVE
-0.000 AL203 14%» FE ,05%, NA20 .02%
370.000 FE .05
0.000
o.ooo
0.000
o.ooo
o.ooo
.720
500.000
?7.qOO
0.000
0.000
-6.000 FLUID CRACKING
o.ooo
If.. 000
0.000
0.000
o.ooo
o.ooo
MATERIAL CODE CY201
-0.000 CAT* MOLECULAR SIEVE
-0.000 SIO? 85, AL203 15, S04 .3
370.000 NONE
-6.000 63 MICRONS
o.ooo
o.ooo
o.ooo
o.ooo
• 600
575.000
3?«000
6.000
o.ooo
0.000 CRACKING
o.ooo
12.000
0,000
o.ooo
14.000 PER CENT, 1 HOUR
-------�
c __
MATERIAL CODE CY302
CLASSIFICATION
COMPOSITION
" " * COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE CY401
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVF,
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
: VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
s COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-o.ooo
.. o.ooo
1900.000
._0.«000
o.ooo
6.000
o.ooo
o.ooo
• ftOO
200.000
3S. 000
n.ooo
o.ooo
o.ooo
o.ooo
0.000
o.ooo
700.000
o.ooo
-o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
-o.ooo
16.000
o.ooo
o.ooo
6.000
o.ooo
35.000
O.QOO
o.ooo
o.ooo
o.ooo
3.SOO
o.QOO
o.ooo
o.ooo
-o.ooo.
MATERIAL CODE CY302
CAT, NI-MO
M0(0)3 15%; NIO 3.1%?
NIO 3.1%
U16.TO 1/8 .mCM-JDlAM... . ..
HYDROGENATION; DESIILFURIZATION
SUBSTRATE NOT SPECIFIED
MATERIAL CODE CY4Q1
CAT, PLATINUM
PT-AS SPECIFIED; FE .025%
FE .025%
1/16 INCH DIAM.
EXTRUSIONS
POURED
REFORMING_NAPHTHAS
2300F
-------�
.
)
}
J '
I)
>
~N
. y
C
^
J
-'
^
0
}
-s,
7
^ 6
s
-
MATERIAL CODE CY501
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SUES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACF AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAx. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE CY601
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
POHE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
8
9
10
11
12
13
14
15
16
17
18
19
20
-o.ooo
-o.ooo
370.000
-0.000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
2PO.OOO
34.000
0,000
0.000
0.000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
-o.ooo
o.ooo
370.000
o.ooo
o.ooo
4S.OOO
o.ooo
o.ooo
o.ooo
0.000
36.000
6.000
o.ooo
o.ooo
o.ooo
9.400
o.ooo
o.ooo
o.ooo
-o.ooo
.
MATERIAL CODE CY501
CAT, VANADIA-STLICA
V205 6.1, K20 10. fl, SI02 62.
K2Q 10.8%
95 PER CENT FINER THAN 149 MU.
MEG OF PHTHALIC ANHYDRIDE
MATERIAL CODE CY601
CATt VAMADIA, SULFllPlC ACID
V20S 9.19S, K20 10,1%? FE .45%
K20 10.1%
5/16X1/4 INCH
PELLFTS
AVERAGE OF 25 PELLFlS
CONTACT SULFURTC ACID PROCESS
1470F
-------�
MATERT'AL COPE CY?oi
C Y_7.0
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
1
2
3
4
5
6
7
8
9
10
11
-0
•_ -o
1900
-0
,
,
•
,
0,
1R.
0
0
25a
,
•
•
•
000
ooo
000
ooo
ooo
400
ooo
ooo
540
ooo
ftOO
CAT,
MOO 3
C003
.248
COBALT-MOLY
15.7, COO 3
3.
IN
2
. LENGTH,
BDENA CA
• 2.__NA20
,134 IN
TAL
..-•-0
. D
YST
2
IA.
CRYSTALLTNITY 12
CRYSTALLITE SIZE 13
MAJOR USES 14
MAJOR "USES "is"
YPL.AT ILIT Y_l 6
PARTICLE DENSITY 17
MAX. OP, TEMP. 18
0,000
0.000
- Q . 0 0 0 . DESUL FUR IZ A T.I ON ,._ HYDROGEN A TI ON
-0.000 REDUCES S2 AND N2 IN PETROLEUM
ATTRITION 19
COMMENTS 20
O.OOO
1000.000
O.QOO
JLiOOO.
MATERIAL CODE CY702
MATERIAL CODE CY702
-\
'^
CLASSIFICATION
COMPOSITION
COST, 2co ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
PULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTTCLE DENSITY
e MAX. OP, TEMP.
ATTRITION
s COMMENTS
1
2
3
4
5
6
7
R
9
10
11
12
13
14
15
16
17
IB
19
20
-o.ooo
-o.ooo
1900.000
-o.ooo
o.ooo
14.200
o.ooo
O.QOO
• 540
255.000
32.600
o.ooo
o.ooo
-6.000
-o.ooo
1.400
o.ooo
1000.000
o.ooo
o.ooo
CAT, COBALT-MOLYBDENA CATALYST
M003 15.7, COO 3.0, NA20 .02
C003 3.0
.18Q IN, LENGTH, ,669 IN, DIA,
DESULFURIZATION, HYDROGENAT ION
REDUCES S2 AND N2 TN PETROLEUM
-------�
MATERIAL CODE DGlOl
_MAIE,R i AL_
CLASSIFICATION
__ _ .
COST, ?"CO ""ACT I'VE
AVAjLABLF SIZES
AVAILABLE SHAPES
__CJLUSH._S TR E N G T H
HARDNESS'
_____ PORE _SIZE
" PORE VOLUME
__ SURFACE AREA
BULK'DENSITY
_ CJ? Y 51 A L L T_N I T v
"CRYSTALLITE SIZE
_____ MAJOR USES
" MAJOR" USES
____ .VOL A mi TV
"PARTICLE DENSTTY
MAX* OP.
]
2
"3"
_4
5
6_
7
8
"9"
10
Ti
l 2
13
14
-o
~124~n
ft
0
o
g
8
• 000
• ooo
.000
• oo.o
• ooo
• ooo
.000
.000
.430
.000
.000
.•.o.oo.
.000
•_0 Q 0
SOR, SILICA GEL
_S 102 .99 • 71.%
NONE
3 TO 8 _(TYLEP SIEVE)
IRREGULAR" GRANULES
_
ATTRITION
COMMENTS
15
16
17
i 8_
19
20
.000
• 500
. GAS_. DRY
1,750 .PEG...F
.ooo
•J)QO
.060
•.O.PJL
MATERIAL CODE DG102
MATERIAL CODE DG102.
J
CLASSIFICATION
COMPOSITION
COST, 2co ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
RULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
e MAX. OP. TEMP,
ATTRITION
s COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14 •
15
16
17
18
19
20
-0.
-0.
620.
-0.
-0.
0.
0.
0.
.
800.
45.
o.
0.
-6.
-0.
6-
0.
6.
0.
-0.
ooo
ooo
000
ooo
ooo
ooo
ooo
ooo
430
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
SOR,
SI02
NONE
3 TO
SIL
99.
8 {
ICA
7»
GEL
AL203 .10» TI02 .09
TYLER SIEVF)
GRANULAR
AIR
POSS
AT 1
ALSO
AND
I8LE
750
GAS
DRYING
CATALYST OR CARRIER
F
USED I
-------�
MATERIAL CODE DG103
MIER. LA L_CJDQE_. D_G 1Q 3
CLASSIFICATION 1
_C 0 M p 0 Sj T 1 0 N | _ 2
" "
__ _
"cosT, "2cn i "ACTIVE
__*y AJ LAB L E SUES
AVAILABLE SHAPES
_ CRlj SH_ST RE N GT H
HARDNESS
____ PORE SI_ZE
PORE VOLUME
SOR, SILICA GEL
SI02 99,7» _ALP.Q3. ,1
NONE
8_TO_14 (TYLER SIEVE). _
GRANULAR
TI02 .09_
400
SURFACE AREA
BULK DENSITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION!
1
1
1
1
1
1
1
1
0
1
3
4
5
7
8
9
750
45
0
0
-0
-0
^
0
0
0
•
•
*
•
•
•
.
.
.
ooo
ooo
ooo
ooo
ooo
III
ooo
ooo
ooo
AIR
POSS
AT 1
AND GAS DRYING
I8LE CATALYST OR
750 F
CARRIER
COMMENTS 20
-0
•_o.oo_
ALSO., USED._Ij\|. L T Oi.l I OS.
MATERIAL CODE DG104
MATERIAL CODE OG104
I 3
'J
3
CLASSIFICATION
COMPOSITION
COST,, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
? VOLATILITY
PARTICLE DENSITY
e MAX. OP, TEMP,
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-n.QOO
1100. 000
-o.ooo
-o.ooo
0,000
o.ooo
o.ooo
.430
800.000
4ft. 000
o.ooo
o.ooo
-o.ooo
-o.ooo
5.500
o.ooo
o.ooo
o.ooo
-o.ooo
SOR, SILICA GEL
SI02 99. 7» AL203 ,io» TI02 ,09
NONE
6 TO 16 (TYLER SIEVE)
GRANULAR
AIR AND GAS DRYING
POSSIBLE CATALYST OR CARRIER
AT 1750 F
-------�
MATERTAL CODE OG105
OG 10_5.
CLASSIFICATION 1 -0-000 SOR, SILICA GEL
J ION 2 -Q..OQQ Siga_99..7_»_A_l«.2n.3__.1.0_i_TI02_...0?_
COST, 2CD ACTIVE
_.__
AVAILABLE SHAPES
CRUSH STRENGTH
3
A
5
6
7
HARDNESS
._ PORE SIZE 8 O.QOO
" PORE VOLUME 9 '.330
SURFACE AREA 10 _600-000
BULK DENSITY 11 4ft.000
CRYSTALLIN i T Y_I ? __g ^ Q_O.P_
0.000 NONE
-0 • 000_ 8 .10 _30. (TYLER, S.I.EV.EL)
-0.000 GRANULAR
_ _n_..Q 00
0.0 00
CRYSTALLITE SIZE 13 0.000
MA_4PR_usEs U -g.QQO AIR AND GAS DRYING
MAJOR USES \5 -"ri.OOO USED" AS CAT™IN~ LIQ PROCESSES
yQL/ATlL_ITY_16_ 4.400 AT_J.J50_F_
PARTICLE "DENSITY i'i 6«ooo
MAX. OP, TEMP^ 18 fL.O_QO_ . .
ATTRITION 19
COMMENTS 20
0.000
0.000.
MATERIAL CODE DG106
MATJEPJAU CODE
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
PULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
6 MAX. OP. TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
9 -
10
11
12
13
14
15
16
17
IB
19
20
-0
-0
0
-6
-0
0
0
0
750
0
0
-0
-0
0
0
0
-6
.000
.000
.000
.000
.000
.000
• 000
.000
.400
.000
.000
.000
.000
.000
• 000
.500
.000
.000
• 000
.000
SOR, SILICA
SIO? 99. 7»
GEL
AL203 .10, TI02 .09
NONE
12 TO 28 (TYLER SIFVE)
GRANULAR
AIR AND GAS
•WIDELY USED
AT 1750 F
SOME USE AS
DRYING
AS SOR WITH LIQS
-------�
MATERIAL CODE DGlO?
_MAtERIAUCODE_.DG1.07.
3
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
' CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
...
1
1
1
1
1
1
1
2
3
4
5
6
7
8
9
0
1
2
3
4
5
6
17
18
19
20
-0
-6
820
-6
-0
0
0
0
aon
45
6
0
-0
-0
.
.
.
.
.
.
.
.
.
.
.
.
.
•
0*
6.
o.
-Q_.
000
000
000
000
000
QOO
000
ooo
430
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
SOR,
SI02
NONE
6 To
SIL
99.
1?
GRANULAR
AIR
LIMI
AT 1
AND
TED
750
ICA
7,
(
GEL
AL203 .10, TI02 .09
TYLER SIEVF)
GAS
USE
F
POSSIBLE
DRYIN.G
W
USE
ITH LIQUIDS
AS. CALALYST^
MATERIAL CODE OGlOB
3
CLASSIFICATION" f
COMPOSITION 2
c o sT, 72 c D ACT i v E 3"
AVAILABLE SIZES 4
AVAILABLE SHAPES 5
C R US H_S T R E N G T H 6_
HARDNES5~:"7
PORE SIZE _8
PORE"VOLUME 9
SURFACE AREA__1_0_
BULK" DENSITY 11"
CRYSTALLINITY _12
"CRYSTALLITE ~sfZE 13"
M_AJCm_USES._i4L
MAJOR US"ES~15
VO LA T IJ-1T Y__l 6
P A RTIC L E" D E N STt Y 1 T
..JIMS—OP- TEMP, 18
AffRTT"l'ON~l9"
COMMENTS 20
-0
__-6
640
__-0
-o
6
o
o
150
*5
6
6
__r_6
-o
5
—is.-
0
-0-
0
0
• ooo
• 0 0.0.
.000
_s_0.00_
.000
•-O.P.Q.
.000
• oo_o.
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NONE
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.AIR _AND_GAS _DR YING _
"F'OS SIB L E C A T A L Y S T 0 P C A R R f E R"
-------�
MATERIAL CODE OG109
_KATER_IA L_CQDE_DG1 Q9
c
CLASSIFICATION
COMPOSITION
COST, 2cr> ACTI\/'E
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SUE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAx. OP. TEMP.
ATTRITION
COMMENTS
1
2
3 1
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-0.000
-n.ooo
100.000
__- o.ooo,.
-o.ooo
O.QOO
o.ooo
o.ooo
.430
800. 000
46.QOO
o.ooo
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-o.ooo
-o.ooo
f.OOO
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o.ooo
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SOR, SILICA GEL
SI02 99. 7» AL203 ,10» TI02 .09
NONE
28..TO 200 JTYLFR_SJEVE)
GRANULAR
SELECTIVE ADSORPTION- USED FOR
LIQUID OR GAS PHASF SEPARATION
AT 1750 F
MATERIAL CODE DGllO
MATERIAL CODE DGllO
~\
CLASSIFICATION 1
COMPOSITION 2
COST, 2CD ACTIVE 3
AVAILABLE SHAPES 5
CRUSH STRENGTH 6
HARDNESS 7
PORE SIZE 8
PORE VOLUME 9
SURFACE AREA 10
BULK DENSITY 11
CRYSTALLITE SIZE 13
MAJOR USES 14
MAJOR USE.S 15
7 VOLATILITY 16
PARTICLE DENSITY 17
s MAX. OP, TEMP. 18
ATTRITION 19
5 COMMENTS 20
-0,000
-6.000
4800.000
-o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
,430
800.000
26*000
6. ooo
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-o.ooo
ft.OOO
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SOR, SILICA GEL
SI02 99.7, AL203 .in, TI02 .09
NONE
20 TO 65 (TYLER 5IFVE)
GRANULAR
SELECTIVE ADSORPTION- USED FOR
LIQUID OR GAS PHASE SEPARATION
AT 1750 F
-------�
MATERIAL CODE DGlll
MATERIAL CODE DGlll
-A
J
CLASSIFICATION
COMPOSITION
COST, 2co ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP,
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-0.000
-o.ooo
9800.000
-o.ooo
-o.ooo
0.000
o.ooo
o.ooo
.430
800.000
44.ROO
6.000
o.ooo
-o.ooo
-o.ooo
6.500
o.ooo
o.ooo
o.ooo
o.ooo
SOR, SILICA GEL
SI02 99. 7» AL2D3 .10* TI02 .09
NONE
35 TO 60 (TYLER SIFVE)
GRANULAR
AT 1750 F
SELECTIVE ADSORPTION- USED FOR
LIQUID OR GAS PHASE SEPARATION
MATERIAL CODE OG112
MATERIAL CODE DG112
-1
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA 1
BULK DENSITY 1
CRYSTALLTNITY 1
1
2
3
4
5
6
7
8
9
0
1
2
-o.ooo
-0*000
o.ooo
-o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
1.150
300.000
24.000
6.000
SOR, SILICA GEL
SI02 99.7, AL203 ,10, TI02 .09
NONE
35 TO 60 (TYLER SIEVE)
GRANULAR
CRYSTALLITE SIZE 13 Q.QOO
_MAJOR USES _U_ -6.000 SELECTIVE ADSORPTION- USED FOR
MAJOR USES 15 -0.000 .LIQUID OR GAS PHASE SEPARATION
_. 1? LATILITY_16 4.5.00 AT 1750_F
PARTICLE DENSITY 17 ~Q.~6ob
MA_X • _OP .. JEM_P , 1 8 _Q .000
ATTRITION""!?" " 6.006
CQM_MENJ_S__2p. 6.000
-------�
MATER IAL CODE DG113 . JMAJJLP_iAL_CQpE. DG113
CLAS'SIFICA'TION " i ~ ~ -o.ooo SOR, SILICA GEL"
3 COMPOSITION^ 2 ^p.OPP SI02 ?9_,7i_jftL20.3_.TOji TI02 .09
cost, "2CD""ACTIVE "3" Tsoo.ooo" NONE"
AVAILABLE SIZES 4 -p.ooo eo TO'200 (TYLER SIEVE)
3 AVAILABLE SHAPES 5 -O.OOO GRANULAR
_JCJ^^H^SJ[_RE_NGTH_ _6 O.OOO
HARDNESS""7~ " o.ooo "
"•! PORE SIZE 8 0»OQO _ _
PORE VOLUME 9 I«l50
SURFACE AREA 10 _ 340.000^
3 "BULK DENSITY 11 ?s.ooo
CRYSLALLJ N i T Y _12 o^p o o
CRYSTALLITE "SUE" 131 " Q.p'OO
3 MAJpR_USES_U -0._OOp_SELECTlVE ADSORPTION- USED FOR
MAJOR" USES IB "-"o.ooo LIQUID OR GAS PHASE SEPARATION
VOLATILITY 16 6-500 AT 1750 F
3 PARTICLE DENSITY 17 0.000
Mb*j>__OP•_JE_MJP._J.8 p_. Q.P0
ATTRITION f9 " "p.OOb""
20 6.000 ' _ '
MATERIAL CODE DG114 ~ MATEPIAL_C.QDE..DG1 _14
"\
~CiASSTFICA~TIONJ 1 "«o".QO"6 SORrSlL'lCA GEL
jCOMppSiTIO_N__ 2 rO«.0.00_.S.l02..99...7jL__AU?Q_3_.. 16 •_ TI02_ ,.0_9
) COST,,2CD ACTIVE 3 5500.000 NONE
ftV AIL A8 LE_S IJ. E S_4_ - Oj,_Q 0 0_ 2 0 0_ J 0_ 3 25_JHL E R_ SJ EV E)
AVATLABLE SHAPES 5 ~ -0.000 GRANULA~R
3 CRUSH STRENGTH 6 Q.OpO
"HARDNESS""? ~ "o.ooo
PORE SIZE_ 8_ _ _ 0.000
") PORE VOLUME 9 .450
SURFACE AREA_IO 8p^Q°L0
"B'CO D EN'S IT Y 11 "4§.000~
- CRYSTALLINITY 12 o.ooo
CR'YSTALLITE" SIZE 13 " 0
.MAJOR USES 14 -O.OpO_SELECTiyE_ApSORPTIpN- USED FOR
) ~ MAJOR" USES""15"" ~-p."p66 LIQUID OR GAS'PHASE SEPARATION
_T _ VOLATJLITY_16_ fiiJQOO.
PARTICLE DENSITY 17 6.600"
; _= !!AJfj?_PP« TE^^'^L8 0«00°
ATTRiTiON 19 oTo"00~
-------�
MATERIAL CODE DG115
_M ATJERIAL _.C.ODE Q_G 115
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAx, OP, TEMP,
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
H
15
16
17
18
19
20
-0,000
-o.ooo
11900.000
-o.ooo
-p. ooo
o.ooo
o.ooo
o.ooo
.400
700.000
4*. 000
o.ooo
o.ooo
-o.ooo
-o.ooo
ft, ^00
O.QOO
6.000
o.ooo
6.000
SOR, SILICA GEL
SI02 99, 7» AL203 ,10» TI02 ,09
NONE
100 TO 200 (TYLER SIEVE)
GRANULAR
SELECTIVE ADSORPTION- USED FOR
LIQUID OR GAS PHASP SEPARATION
AT ^750 F
MATERIAL CODE DG116
MATERIAL CODE DG116
J
J
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
s MAX, OP. TEMP,
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-o.ooo
-6.000
4950.000
-0.000
-0.000
6.000
o.ooo
o.ooo
• 400
706.600
4ft. 000
6.000
o.ooo
_ -o.ooo
-0.000
ft.c;00
o.ooo
o.ooo
0,000
o.ooo.
SOR, SILICA GEL
SI02 99, 7» AL203 .10. TI02 ,09
NONE
60 TO 200 (TYLER STEVE)
GRANULAR
SELECTIVE ADSORPTION- USED FOR
LIQUID OR GAS PHASE SEPARATION
-------�
MATERIAL CODE DG117
MATES IAL__CQD E _DG 1.17
CLASSIFICATION 1 -0.000 SOR, SILICA GEL
__ CO M P OS IT ION 2 - g, 0.00 _S 10 2 9 9 . 7_? _A L 2 0 3 _, L0_ 110 2 . _0 9
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
0.000
-o.ooo
-0.000
n.ooo
o.ooo
0,000
o.ooo
o.ooo .
46*000
o.ooo
o.ooo
-o.ooo
o.ooo
6.500
o.ooo
0.000
o.ooo
-o.ooo
NONE
8 (TYLER SIEVE)
GRANULAR
... .
DESSICANT
COLORED LT. BROWN
MATERIAL CODE DG118
MATERIAL CODE DG118
CLASSIFICATION
COMPOSITION
COST,, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
6 MAX. OP, TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
9
10
Tl ~
12
13
14
15
16
17
18
1 9"" "
20
-o.ooo
-6.000
0.000
-6.000
-o.ooo
o.ooo
5.000
o.ooo
o.ooo
o.ooo
48.100
-o.ooo
o.ooo
-0.000
-o.ooo
16.000
137.300
o.ooo
0,000
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SOR, SILICA GEL
SI02 99. 7» AL203 .(<)• TI02 .09
MONF
80 (TYLER SIEVE)
GRANULAR
MOH SCALE
AMORPHOUS
SOURCE OF SI02 IN CHEM REAX
ANTj-CAKING AGENT
AT 1750 F
-------�
MATERIAL CODE DG119
A L __C Q 0 E_p_G.l.l9.
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
RULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
I
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-o.
-0.
1240.
-o.
-0.
6.
0.
0.
0.
6.
4R«
6.
0.
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0.
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0.
6.
0.
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000
000
000
000
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000
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SOR, SILICA GEL
SI02 99, 7» AL203 ,10» TI02 .09
NONE
6 TO 16 (TYLER SIEVE)
GRANULAR
INDICATING DESICCANT
AT 1750 F
CHNGES COLOR AS HUMIDITY CHNGS
MATERIAL CODE DG120
MATERIAL CODE DG120
O
CLASSIFICATION 1
.COMPOS !TION_ J?
2CO ACTIVE 3"
AVAILABLE SIZES 4
-0
-
AVAILABLE SHAPES 5
_ CRUSH STRENGTH _6
HARDNESS'' Y
___ PORE SIZE 8
PORE "Vb'CUME" "9"
____SU Rf_AC E _A R E : A _1 0
BULK DENSITY IT
_ CRYSTALLINITY 12_
CRYSfALLIT"E~SI"ZirT3
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6.
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SI02 99,7» AL203 .if), TI02 .09
NONE
li_IO_20 JlTYLER_S_IFAV_E)
GRANULAR
o.
_0..
47.
0.
_._ _
MAJOR USES 15
PARTICXE DENSITY 1~7
MAX. OP. TEMP. 18
"ATTRITION"! 9
COMMENTS 20
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0.
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606
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-------�
MATERIAL CODE OG121
-.M.AIERI.AL. CODE _OG 12.1..
,000
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CLASSIFICATION 1 -0
.COMPOSITION 2 -Q
"COST, ~2CD~ ACTIVE " 3 1600
.AVAILABLE SIZES 4 -0
AVAILABLE SHAPES 5 -0
CRUSH STRENGTH _ 6__ Q
"HARDNESS" 7 o
PORE SIZE s_ n
"PORE VOLUME " 9 "~" o
SURFACE AREA 10 0
BULK DENSITY"!T"" ""47
_ CRYSTALLINITY. 12 o
CRY'STALLITE SIZE 13 o
MAJOR USES 14 -o
" MAJOR USES'" 15" 6
__ VOLATILITY 16 _ 5
PARTICLE "DENSITY T?6.ooo
MAx._OP._TEMP. 18 0_.0_OCL
ATTRlTiW"i9~ " ~6.000
CJ)M_M_ENTSj2p 0. OQO
.000
.000
.000
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.000
• ooo
.000
.000
,000
..oo.o.
.060
.• .0 0 0
.000
•60.0.
SOR, SILICA GEL
SI 02 99.71 AL2Q3 .(o» TJ02
NONE
.3. TO 8
-------�
,J
MATERIAL CODE OG123
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTMITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOL/ATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE DG124
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
E VAIL ABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
RULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR "USES"
7 VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
s COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-o.
-0.
700.
-0.
-o.
0.
o.
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1.
340.
6.
0.
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0.
0.
6.
0.
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700.
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500
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MATERIAL CODE DG123
SOR, SILICA GEL
SI02 99, 7» AL203 .10* TI02 ,09
NONE
3 TO 8 (TYLER SIEVF)
GRANULAR
DESICCANT
AT 1750 F
VERY POROUS
MATERIAL CODE DG124
SOR, SILICA GEL
SI02 99.7. AL203 ,]0» TI02 .09
NONE
325 (TYLER SIEVE)
GRANULAR .
_AllLL-lC_AKING__AGENT
AT 1750 F
A
-------�
MATERIAL CODE DG125
MATERIAL CODE DG125
CLASSIFICATION
COST, 2CD ACTIVE
—AVAILABLE ^SIZES_
AVAILABLE "SHAPE'S
CRUSH ST RE N G T_H_
HARDNESS
PORE SIZE_
"" "POR'E VOLUME
SURFACE AREA_
BU'LK "DENSITY'
_CR_Y ST A_LL INIT Y_
CRYSTALLITE "SIZE
MAjJORjJSEs
' '"MAJOR USE'S'
VOLATILITY
PARTICLE 'DENSITY"
MAX. O'P. j£M_P._
ATTRITION'
COMMENTS
1
2
3
4
-Q
5
_ 6
"7
9~
10
"11
12
T3
14
15'
16
17
IB
,000 SOR, SILICA GEL
•OQQ SI02 99.7j AJ-_2Q3L_»10» Tip? ..09
.060 MONE
,000 50 T0_ 20J) (TYLER ST.EVEL
.000 GRANULAR
37
0
-0
_R
o
20
• 000
•.000
.700
• 600
,000
• o_P_Q_
.000
• o p_p_
• 006
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,060"
.QOJL
• doo
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D§SICCANT» POSSIFiLf-; USE AS
OR"" A S~S EL E CT i V E " A 0 S 0 R B A N f ""
AT 1750 F
CAR
MATERIAL CODE DG126
MATERIAL CODE DG1H6
3 •
-J
3
J
J
7
"; s
5
CLASSIFICATION
COMPOSITION
COST,, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
1
2
3 •
4
5
6
7
a
10
11
12
13
14
15
16
PARTfCi:E~DENSTTY~ 17
MAX. OP. TEMP. 18
ATTRITION
COMMENTS
19
20
-0
-6
770
-6
-0
6
0
0
0
0
65
6
0
-0
0
68
0
6
0
0
,
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.
.
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.
.
.
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,
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.
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000
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000
000
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sir>2
NONE
100
SILICA GEL
99.7. AL203 .10, TI02 ,09
(TYLER MESH)
GRANULAR
USED
AT 1
TO INTRODUCE H?0 TO SYSTM
750 F
-------�
MATERIAL CODE DG127
_M A1E9J AL_COO_E..DG 12.7.
CLASSIFICATION 1 -0.000 SOR, SILICA GEL
_PJP.M p °_?i TJ.9.N. _. _ 2. T .0 • 0 P. 0 _ S.I 0 2 .? 9 . 7j A L 2 0 3. __. 16 t__.T 1.02
,09
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
3
4
5
6
7
8
9
10
11
12
13
U
15
16
5900.000
-o.ooo
-o.ooo
o.ooo
o.ooo
O.QOO
.750
551.000
31.000
o.ooo
o.ooo
-o.ooo
o.ooo
12.000
NONE
250 (TYLER SIEVE)
GRANULAR
CHROMATOGRAPHIC SEPARATION
AT 1750 F
"\
PARTICLE DENSITY 17 0-000
MAX. OP. _J E MP\ 18 0. OJOO___
ATTRITION' 19 ~ oTooo
COMMENTS 20 6.000
MATERIAL CODE OG201
MATERIAL CODE DG201
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE Sl/ES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE StZE
PORE VOLUMF
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
6 MAX. OP. TEMP.
ATTRITION
5 COMMENTS
" r "
2
3
4
5
6
7
a
9
10
1]
12
13
14
15
16
17
18
19
20
-o.ooo
-O.QOO
3700.000
-o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
• 600
3?5.000
3?. 000
o.ooo
o.ooo
o.ooo
o.ooo
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-o.ooo
CRR, SILICA-ALUMINA, ZEOLITE
AL203 31» ST02 69, 504 0.4
NONE
61 MICRONS
POWDER* ALSO PELLETS
-------�
MATERIAL CODE DG202
_MA TE RI A_L__C o o E_ _ D G 2 o 2 ..
J
' CLASSIFICATION 1
COMPOSITION 2_
COST, "2CD ACTIVE 3
_ AVAILABLE: SIZES 4
AV'A it AlUE SHAPES ~~5~
CRLISH STRENGTH_ _6_
HARDNESS "7
_ PORE SIZE __8
PORE V"OLUMF7~ '9
SURFACE A_RE_A_lg_
~ BULK DENSTTY ii
CR Y S T AJ_LIN I T Y _12
"CRYSTALLITE' sTzr fa
_M_A.JOR USES 14_
MA"JOR"USES~1'5"
.VOLATILITY 16
PARTICLE DENSITY 17
MAx. 0>. TEMP. 18
SILICA-ALUMINA,
87, AL203 13
-0.000 CRR»
-0.000_SI02
3700.000 NONE" """""."
- 0 j. .0 Q 0 _ 3 /1_6 X 3 /1 6_ IN C H
-0.000 CYLINDRICAL PELLETS
Qj..OO.Q_
o.ooo
J43.0Q_0
. 34 6
ZEOLITE
41.000
o_. p_p_o
o.ooo
-0.000 DEHYDRATION .REACTIONS
"A
-J
ATTRITION
COMMENTS
19
20
Q»
6.
0»
o.
o
o
ooo
000 __
ooo
QQO
ooo
ooo
MATERIAL CODE DG203
MATERIAL CODE DG203
I _
J
CLASSIFICATION
COMPOSITION
COST,, 2CD ACTIVE
AVAILABLE SIZES
" AVA~ILABLE"SHA-PES
CRljSH STRENGTH
HARDNESS
PORE SI/.F
PORE VOLUMF
SURFACE AREA
1
2
3 .
4
5
6
7
8
9
10
BULK DENSITY 11
CRYSTALLINITY 12
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
6 MAX. OP. TEMP.
ATTRITION
5 COMMENTS
13
14
"15
16
17
18
19
20
-o.ooo
-o.ooo
1240.000
-O.QOO
-o.ooo
0,000
o.ooo
22.000
^.450
800. 000
43.000
o.ooo
o.ooo
-o.ooo
-o.ooo
ft. 000
o.ooo
o.ooo
o.ooo
6.000
CRR» SILICA GEL
SIO? 99.7.FE ,03,NA20 .02
NONE
3-200 MESH
GRANULES
CARRIER / SUPPORT FOP CATALYST
USES IN THE CHEMICAL INDUSTRY.
-------�
MATERIAL CODE DG204
J4AJJERJ AL_CPP.E._ P.G204.._._
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE Sl^ES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLI.NITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
1
1
1
1
1
1
1
1
1
1
2
3
4
5
6
7
8
9
0
1
3
4
5
6
7
8
19
20
-0
-0
700
-6
.
.
.
.
-0.
6.
0
120
1
S^n
?7
0
0
-0
-0
0
0
0
6
.
.
.
.
«
.
*
.
.
.
.
.
.
000
000
ooo
000
ooo
ooo
ooo
ooo
040
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
CRR.
SI02
NONE
ON 1
SILICA GEL
99. 5» NA20 .09, FE .02
o MESHCFINER SIZES ON REQ)
GRANULES
CARR
USEn
IER / SUPPORT EOR CATALYST
IN THE CHFMICAL INDUSTRY.
MATERIAL CODE DG205
JMATERIAL._C0DE_.OG.205 ___
"•v
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
1
2
3
4
5
6
7
8
-
120
-
o.
0:
6
0-
0
6
0
20
.000
.000
.000
.000
.000
,000
.000
.000
SI02
NONE
ON 4
SIL
99.
ICA
6*
MESH
(F
GRANULES
GEL
FE .03, NA20 .02
INER SI7FS ON REQ.)
PORE VOLUME 9 ,300
SURf_AC_E_A_RE_A_ 1 0 6jOQ. QOJ? _. __
BULK DENSITY Tl " ~ 5g"."oOO"
__ CRY_STALLINITY 12 _ __ 6.0.00
CRYSTALLITE SIZE 13 6.000
__MAJ_PR_ ysEs_i4i _ _ -O.OO_O_J:APRIER / SUPPORT FOR CATALYST
MAJOR USES 15 -6.000 USEn IN THE" CHpMICAL INDUSTRY.
VOLATILITY
PARTICLE DENSITY
_
ATTRITION
COMMENTS
16
T?
18
19
20
_2.»JLQ.O
6", o 6 o
. 0_..0 Q 0
o.ooo
-------�
_/
'•>
...J
MATERIAL CODE DG206
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRljSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOL/AT ILITY
PARTICLE DENSITY
MAx. OP. TEMP,
ATTRITION
COMMENTS
MATERIAL CODE DG208
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTlCLt DENSITY
s MAX. OP. TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
S
6
7
R
9
10
11
12
14
15
16
17
18
19
20
"I"
3
4
5
6
7
8
9
10
12
13
14
"15" ""'
16
17
18
19 ~
20
-o.ooo
-o.ooo
1500.000
-0.000
-o.ooo
o.ooo
o.ooo
16R.OOO
1.200
2SS.OOO
24.000
6.000
o.ooo
-o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
-
-o.ooo
-o.ooo
760.000
-o.ooo
-o.ooo
6.000
o.ooo
67.000
1 .000
600,000
23-000
o.ooo
O.QOO
-o.ooo
-o.ooo
16.000
o.ooo
0,000
o.ooo
6.000
MATERIAL CODE DG206
CRR, SILICA GEL
SI02 99. 5» FE .03* NA?0 .02
NONE
100-325 MESH
GRANULES
CARRIER / SUPPORT FOR CATALYST
USED IN THE CHEMICAL INDUSTRY.
MATERIAL CODE OQ208
CRR, SILICA GEL
SI02 99,5«FE .02,AL203 .20
NONE
54 TO 65 MICRONS
GRANULES (MICROSPHEROIDAL )
CARRIER / SUPPORT FOR CATALYST
.USE*; IN THE CHFMICAL INDUSTRY.
-------�
MATERIAL COPE DG209
AL_COOE jt>j32o_9
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP, TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-o.
r_6jt
2000.
-n.
-n.
6t
o.
200.
1.
350.
25.
0.
0.
-0.
-0.
5 .
0«
n.
o.
0*
ooo
ooo
ooo
ooo
ooo
ooo
000
ooo
700
ooo
ooo
ooo
ooo
ooo
ooo
000
ooo
ooo
ooo
ooo
CRR,
SI02
NONE
54 TO
SIL
99.
65
GRANULES
CARRJ
USED
ER
IN
ICA
5»N
MI
(M
GEL
A02 .09, FE .02
CROMS
ICROSPHFROIDAL)
/ SUPPORT FOR CATALYST
THE
CHEMICAL INDUSTRY.
MATERIAL CODE DG210
MATERIAL CODE DG210
..J
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUMF
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
s MAX. OP, TEMP.
ATTRITION
s COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14-
15
16
17
18
19
20
-0
-0
66f>
-6
-0
0
0
n
500
4?
6
0
-6
-0
12
0
0
o
-6
.000
• 000
.000
.000
.000
.000
.000
.000
.650"
.000
.000
.000
.000
.000
,000
.000
.000
.000
.000
• ooo
CAT, SILI
SI02 70%»
MGO
1/8XI/H I
EXTRUSION
CA/MAGNESTA
MGO 30% (DRY BASIS)
N, OR 3/lf,X3/16 IN.
ESTERIFICATION REACTIONS? GAS/
OIL CRACK
ALSO AVAI
ING (SUPPORT CAT.) .
LABLE AS a FLUID.
)
-------�
MATERIAL CODE DG211
CLASSIFICATION "1
COMPOSITION ?.
"COSTT 2CD " ACT I VE""3"
AVAILABLE SIZES 4
AVAILABLE SHAPES 5~
C RUSH_SJRENGTH _ ft_
HARDNESir 7
• PORE size R
-0.
-o,
Ts o o .
-o.
- n .
n
SURFACE AREA 10
BULK 'DENSITY n
NITY 12
STZE 13
MAJOR USES H
'"MAJOR "USES'"! 5
VOL A TIL IT Y _16
PARTICLE" DENSITY" 17
MA)U__P_P_._lEMP . _L8
AfTRltlOw 19~
COMMENTS 20
000
ooo
boo"
poo
ooo
ooo
ooo"
ooo
ooo
000
ooo
ooo
"CAT* S'lL
SJO? 87,
AL203
_3/16 INCH DIAMFTER
"EXTRUSION""
1.3,.__iMp_UR_I_TY__.3_
0.
-o.
-6.
o.
0.
n.
o.
-0.
ooo
OQO
ooo
ooo
ooo
.000
ooo
000
REACTIONS REQ_G_AN ACTP_CATALY
ST (ALKYATlONtESTERlFjCATION).
HIGH ACIDITY
MATFRfAL CODE DG212
MATERIAL CODE DG212
• ^.'
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
6 MAX. OP. TEMP.
ATTRITION
s COMMENTS
1
?
3
4
5
6
8
9
10
" n
12
13
14
15
16
17
18
19
20
-o.
-0.
2700.
-0.
-n,
0.
0.
60.
.
500.
39.
6.
0.
-6.
0.
0.
o.
6.
0.
0.
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
750
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
CAT, PELLETED SILICA/ALUMINA
SI02 87,AL203 13,Fr?03 .05
NONE
1/8X1/8 OR 3/16X3/16 CYLINDERS
PELLETS
.
DEHYDRATION CATALYST
-------�
MATERIAL CODE DG213
MATERIAL CODE. JDG213
CLASSIFICATION
COMPOS ITION
COST, 2C~o"ACTIVE
^A_y AIL ABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
SILICA/ALUMINA
25,FF?03 .05
i -o.ooo CAT, PELLETED
2 rO?O.QO_Slp2 7_5rAL2Q3
•3" 2860.000" NONE
-0.000 1/8X1/8 QR_3/16X3/16 CYLINDERS
-6.000 PELLETS
6_._oj}o ___
4
" 5
_6
~ 7
__8
9
J.Q
11
12
0
__7_P_.
.
4o_6.».
39.
_0,_
0.
_=_6•
.000
•_00_P_
.700
... 0 Q_Q_
.000
»0_QP_
• 060
000
DEHYDRATION CATAL-YST
HARDNESS
--. P0 R E_ S11E
PORE~VOTUME~
SURFACE AREA
} " BULK DENSITY
CRYS> LA L I. J HI Ty_
CRYSTALLITE "SIZE 13
} M.AJORJJSES 14
MAJOR USES" 15 6.000
'. __V9LATILITY_16 O.OP.O. _' _____
3 PARTICLE DENSITY 17 Q.OOO
MAX. OP. TEMP_,_18 _6._QO0.
ATTRITION 19 0.000
^ CjOMM_ENT_S_^0 OjtOOP
\
"^ MATERIAL CODE DG3_01___ MAJ_ERJA_L_ C0D_E J)G30\.
"•\
CTASSTFiCAT'IO'NJ I ^b~bl>"~SOR~,~MbLTC~ULAR"~S"fE"vE"
. C_QMP_OSITION_ 2 -0.000 NOT GIVEN _______
") ~ COST," 2CD ACTIVF-: ~ 3 " ~ 2300 • 000 "KlOT oYVEN " "~ ~~
AVAlLAB L E _S_I ZES 4 . __^P_. Q
-------�
MATERIAL CODE DG302
CLASSIFICATION 1 -0
COMPOSITION _2 ___ -fj
C OS T , 2 C 0 A C T 1 V E 3 2 4~0 0
AVAILABLE SIZES _ 4_ _ -0
AVAILABLE SHAPES 5~
_SLRENGrH_ _6 _
HtARDNfSS 7 "
PORE SIZE B
.000
• 000.
-0
.000
..00 0_
.000
A.O.OJL
.000
• 0 0 0
.000
-• 000
.006
SOR, MOLECULAR SIEVE
_NOJ GIVEN
NOT GIVEN"
3-8; 8-1 2 * ..20-50 MFSH/3-5_MICR
SPHERES ; GRANULES
PORE VOLUME 9
E AREA. 1Q
DENSITY Tl
n
__. . _ _ _ ___
"CRYSTALLITE SIZE 1.3
___ MAJOR JJSES. u
"MAJOR" USES T 5"
____ VOLATILITY 16
PAR T I C L E n EN S 1 1 Y" "1 7"
MAX. OP ,_ T E M P. 1 8
SPHERES
CUBC
30 LRS. POWDER
COMMENTS
.00
• oop
.000
• 000
.000
•.OQ!
.000
• 000
REMOVAL OF H2S,_CO?, * ETHYL
MERCAPTAN~FRON NATURAL GAS,
MATERIAL CODE DG303
MATERIAL CODE DG303
,')
.)
J
•**v
)
_x
')
J
7
) 6
5
CLASSIFICATION
COMPOSITION
COST, ?co ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
RULK DFMSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PTRTiCLE DENSITY
MAx. OP. TEMP.
ATTRITION
COMMENTS
1
1
1
1
1
"1
1
~1
1
1
2
3
4
5
6
7
9
0
1
2
3
4 -
5
6
7
8
- rg- -
20
-n
-0
2200
Ml 0
-0
11
4
0
6
44
-6
0
-6
0
0
0
6
o
0
*
•
•
*
•
•
•
•
•
*
•
•
•
•
•
•
•
•
000
ooo
000
ooo
000
ooo
ooo
ooo
ooo
ooo
000
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
SOR, MOLECULAR SIEVE
NOT GIVEN
NOT GIVEN
4 MESH SIZES
$8-30 MESH
SPHERES, GRANULES
4-8 MESH { 7 LBS. R-12 MESH
SPHERES ! 30
CUBIC
DEHYDRATION
LBS, POWDER
OF MOST FLUIDS
-------�
MATERIAL CODE OG304
_MAJ£RJAL_CP0E 063.0_4
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALL1NITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAXt OP. TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-o.ooo
-o.ooo
3000.000
-o.ooo
-O.QOO
10.000
o.ooo
10.000
o.ooo
o.ooo
4.1.000
-ri.QOO
o.ooo
-o.ooo
-o.ooo
ri.ooo
o.ooo
n.ooo
o.ooo
o.ooo
SOR, MOLECULAR SIEVE
NOT GIVEN
NOT GIVEN
4-8,8-12 MESH ;3-5 MICRONS
SPHERES ? GRANULES
4-8 MESH ;6 LBS. 8-1? MESH
SPHERES ; 30 LBS. POWDER
OCC (DIAMOND STRUCTURE)
REMOVAL OF C02 * H?0 FROM AIR*
* H2S * MERCAPTAN FROM L.P.G.
MATERIAL CODE DG305
MATERIAL CODE DG305
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE "VOLUME""
SURFACE AREA
BULK DENSITY
CRYSTALL1NITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
o MAX. OP. TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
__.
10
11
12
13
14
15
16
17
1H
19
?0
-o.ooo
-o.ooo
2640.000
-o.ooo
-o.ooo
18.000
o.ooo
p. ooo
o.ooo
o.ooo
49.000
o.ooo
o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
SOR, MOLECULAR SIEVE
NOT GIVEN
NOT GIVEN
4-8,8-12»* 1.4-30 MESH
SPHERES ? GRANULES
4-8 MESH UO LRS. fl-12 MESH
: .
REFRIGERATION SYSTEMS
-------�
MATERIAL CODE OPlOl
MATEPIAt. CPPJLQP 1 0.1.
COST
CLASSIFICATION 1 -O.QOO
COMPOSITION 2 -p.000
, 2~C6" "ACTIVF ~ "3"" ""456 0 0V0 0 0
TLAHLE SIZES _4 -O.QOO
UABLE" SHAPES" "s" " ~"-q'.'obo
CRUSH_SJRENGTH _6 5« OpO_
HARDNESS" T "" o.'ooo
PORE s i KE....._B Q....O o o _.
o.ooo
...At 000
34.000
0.. Q 0.0_.
o.ooo
cKR, ALUMNA HONEYCOMB* TORVEX
AL203 9_694»JMGAL2p4_3%tMULLITF. 1
CELLS 1/8*3/16, 1/4, 3/8*3/4 IN.
BLOCKS 12 IM.SQ., 2 IN. THICK
PORE VOLUME 9
__ _SURFACE AREA_ip_
" BULK DENSITY 11
CRY STALL IN I J_Y_12
CRYSTALLY'TE" SIZE is"
(384 SQ,FT/CU.FT,l/8-IN.CELL>
LB./CU.FT, FOR 1/8 IN. CELLS
MAJOR USES 14 -O.OQO
"MAJOR'~"US"Es""i5"~ ~""-6.000
_ VOLATILITY 16 O.QOO
PARTICLE "DENSITY" 17""' " "o.ooo"
MA x_,__0^,_J E MP_. _l_H 2 7 0_0 .J) Q Q
ATTRITION 19 " "o. 00""6"
COMMENTS 20 -6.000
OXIDATION OF HYDROCARBON FUMES
REDUCTION NITROGEN OX IDE FUMES
IN AIR
STRONG, THERMALLY STABLE
MATERIAL CODE DP102
MATERIAL CODE DP102
""""CLASS IF 1C AT IOM
__ ^ C_OMP9~SJTION
co's TV 2 CD" "ACT! v?
_ AV AJLA B L . E_ _S_1 2 E S
AVAILABLE SHA'FES
—? TR E N G T H
HARDNESS"
PORE SIZF
PORE VOLUME
SU RF ACE A RE A
DENSTTY"
i -o.ooo CRR, MULLITE HONEYCOMB* TORVEX
2 -0.000 MULLITE. 55%»S Iq2__3n%, AL203 15%
3" 15200.000 NONE
* -0.000 CELLS 1/8*3/16,1/4,3/8*3/4 IN.
__ CRYSTALLINITY
CRYSTALLITE STZE
_____ „MAJ_OR USES
MA~JOR""USE"S"
VOLATILITY
PTR"T"fcrE~D EN STT Y
.JpP. TEMP.
ATTRITION
COMMENTS
*5"
6
~T
9
1 0_
11
12
13"
14
-0.000 BLOCKS 12 IN.SO.»'2 IN. THICK
_ o. o o i
o.ooo" " ~ " "
__.Q..OP.O _
o.ooo
_ P • Op 0 _( 384_ SO. F T/CU .FT , ] /8-1N. CELL)
"35."OOT L8.7CUVFT ."""FWr/8 TN". CELLS "
16
1T
18
IV
20
o.
-0»
- o .
o
ooo
QOO_
6 o"o~
p o_q_
bo 6
°X1PAliON_OF_HYDROCARBON FUMES
Wouc T"I ON N i T R'OQEN OXIDE FUMES"
IN AIR
_2460.QgO
T.ooo""
-------�
MATERIAL CODE ENlOl
CP_DE_. EN.1 0 !.__
J
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
_AyAl.LA8LE._ SUES
AVAILABLE SHAPES
CRUSH STRENGTH
-0.
___ .0..
143.
__-_0 •
000 CAT, KAOLIN, CRACKING
00.0 __S102_52«93«».AL2Q3. 45%, TI02 _1.1%.
000 T102 1.7%
000 3/6 TYLER MESH
0.000 CYLINDRICAL PELLETS
1.0
11
HARDNESS
PORE SIZE
PORE"VOLUME
SURFACE AREA
BULK"DENSITY
-^—JiBJ^IA1- ULNIT Y_ i_2
CRYSTALLINE ST2"E 13
M A J_0 R U S E S 14
~~M~AJOR USES""15
VOLATILITY J6
pA"RTicCF DENSITY"" \i
MAX. OP. TEMP. 18
95.
6 .
.
_.95«
49.
_JL
000
.000
250
000
000
PJO
o ob"
BALL MILL»INOEX
ATTRITION
COMMENTS
0.
2.-
o-
_0.«
19
20
-.
000
OOQ.
ooo
Q.PJL
020
000
CRACKING_
AT 1800F
EXCELLENT RESISTANCE
SUPERIOR, STEAM, THERMAL
MATERIAL CODE ENH01
MATERIAL CODE EN201
;)
)
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
5 MAX. OP, TEMP.
ATTRITION
5 COMMENTS
1
2
3 1
4
5 '
6
7
B
q
10 1
11
12
13
14
"15"
16
17
18
19
20
-o.ooo
-o.ooo
13.SOO
fi.OOO
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
7S.OOO
Sft.QOO
o.ooo
o.ooo
_.d..o.o_o
o . o o n
?»j)00
o.ooo
o.ooo
o.ooo
o.ooo
CAT, ACTIVATED BAUXITE
AL203 72, FE203 12, ST02 11
FE203 12%
10/20 MESH
__Q_E.SULfUR .1 .Z_A.TJ.QN_. OF .^PETROLEUM
AT 1800F
-------�
MATERIAL CODE EN202
JiAI E RJA L_C Op E.. EN 2 0.2__
CLASSIFICATION 1
COMPO SI T I ON 2_
COST, 2CD" ACTIVE '3
__ AVAILABLE SIZES 4
AVAILABLE" SHAPES ~5
BAUXITE
_.9«_F-E203_ .8*.
-0.000 SOR, ACTIVATED
-0.000 AL2Q3 78. Si02
95.000 FE203 8.0
-ru.QOO 4/8» 1Q720_»__1P/30.». 2Q/60_MESJ1
6.000 "
CRUSH STRENGTH _ 6 ______ JKOQ0.
"HARri'NEss 7 oV'ooo
PORE SIZE 8_ __ 0.000
PORE '
_ __
VOLUME 9 o'.QOO
_J5URFACE AREA 10 __ 195.000 FOR 6% VOLATILE MATERIAL
BULK DENSITY 1 1 "" ~57.000>OR 6%~ VOLATILE "MATERIAL
__ CRY_ST_A_LLINIT_Y__1_2_ ____ OjtPQO ______ ____ " _______
CRYST~AL"LTTE"ST2E 13 ~" O-OOO"
____ M_AJOR USES 14 ____ ->0.000_ FOR REF INl_NG_ PETROLEUM PRODUCt
MAJOR "USES"I 5 " ~ -o.ooo" OECOLORIZES; "DEODORIZES? ""DRIES'
____ VOLATILITY 1ft ___ 6«OOQ_A.LSQ AVAILA8LE_AS 2% VOLATILE
PARTICLE DENSITY" 17 o.ooo
_ MAX. OP. TEMP, 18 _ _ _ 0_._ppp _________________
ATTRITION' IQ " " "0,000
COMMENTS 20 0.000
MATERIAL CODE ENE03
MATERIAL CODE EN203
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
e MAX. OP. TEMP.
ATTRITION
s COMMENTS
1
1
1
1
2
3
4
5
6
7
8
9
0
2
13
14
1
1
1
5
6
7
8
19
20
-0
-0
12?
-6
o
0
0
o
o
205
5*
6
0
0
0
ft
0
0
0
-6
.000
.000
• 500
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
CRR»
AL203
TI02
4/8»
FOR 6
FOR 6
ALSO
ALSO
ACT
81
3.5
4/1
I
0
VATED BAUXITE .
5» SI02 10,5»TI02 3.5
» 4/
% VOLAT
% VOLAT
AVA
I
USED
I
I
14 « 10_/2
LF MATER
L E M A T F R
LA6LE AS 2%
AS
SOPBANT*
0 MESH
TAL
1AL
VOLATILE
-------�
MATERIAL CODE EN204
.MAJ£RIA L C 00 E _ E_N 3 0 4.
CLASSIFICATION I
C 0MPOS I TI ON 2
ACTIVE 3
^ SIZES _4
AVAILABLE SHAPES" 5
CRUSH STRENGTH 6
HARDNESS
PORE VOLUME
___ SURFACE_AREA
""BULK DENSITY
__ CRYSTJVLL1NITY
CRYSTALLITE SIZE
M AJO RU S E S
-0.000 CRR, ACTIVATED BAUXITE
.. -.0.000 AL203._93.5»_SI02 2,5» .TI02 2.0
145.000 TI02 2.%
_-_0.00_0_2/4»_4/_a*_4/lOt_LO/20» .ME.SH
0.000
.0_,jO Q 0 .
7
8
"9"
10
f
12_
13
o.ooo
o.ooo
_ 2? 6 . 0 0 0 ...FOR 6%. _VOL A T I LE _M A f E.R I AL
55.000 FOR 6% VOLATILE MATERIAL
__ _ 0_._0.00 _________ ; ________ ____
0.000
MAJOR
_
USES
__ _
> A R f i c C E" D'EN'S i" T V
MAy. OP. TEMP.
ATTRITION
COMMENTS
16
f?"
18
19"
20
_-_0 vQ.OO__P.EFLyORINAT 10_N_
6.000
_6.» 0 0 0 _ A L SO...A y A I_L A B.L E._ A S_2%. VOLATILE
o.ooo
o.ooo
-O.OQ_O ALSO USED_AS_ CATALYST
MATERIAL CODE EN205
AL. CJ3DE EN205
•\
CLASSIFICATION
COMPpsITION
"cpST,"2CO"Act"fVE'
_AVAT L ABLE _ Si ? E S_
"AVAILABLE "SHAPES
CRUSH STRENGTH
HARONESs 7
PORE SI_ZE_ 8
pb'RE VOLUME "~9
SURFACE AREA 10
BULK DENSITY 11
CRYSTALLINITY 12
"C R Y S f AU. I T E "SIZE "I 3
MAJOJR_USES_U
"MAJOR USES T5
VOLATJ_LI_TY 16
PARTICLE DENSITY
MAX. OP. TEMP.
_
17
18
ATTRITION
COMMENTS
19
20
C A T 7 "A C f I V AT E "b~ 8 A t.J X T T E
AL203 86» SlQ2_5.t_.TT02 3
TI02 3.0
1/J6x5/16 INCH.
PELLETS
-------�
MATERIAL CODE EN206
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
X
MATERIAL CODE EN207
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVF
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
, CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
5 MAX. OP, TEMP.
ATTRITION
s COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
MATERIAL CODE EN206
-0,000 SOR, ACTIVATED BAUXITE
-0,000 AL203 81.5, SI02 in, TI02 3.5
250.000 TI02 3.5
-6.QOO 4/8, 4/10, 8/14 MF.SH
0,000
o.ooo
o.ooo
6.000
0,000
210.000
55*000
6. ooo
o.ooo
-O.QOO DESSICANT FOR HYDROCARBONS, H2S
0.000
6.000
O.QOO
o.ooo
0*000
o.ooo
MATERIAL CODE EN207
-0.000 SOR, ACTIVATED BAUXITE
-0.000 NOT GIVEN
250.000 NOT GIVEN
-o.ooo 4/8, 8/i4 MESH
o.ooo .
o.ooo
o.ooo
6.000
o.ooo
o.ooo
59.000
6.000
o.ooo
-0.000 OVERCOME SOURING OF HYOROCBNS
-0*000 .DRYfNG HALOGENATED HYDROCBNS
6.000
o.ooo
o.ooo
0.000
-------�
MAjr. ERI.AL CODE £N208.
CLASSIFICATION
___ COMPOSITION
COST, 2c"o ACTIVE"
AVAILABLE SIZES
AVAILABLE "SHAPES"
CRUSH STRENGTH
-0.
_J-0.
122.
__-jO._.
-0.
000
qoo
^00
ooo
000
CAT, REFORMING
_AL203 81.5»_FE2P3
FE203 3.5
*L TP 8 MESH
GRANULAR
3.5iT102.3.5
1
_?_
3
4_
-_ ....
6 O.QOO .
HARDNESS 7 6.000
';. PORE SIZE H o.ooo :
""PORE VOLUME '"9" " "o.ooo
SURFACE AREA 10_ __ 200.000 . _
; " "BULK" DENSITY "11 54.000
CRYSTALL_INITY_J.2 _ Q_.J)Q_0
CRYSTALLITE SIZE"13 " 0.000
j. . _MA.J°R USES 14_ _ -O.QOO REFORMING CAT_Fp.R 6A.SOLI.NE_ ANO
"MAJOR" USES" 15 ""-o.ooo NAP in AS
VOLATILITY. 16. 2.000 AT_1800 F
') "" PARffCLE DENSITY "17 "" ~ ~6".00b~
MAXj_QP_. _TEMP_,_18 g• 0QO
ATTRITION 19 0.000
~) CpMMENTjS__20 O.J)_O.Q_ ._
f;_ ___
MATERIAL CODE EPlOl MAT E RJ.A L._CODE _ E P_1_QJL
~,
___ ___..S..S..I.^_I^T.I.O_ .. _^.__O^_.C_-R___--_^^^^.._^...^^^._^ ...
__C°MPPS]TION_ 2 _ _ -0.000 AL203 92%»AL2Q3 5%,FE203 1.8%
3 CQSTj"2CD ACTIVE "3" "' "230'"• 000 FE203 ' 1, 8%
A^"MrAB"LE~S"HAP"ES 5~~ pT"do6"
3 CRljSH_SJ_RENGTH _6 ?P.6._OQO_ L8./SQ_._IN.__» .THIS _I.S UOW._
HARDNESS"" 7" "" "o.ooo
PORE SIZ_E__ 8 0.0PP __ _ _
j PORE:"V6IUME~ 9" """o.OOO""
SJJRFACE AR_E^ 10 _rO_._pOp__SURFACE ARE_A_EJ
-------�
MATERIAL CODE EP102
.MATERJ.AL.CODE EP 1_Q2.
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUMF
SURFACE AREA
RULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
H
15
16
17
18
19
20
-0.000
-o.ooo
230.000
-6.000
0.000
200.QOO
o.ooo
0,000
o.ooo
o.ooo
o.ooo
-o.ooo
o.ooo
-o.ooo
o.ooo
] .000
o.ooo
6.000
o.ooo
6.000
CRR, SlLICAt OIATOMACEOUS
SI02 92, AL203 5, FE203 1.8
FE203 1,8
10 MESH
LBS/SQ. IN.
DIATOMACEOUS SILICA
CATALYST SUPPORT
MATERIAL CODE GRlOl
MATERIAL ..CODE GRlOl
CLASSIFICATION
COMPOS I TIpN_
COST V""2CD "ACT IVE
1
2
"3"
AVAILABLE SHAPES
CRUSH_ SJRENGTH_
"HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK "OFNSTTV
5
6
7
8
g"
10
rr
12
CRYSTALLITE SIZE "13"
MAJOR_ USES__U
MAJOR "USES 15"
VOLATILITY 16
P A «TtCTE~fTENrSTTT TT
OP, TEMP, 18
~A"f"fRTT'I'ON~l9"
COMMENTS 20
-o.ooo CAT, PLATINUM ON ALUMINA
O.OQO_AL2Q3 9.6.9%, NI 3%, PT 0.1%
T0100.000 NI 3% " "
6iOQO_l/4Xl/4_,3/8_X3/fl INCHES
TABLETS
NOLvLI« 35 L8S_DWJi , 5% -LT..18
0.0
Oj.00,0
6.060
_o . o o o
"""
CCL4 PORE VOL AT 800A
_
2JJ>.00_0_
55.000
.-Q».0po
64.000
6.QOO
-o.ooo
o.ooo
GAMMA_AL20_3
A
PE?Q_MP.._PF HNp3 PLANT TAIL GAS
NOX REACT 02,CO,HYDROCARRONS
o.ooo
250_0._QOO
o.ooo
-o.ooo
-------�
MATERIAL CODE GR202
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAx. OP. TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
a
9
10
11
12
13
U
15
IfS
17
18
19
20
-o.ooo
-o.ooo
143S.OOO
-o.ooo
-o.ooo
o.ooo
90.000
o.ooo
• 670
850.000
34.000
6.QOO
0.000
-o.ooo
-o.ooo
o.ooo
o.ooo
3=50.000
0.000
o.ooo
SOR, ACTIVATED CARBON
NOT GIVEN
NONE
4X6 MESHt8X30 MESH
GRANULES* PELLETS
PER CENT
DESULFURIZING GAS STREAMS
FIXED BED OPERATIONS
MATERIAL CODE GR301
MATERIAL CODE GR301
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRFNGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
RULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
e MAx. OP. TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
9
10
11
13
14
15
16
17
18
19
20
-o.ooo
-6.000
2090.000
o.ooo
o.ooo
0.000
6.000
o.ooo
O.QOO
0,000
o.ooo
o.ooo
-6.000
o.ooo
o.ooo
750.000
o.ooo
o.ooo
CAT, COBALT-MOLY ON AL.203
NOT GIVEN
MO
3/16,1/8 INCH
EXTRUSIONS
APPEARS TO 8E VERY FRAGILE
HYDRODESULFURIZATION
HYDRODENITRIFJCATION
MAXIMUM
-------�
MATERIAL CODE GR401
J1A TE.9_yj,_C_pDE_QR401
C L A S STF IC A TIC) N"
COMPOSITION
COST," 2 CD"'ACTIVE"
AVAILABLE SIZES
___ _ _
A V ATI" ABLE "SHAPES"
C R U SH S T R E N G T H
3
4
5"
-0.000 CAT* NICKEL
_-Q»QQO_ NI l5_Tp_25%_ BALANCE-NOT. GIVEN
1840.000 "NOT"" GIVEN'" '" .""""
-p.OOO 3/4X3/4 OR 5/8X5/8 INCH RINGS
-6.000 RASCHlG RINGS* TABLETS* PELLET
FOR 5/8 IN, RINGS* SIDE AXIS
HARDNESS
DODC" QTVcr
r\Jr\t!^. •*'**- C.
PORE VOLUME-
SURFACE AREA
BULK DENSITY
' CRYSTALLI.NITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
PARTICLE DENSITY
MAX. O'P. TEMP.
COMMENTS
7
8
9
10
11
12
13
14
15
17
18
20
o.ooo
o.ooo
6.000
5?. 000
o.ooo
o.ooo
-0,000 PRODUCTION OF H2*. MH3* CH30H
o.ooo
o.ooo
o.ooo
0.000
o.ooo
o.ooo
MATERIAL CODE GR402
MATERIAL CODE GR402
J
CLASSIFICATION
COMPOSITION
COST,, 2co ACTIVE
AVAILABLE SIZES
. AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
6 MAX. OP. TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5 ""
6
R
9
10
11
12
13
14
15
16
~17
1R
19
20
-0
-0
1840
-0
6
0
6
0
6
0
0
o
-0
0
0
0
1,850
0
6
.000
.000
.000
.000
,000
.000
.000
.000
."006"
• ooo
.000
• 000
.000
,000
, 0 00
.000
.000
,000
.000
.000
CAT*
NOT
NOT
1/2
CYLI
NICKEL
GIVEN
GIVEN
TO 3/4 INCH
NDERS* RASCHIG RINGS
STEAM-HYDROCARBON REFORMING
-------�
MATERIAL CODE GR403
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACF AREA
RULK DENSITY
CRYSTALl INITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAx. OP. TEMP.
ATTRITION
COMMENTS
X
MATERIAL CODE GR404
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
"MAJOR "USES"
VOLATILITY
PARTICLE DENSITY
6 MAx. OP. TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
9
10
1.1
12
13
14
15
16
17
IB
19
20
1
2
3
4
5
6
7
B
9
10
11
12
13
14
15
16
17
18
19
20
-0
-0
1700
-6
-0
0
0
0
0
0
0
n
0
-8
0
0
0
2200
0
0
-0
-0
572
— 0
-0
6
0
0
0
0
0
0
0
-6
-0
0
0
890
0
0
.000
• 000
• ooo
.000
.000
.000
.000
.000
.000
• ooo
.000
.000
.000
.000
.000
.000
• ooo
.000
• 000
.000
.000
• ooo
• ooo
.000
• ooo
.000
.000
.000
.000
.000
• ooo
.000
• ooo
.000
.000
• ooo
.000
.000
• 0 0 Q._
MATERIAL CODE GR4Q3
CAT» NICKEL ON ALUMINA
NOT GIVEN
NOT GIVEN
5/8 TO 1-1/2 INCH
IRREGULAR LUMPS
STEAM-HYDROCARBON REFORMING
MATERIAL CODE GH4Q4
CAT, CHROMIUM-IRON OXIDE
NOT GIVEN
NOT GIVEN
3/8X3/8 AND 1/4X1/4 INCH
TABLETS
WATER-GAS SHIFT REACTION
REMOVAL "OF" S2~F«OM GAS STREAMS
-------�
MATERIAL CODE GR405
JmAIEj?lAL__Cp_pE__GR 4 0 5.
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
RULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
1
1
1
1
1
1
1
1
I
1
2
3
4
5
6
7
8
9
0
1
2
3
4
5
6
7~
8
19
20
-0.
0.
1650.
-0..
-0.
6.
0.
0.
0.
0.
80.
6.
o.
-6.
0.
6.
0.
375.
0*
-o.
ooo
ooo
ooo
ooo
ooo
OQQ
ooo
ooo
ooo
ooo
ooo
ooo
000
000
ooo
ooo
ooo
ooo
ooo
ooo
CAT,
CUO,
NONr
1/4X
COPPER OXIDE-ALUMINA
AMOUNT NOT SPECIFIED
1/8, 3/16X3/16 INCH
TABLETS
-'
LOW
TEMP. CO CONVERSION
POISONED 8Y S2, HALOGEN COMPS
MATERIAL CODE GR406
MATERIAL CODE GR4Q6
" " "OJfSSIFICATIONT
COMPOSITION
COST, 2CQ ACTIVF
AVAILABLE SIZES
AVAILABLE WARES"
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUMF
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
6 MAx. OP, TEMP.
ATTRITION
5 COMMENTS
I
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
T9
20
-o.ooo
-o.ooo
2700*000
-o.ooo
-0.000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
65*000
6.000
o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
1500.000
o.ooo
o.ooo
CAT, NICKEL
Nl 32% BALANCE-NOT GIVEN
NOT GIVEN
1/4X1/4 INCH
PELLETS .
METHANATION REACTIONS
-------�
MATERIAL CODE GR407
-G ?. 107
CLASSIFICATION 1 -p.QOO CAT, NICKEL
;, ..COMPOSITION 2 _-6.000 Nl 32% BALANCE-NOT GIVEN _
"COST", ~2CO"'ACTIVE ~"3~ T920.000 NOT GIVEN - "
AV_AIL_ARLE _SI.ZES 4 -6.000 1/4X1/4 INCH
>; "; AvA'iLABLE" SHAPEs""~5 " "-o.ooo "TABLETS"
CRUSH STRENGTH 6 oL.opo___
HARDNESS 'l O.'oOO
'• ^ PORE SIZE 8 0.000 _ _
.V • .""' . " ~PORE~~V"QLUMF~"9""p.OOO"
' SURFACE AREA 10 _ __ 6.000_'__ _
! ; " BULK bEN~SITY""l 1 " "~6sVo6fl" ~ '
! " _CRY_STAULTNIT_Y_1_2 _ __Q.OOQ
'• CRYST'ALLITEM'SiZE "iT o.'oo'o " " . . ^ . ... —
' - [1AJOR USES 14__ _rO.OOO METHANATION RE.ACtI.nNS
i "' MA~JOR~USES"~15" "o.ob'6" "~" "~"
j _ ________ ^.. __f-)SiT-_Y_._7 o","odo"
_ MAX. OP. JEMP^^JL^ QZ5. 0Q0
ATTRITION 19 O.OOO
i "} _COMMENTS__20 .O.vO.Q.0 ;
^ MATERIAL CODE GR409 HAJERUL_COD.E. GH4Q9.
^ "CTASS'IFTCATION 1 -p7^6T"CA~tr'C"o"-MO"'oN~ALuiMYNA
COMPOSITION 2 _ -6.000 NOT GIV£.N_ _
J "COST, 2CD ACTIVE ~3~- 2700.000 NOT GIVEN
AV_AILAJLE_ SIZES ^ ~Q,_oqo__3/.i6.x3/1.6. JNCH
AVAIL ABLE "SHAPES 5"" ^oVo'do TABLETS
") CRjJ_Sjj_ST_RFNjjjH f, _^ O.OQO_ _
/'•x, ~ HARDNESS"? oTooo" " ""
'-• !' * PORE SIZE _8_ P«000 _:
j '3 " PORE VOLUME " "9" " p.OOO"
' SURFACE AREA jo _6«opp _^_
!•' " "BULK" DENSITY fi ~ ~ oTobo "~ " " " '" .
") CRYSTALUNITY 12 Q.ooo__
CRYSTALLITE SIZF~13 0,000 ~ "" " " " - • -—
_jMAJO_R_ySES 14 -p.OOOJHYnRODESLILFURIZATION
MAJOR USES "15" ""o.OOO " "
_T _y°JL.-AriL1L[Y__i§ JL»Qlf)
PARTICLE DENSITY l"7 O."o"o"b
j __MAX_._OP. TJEMP.JJ 0.000
"ATTRITION 19 " o"."oo"d" ™ - - - ----
-------�
MATERIAL CODE GR407
MATERIAL CODE GR407
CLASSIFICATION 1
COMPOSITION. 2
COST/"2CO~ACT'IVE " 3"
_A.V AI L_A_ B L E _S IZ E S _4
AVA'ILABLE" "SHAPES"" s~
CRUSH STRENGTH ft
-0
1920
____ r.6.
-
HARDNESS 7
PORE SHE 8
P ORE "VOL U M F " "9 '
.ooo
• 00 0.
.000
•_QO_O
.000
•_aoo_
• ooo
.000
CAT, NICKEL
N I_ 3 2 % B ALA _N C E - N_Q T_
"NOT GIVEN ~
1/4X1/4 JNCH
TABLETS
.GIVEN
_ _
BULK 'DENSITY"
__ CRYSTAL L I NIT Y
CR Y'ST ALL i f E""S I ZE~
_ __ _MAJOR_USES
MAjW'usEs
______ yOLAT|LITY_
PARTICLE DENSITY
MAX. QP._TEM_P_.
~ATTR"lTiON|
COMMENTS
11
12
I 3"
14
15
16
17
1B
0
0
65
-Q
0
.000
•.000.
.000
• ooo.
.000
».opp_
M.E_T HAN AT. 10_N_. R E A_CT.1.0 N S
20
.000
.•.oo.o
.000"
•JJPJL.
.006
.000
MATERIAL CODE GR409
MATERIAL CODE GR4Q9
CLASSIFICATION 1
COMPOSITION_ 2
~COSf, "2CQ" ACTIVE ~3"
_AVA ILABLE SIZES 4
AVAIL A"B L E "S HAP E S 5~
_^ _C_?1ISH SJRENGT_H_ 6
" HARDNESS 7
POR_E_SIZE _H
PORE VOLUME 9"
-0
. -- 0
2700
.000
• 000.
.000
•_OJ|0_
.000
•.o oq.
CATf CO-MO ON ALUMTNA
.NOT.GIVEN
NOT GIVEN
_3/16 X 3 /16__INC H
TABLETS
.000
,00.0
.000
/.
SURFACE AREA
BULK DENSITY
CRYSTALLITE SIZE
~MAJ OR~0 S E S '"
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRT T lOiM
1 0
11
12
13
15"™
16
17
18
1 9
0.000
n.ooo
0.000
o.ooo
-0.000 HYDRODESULFURIZAJION _
o.ooo
o.ooo
o.ooo
o.ooo
n.noo
COMMENTS 20
-------�
MATERIAL CODE GR411
.MATERIAL _C.PDE_GR411.
CLASSIFICATION
_ COMPOSITION
COST, 2CD ACH'VE
AVAjLABLE SUES
TVA'ILAHLE SHAPES"
CRUSH _S_TRENG T_H_
~ HARDNESS
PORE_SIZE
"PORE'VOLUME
SURFACE_AREA
"BULK"DENSITY
CJR YSJ A L Li Nii T Y_
"CRYSTALlTfE'sTZE
MAJOR USES
" ~M~A JOVUSES"
VOLATILITY
"PARTICLE" DENSITY"
MAX* 0 P . _ T_E MR .__
ATTRITION
COMMENTS
1
2
~
-o.ooo CATt CHROMIA-ALUMINA
___.-O.OQO NPT_JSI.VEN
2200.000 NOT GIVEN
__jrO.OO.O 3_/16X3/16» 1/4x1/4 INCH
-0.000 TABLETS
8
""9"
1Q
11
\2_
13
14
15"
16
"17"
_y_
19
20
0.
.0.
6.
• 000
,000
.000
,000 i
.GOO
L 0 00. ;
,000
000 REMOVAL _QF_ S2 CQMPQS FROM GAS
000
0»
0.
ooo
o.o.o_
000
_o oo
MATERIAL CODE GR412
MATERIAL CODE GR412
\
.j
CLASStFICATiON
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUMF.
SURFACE AREA
RULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
-, VOLATILITY
PARTICLE DENSITY
6 MAX. OP. TEMP.
ATTRITION
s COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
"19 "
20
-o.oon
-o.ooo
o.ooo
-o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
0.000
o.ooo
o.ooo
o.ooo
-o«ooo
o.ooo
o.ooo
o.ooo
6.000
o.ooo
o.ooo
CAT» IRON OXIDE
NOT GIVEN
NOT GIVEN
1/4X1/4 INCH
TABLETS .
REMOVAL OF 52 COMPOS FROM GAS
•
-------�
MATERIAL CODE _GR_413_
.MAT.ERIAt-.CODE GR>13
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
_A VA I LA 6 L E SIZES
AVAILABLE SHAPES
CRUSH _STRENGT_H
HARDNESS
^ PO_RF SIZE
"PORE "VOLUME"
SURFACE AREA
1
2
3
_4
5"
_6_
"7
8
"9~
10
116
0.
0.
7.
.0*
0»
_o...
6.
o.
000
o o.o.
000
..o o Q.
ooo
OQO.
000
.0 0 0
SOR, ZINC OXIDE
NOT GIVEN
1/8_TO 3/16 INCH
SPHERICAL PILLS
RULK DENSITY 11
CRYJ>!ALLINITY_12_
CRYSTALLTTE SIZE T3
MAJOR USES 14
MAJOR USES iS
VOLATILITY 16
PARflCLE"OENS"iTY"i7"
MAX. Q'P. _TEMP ._ J 8
ATTRITION 19
COMMENTS 20
?•
6.
jQ.
o".
000
o o o_
ooo
QJOO
oon
000
REMOVES H2S FROM .GAS STREAMS
0.
p.
6.
P«
6.
ooo
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000
0 OJ1.
000
.0.QO.
MATERIAL CODE GR414
MATERIAL CODE GR414
CC'ASSIFICATION
COMPOSITION
" "CfTST'V 2CD ACTIVE"
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLT.NITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
6 . MAX. OP, TEMP.
ATTRITION
s COMMENTS
_r ._
2
"3 "". "
4
5
6
7
8
q
10
11
12
13
14
15
16
17
18
19
20
-o.ooo
-6,000
2090.000
-o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
O.QOO
o.ooo
o.ooo
o.ooo
O.QOO
-6. ooo
-O.QOO
o.ooo
p. ooo
o.ooo
o.ooo
o.ooo
CAT, CO-MO
NOT GIVEN
"NOT GIVEN" "~ """
3/16X3/16 INCH
TABLETS
CONVERT 52 COMPOS TO H2S
HYDROGEMATION OF Oi.EFlNS
-------�
MATERIAL CODE GR415
CODE GR415
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIV'F
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUMF.
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAx. OP, TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
a
9
10
11
12
13
14
15
16
17
18
19
20
-0,000
-6.QOO
10800.000
-o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
O.QOO
o.ooo
o.ooo
o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
n.oOO
o.ooo
o.ooo
CAT* PO ON REFRACTORY OXIDE
PD o.o5-o.49a REFRACT OXIOE-OAL
NONE
3/16X3/16 INCH
TABLETS
HYDROGENATIOM
MATERIAL CODE GR416
MATERIAL CODE GR416
"C'USS'IFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUMF
SURFACE AREA
RULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
6 MAX. OP. TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
8
9
10
11
12
13
14.
15
16
17
18
19
20
-o.ooo
-6,000
11800.000
-o.ooo
-o.ooo
o.ooo
0.000
o.ooo
o.ooo
6.000
o.ooo
o.ooo
o.ooo
-o.ooo
o«ooo
6,000
O.QOO
6,000
n.oOO
6.000
CAT, PD ON ACTIVATED ALUMINA
MOT GIVEN
NOT GIVEN
3/16X3/16 INCH
TABLETS
REMOVAL OF 02 FROM H2 STREAMS
-------�
MATERIAL CODE GR417
_ M A T E aiALJC P_DE__G R 4_H
CLASSIFICATION
COMPOSITION
CpStT~2CD~ ACTIVE
_A_VAILABLE SIZES,.
"AVAILABLE SHAPES
c PU SJH__S_TR E_NJ? J_H_
HARDNESS
PORE SIZE
VOLUME'
-0
_ -6
12000
-6
-o
PORE
SURFACE AREA 10
BULK DENSITY 11
CRYSTALL INITY 12_
CRYSTALL ITE~STZ fT'l 3
MAJOR USES__ 14
" MAjpR USES is
- .VOLATILITY 16
P ARTICLE" DEN'S I T Y 17
MAX* OP. TjEMP. 1 a_
fg"
20
ATTRITION
COMMENTS
ooo CAT* PD ON ACTIVATED CARBON
.OOO..NOT_GIVEN__. .
000 NOT GIVEN
000 .4X8.MESH
000 GRANULES
0 0 0 .
000
000
ooo
0 0 o__:
ooo
.O_QO__ :
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•000_REMOVAL OF
000
ooo _ _
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0 00 :
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QQQ
P.2_FROM .H2. STREAMS
MATERIAL CODE GR419
MATERIAL CODE GH419
CLASSIFICATION'"
COMPOS IT ION
COSTr 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
—-CJiyj51!-STRENGTH _
HARDNESS" T
PORE SIZE __«
PORE VOLUME 9~
__sy.RFACE AREA _1 0
BULK' DENSITY' iT"
CRYSTALLTNITY i?
CRYSTALLITE SIZE 13
___ MAJOR USES 14
MA~J"6"R"USES" "J 5~
LITY 16
__ ____ _
PARTICLE DENSITY IT
MAx» OP« TEMP. _18_
ATTRYflON 19
COMMENTS 20
-O.QOO CAT, NI-CO PROMOTED
_ ...r6.000...NOT GIVEN
1270.000 NOT GIVEN
T.Ol«OP_0__l/4 LNCH
-p.000 EXTRUSIONS
0 • 0 0 0
0*000
p ..o o o
0*000
0.0.0 0
p. ooo
o. 00.0
o.ooo
_r_Q .000 _SEL.ECT I.VE__H.YpjROGENAll_ON
0.000 ,
p._opo
p'.ooo
OJL.O.OO
0.000
-------�
MATERIAL CODE GR420
MATEPJA_L_..COJ)E. GR420
CLASSIFICATION 1
C 0MPQSIT 10 N 2
"COST, 2CD ACTIVE~"~"3
_*V.ML*§)-E SIZES 4
"AVAILABLE"SHAPES"' 5
C RLISH_ST_R£NG T H__6
HARDNESS 7~
PORE SIZE «
PORE VOLUME
^SURFACE AREA
" BULK "DENSITY"
CRYSTALLIMITY
9
10
11
2
13
14
CRYSTALLITE SIZE
______ MAJOR USES
"MAJOR" USE'S ; 15
___ _ -VOLATILITY 16
PARTICLE DENSITY 17
9;P •_! £ M P s_ 1
ATTRITION 19
COMMENTS 20
-0
..... _- 0
2090
___rJPL
-0
_______ 6.
6
___________ o
0
0
BO
__ 0
0
o
o
o
35p
0
0
.000
• oon
.000
• O.QQ.
.060
•.O.O..OL
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• OQO
.060
• 0.0.0.
.000
•_O.Q_0_
• ooo
• ooo
.006
• 0.00.
.000
CAT,"PALLADIUM
NOT.GIVEN
NOT GIVEN
3/16X.3/16 INCH
PELLF.TS
ON ALUMINA
.000
.000
SELECTIVE HYDROGENA.TION
MATERIAL CODE GR421
MATERIAL CODE GR421
"*\
•*-,
/
D
'^
J
'i
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
RUCK DENSITY"
CRYSTALLTNITY
CRYSTALLITE SIZE"
MAJOR USES
MAJOR USES
, VOLATILITY
PARTICLE DENSITY
-6 MAX. OP. TEMP.
ATTRITION
s COMMENTS
1
2
3
4
5
6
1
8
9
10
11
12
13
H
16
17
18
19
20
-0.000
-0.000
. 2090.000
-6.000
-o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
6.000
59.000
o.ooo
o.ooo
-6.000
o.ooo
o.ooo
o.ooo
350.000
o.ooo
6.000
CAT, PALLADIUM ON ALUMINA
NOT GIVEN .
NOT GIVEN
3/16X3/16 INCH
PELLETS
SELECTIVE HYDROGENATION
-------�
J
"\
-/
J
MATERIAL CODE GR422
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SUES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
•\
MATERIAL CODE GR424
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAJLA8LE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
RULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
2
3
4
5
6
7
R
9
10
11
12
13
14
15
16
17
18
19
20
-o.ooo
-o.ooo
12700.000
-n.ooo
-o.ooo
4^.000
o.ooo
o.ooo
o.ooo
o.ooo
67.000
o.ooo
o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
35 6 . o 0 0
0,000
-o.ooo
-o.ooo
-o.ooo
o.ooo
-o.ooo
-o.ooo
6,000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
-6.000
o.ooo
6.000
o.ooo
o.ooo
o.ooo
0,000
MATFRTAI CODE GR4?2
CAT* PALLADIUM ON ALUMINA
NOT GIVFN
NOT GIVEN
3/16^X3/16* 3/16X3/8 INCH
PELLETS
FOR 3/16X3/16 PELLFTS
SELECTIVE HYDftQGENATION
POISONED BY SULFUR
.
MATERIAL CODE GR424
CAT* CO-MO
NOT GIVEN
NOT GIVEN
1/4X1/4, 1/2X1/2 INCH
TABLETS . . -
SELECTIVE HYDROGENATION
-------�
MATERIAL CODE GR425
_M A T E P.LA L__C ODE G R 4 2 5_
CLASSIFICATION)
COST, 2 C 0 A C T V E
^AVAILABLE SIZES
~ ......... SHAPES
1
2
3
4
5~
-0.000 CAT» PROMOTED COBALT
...-0..000 CO 60%JN OXIDIZED.. FORM.
8500.000 NONE
-0.000 3/16X1/8* 1/4X3/16 INCH
PELLETS
AVAILABLE SHAPES 5 -0.000
STRENGTH 6. 15.000 FOR 3/16X1/8
HARDNESS "7""" "o.OOO
PORE SIZE_ 8 0.000
"" " " '" ~"
PORE VOLUMp-: 9
SURFACE AREA 10
"BULK DENSITY "if
__LJi?.YSI-ALL IN1T Y_l_?_
"CR Y S f~ALL I" T E S IZE 1 3
o.ooo
o.ooo
75.000
0.000
_ _
"PARTicIT DENSITY"
MAX.. OP. TEMP.
_MAJOR USES 14 -0.000
MAJOR "USES~T5~" "-O.'OOO"
16 Q. 000_
17 p.000
18 73 0 «_0 0 0_
ATTRITION "19 ~ " " 'o".o6"o'
COMMENTS 20 0.000
PRODUCTION OF
HYDROGENAT ION
PRIMARY AMINES
MATERIAL CODE GR426
MATERIAL CODE GR4?6
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SUES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUMF
SURFACE AREA
1
2
3
4
5
6
7
8
9
10
BULK DENSITY 11
CRYSTALLINITY 12
CRYSfALLITE SUE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
6 MAX. OP. TEMP.
ATTRITION
5 COMMENTS
13
14
15
16
17
18
19
20
-0.
-6.
4500.
-6.
-0.
0.
o.
6.
0.
6.
0.
0.
o.
-0.
0.
0.
o.
. o.
o.
6.
000
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
CAT* CO ON REFRACTORY OXIDE
CO 33%» REFRACTORY OXIDE-HAL.
NONE
1/4X1/4 INCH
TABLETS
*
^
HYQROGENATION
-------�
-\
J
\
J
•\
J
MATERIAL CODE GR427
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SUES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SUE
PORE VOLUME
SURFACE AREA
RULK DENSITY
CRYSTALLINITY
CRYSTALLITE SUE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP,
ATTRITION
COMMENTS
^
MATERIAL CODE GR428
CLASSIFICATION
COMPOSITION
COST, SCO ACTIVE
AVAILABLE SUES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUMF
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SUE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
s MAX. OP. TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
1
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
1
8
9
10
11
12
13
U •
IS
16
17
IB
19
20
MATERIAL CODE GR427
-0.000 CAT* CO ON KIESELGUHR
-0.000 NOT filVFN
8000.000 NOT GIVEN
-0,000 3/16X1/8 INCH
-0.000 POWDER* TABLETS
n.ooo
6.000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
-0.000 HYDROGENATION
o.ooo
o.ooo
p. ooo
6.000
o.ooo
6.000
MATERIAL CODE GR428
-0.000 CAT,COPPER-CHROMITE
-0.000 NOT GIVEN
3700,000 NOT GIVEN
-0.000 3/16X3/16 INCH
-0.000 POWDER* TABLETS
6.000
o.ooo
6. ooo
o.ooo
6.000
o.ooo
o.ooo
o.ooo
-o.ooo MILD HYDROGENATION
o.ooo
o.ooo
o.ooo
6.000
o.ooo
-------�
MATERIAL CODE GR'+29
MATERIAL CODE GR429
CLASSIFICATION ~ I
COMPOSITION _2
"cgsfV"2CQ"ACTIVE " 3
_AVAlLA8LE SIZES 4
A V A f L A B L E S H A P E S~ 5
CRUSH ST_R ENGTH 6
"HARDNESS i~
__ PORE SIZE _ 8
PORE VOLUME' "9"
_SURFACE AREA 10
BULK DENSITY"Yl"
C R YS_TA L LINIT Y 12
'CRYSTALLITE' SI ZE~T3~
MAJOR USES 14
MAJQR~lJSES~ 15
VOLATILITY 16
PARTICLE OENSITY " 17
MAX. OP ._ T E_M P_. 1 8
~ATTRlTi"ON~19"
COMMENTS 20
-0
3700.
0.
o.
.
6..
o.
000
ooo
ooo
OQO
ooo
OQQ
ooo
ooo
ooo
ooo
ooo
CAT, BA PROMOTED CU2CR204
NOT GIVEN_ _
"BAR HIM ""
o
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.n
o
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ooo
ooo
ooo
ooo
0_._Q.OO
o.ooo
Q • 0 0 0
MATERIAL CODE GR«30
MATERIAL CODE GR430
"C L A SSI F TC A T 1 0 N
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE" SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
1
2
3
4
5
6
7
8
9
10
n
12
'13
14
15
16
PARTICLE DENSITY 17
6 MAx. OP. TEMP. 18
ATTRITION
5 COMMENTS
19
20
-n.ooo
"0.000
5500.000
-o.ooo
-0.000
o.ooo
o.ooo
o.ooo
• 290
155.000
60.000
o.ooo
o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
6.000
CAT, NICKEL ON KIESELGUHR
NI 65%, BALANCE KIESELGUHR
NONE
3/16X1/8 INCH
TABLETS, POWDER
TABLETS
TABLETS
HYDROGENATION
•
-------�
MATERIAL COPE GR431
—MALE RLAL_ C P D EL.. G R.4 31
CLASSIFICATION 1
_____ C OM PO S | T 1 0 N 2
COST, 2CD~ ACTIVE 3
-AVAILABLE SIZES__4
AVAILABLE SHAPES 5
HARDNESS 7
___ _ PORE SIZE B
"PORF 'VOLUME "9
__ .SURFACE AREA 10
BULK DENSITY 11
__„ CR_YJTALL_I N.I T Y _i_?
CRYSTALLITE SI /El 3
____ MAJOR USES 14
"MAJOR "USES 15
VOLATILITY 16
"PART Tci'e' OENS'I tV'T?
_ MAX* OP, TEMP. 18
ATTRITION 19
COMMENTS 20
-0
-0
6200
-0
-6
Q
0
0.
274
60
p
-Q
p
Q
p
"
.000
.»0 0 0
.000
.000
.000
A.O.OOL
.060
. o.o o
• 200
.000.
.000
•.QJOO
.060
• oop
.000
.•oo_o
.000
•MO.
.000
.000
CAT, NICKEL ON KIESELGUHR
NI 5494f ZH 2%
ZR 3.0
3/16X1/8 INCH
TABLETS, POWDER
.TABLETS
TABLETS
HYUROGEMATION
MATERIAL CODE GR432
MATERIAL CODE GR432
CLASSIFICATION
COMPOSITION
COST,, 2CD ACTIVE
AVAILABLE SIZES
1
2
3
4
-0,000 CAT, ZR
-0.000 NI 33%,
3000.000 ZR
-0.000 1/4X1/4
PROMOTED NT
BALANCE-NOT GIVEN
INCH
AVAILABLE SHAPES 5 ' -0.000
CRUSH STRENGTH _6_ _0.000
"HARD'NESS"-' i 0.060'
PORE SIZE 8 6.0.00
TABLETS
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
6 MAX. OP. TEMP.
ATTRITION)
9
10
11
12
13
14
15
16
17
18
19
o.ooo
0,000
o.ooo
o.ooo
o.ooo
-0.000 HYQROGENATION
0.000
o.ooo
0.000
o.ooo
0.000
-------�
MATERIAL CODE GR433
CLASSIFICATION) 1 -0.000 CAT* PALLADIUM ON CARBON
; ______ __ COMPOSITION 2 __ -.tt.oon PD I_TO 10%, CARBON BALANCE _____
COST, 2CO ACTIVE 3 49400.000 NONE
____ AVAILABLE SIXES _4 ____ -Q.QOO ?S% THROUGH 100 MESH _ __ _ __
AVAILABLE SHAPES 5 -6.000 POWDER* WET CAKES
______ CRUSH STRFjNGTH___6 ______ 0.0.0.0 ______ ___ __ __ _ ____
" ..... HARDNESS 7 " " 0.000
"; ______ _ PORE siZE_8_ ____ 5.0.00 ________ ___ _ ____ __ _ _
PORE VOLUME 9 p. 000
_____ SURFACE AREA lp__ _ 6.000 __ ________ ___ ____
'; ~BULK~~'DENSITY~Ti " ?6«000 " " ~" ..... "
__ ___ CRX51ALLINIJY_12 ____ _Q«J)PO ____________ __________
CRYSTALLITE SIZE 13 0.000
"; _____ ___ MAJOR,, USES U_ _ _ -Q.OQO_SyjRRY-TYPE _HYpROGE.NAJIQN ______
" MAJOR USES Ts~~ ~ o.'oo~o" " ...... " " ""
______ ____ VOLATILITY 16 ______ Q.QQO __________ _______ __
•" PARTICLE DENS FfV~l7~ "~ o'.OOo" ~" ~ '
_____ M_AXj _OP._JEMP._J_8 __ __ 0_. 000 ____________________
" ATTRITION 19 6.000
"^ ________ COMMENTS, 20_ ____ 6j._00_0 _______ ___. _ _ ___________
(^ __ " J ~ ™_ '~
N ' ' " ~"~
MATERIAL CODE GR434 ______________ ________ _ __ M_AT^J?J^L_.CODE_GR_434_
_> ^ s s-j F | c A T j Ofs|- -j - ^-g JJ-Q -C"A TT" PALL AD I UM~~ON"~c ARSON
____ _ COMPOSITION_ 2 -O.OQO PO 1_TO__10%« CARBON BALANCE ___
) ~ co sfV 2co "ACTIVE "~i ~'V9Tbo.ooo"~NONE " " ~ ..... "" ..... "
____ AV^A IL_A_8LE_J5I Z E S _ 4 _____ -_g .0 00_ 9J596 _T HROUGH 1 0 6_ME SH _____ : _______
AVAILABLE SHA'PEs "5 " " -o". 0~00 ~P6~w"DE~R»" WET""CAKES
") ___ CRL[SH_STRENGTH__6 _____ O.OQO ______________ __ ____ ___
" ""HARDNESS" "7 0,000
______ PORE SIZE a _ g.opo. _____ _____________
} ~POHE~VO'L"UME""9 ""p"."oOb~"
____ SU?FA_CE_AREA_IO_ _____ o_._ojgq _______ ________
BULK" [DENSITY U ? 6.000
) ___ _ CRYSTALLINITY 12 ___ 0«J»OQ_ __ _________ ___ ____
CRYSTAlLITE S"UE "13 Q.OOO -------
________ MA_JOP U.SES__14: ___ -OiOPO_SLJUR_RY-TYPE HYDRQG.ENATIQN _ __
) " MAJOR'USES 15" "" ..... 0.000 ~ ~" """ ......... "
7 _ VOLATILITY 16 0.000 _
OP« TEMP.
A'TfRTTlOKi
COMMENTS
18
1'9
20
O.p0_0_
Q.'oOO
-Q.QOO MANUFACTURING
-------�
MATERIAL CODE GR435
J1ALE.9.I AL _CODE. GR43.5
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
' CRYSTALLlNITy
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-o.ooo
-0,000
o.ooo
-o.ooo
-o.ooo
o.ooo
o.ooo
n.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
6. ooo
o.ooo
6.000
CAT» IRON OXIDE
NOT GIVEN
NOT GIVEN
2-8 MM
GRANULES
AMMONIA SYNTHESIS.
MATERIAL CODE GR436
MATERIAL CODE GR436
J
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALL.INITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
« MAX. OP. TEMP.
ATTRITION
s COMMENTS
j
t
I
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-o.ooo
-o.ooo
2400.000
-o.ooo
-o.o oo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
6.000
o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
1850.000
o. ooo
o.ooo
CAT» IRON OXIDE
NOT GIVEN
NOT GIVEN
1/4, 1/2, 3/4» 1-IMCH
SPHERES
AMMONIA DISSOCIATION
-------�
MATERIAL CODE GR437
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SHE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
N
MATERIAL CODE GR438
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
RULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
6 . MAX. OP, TEMP,
ATTRT1 ION
s COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
U
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
Tf
1?
13
14 .
15
16
17
18
19
20
-0
-0
817
-0
-0
0
0
0
0
0
0
0
0
-6
0
6
0
_o
0
0
-0
-0
81.7
-n
-0
?6
0
0
0
0
75
0
0
-0
-0
6
0
1200
0
6
.000
.000
.000
.000
.000
.000
• ooo
.000
.000
.000
.000
.QOO
.000
.000
.000
,000
• ooo
.000
.000
,000
,000
.000
.000
.000
.000
.000
.000
.000
.000
.000
• OOn
.000
.000
.000
.000
• 000
• ooo
.000
• 000
.000
MATERIAL CODE GR437
CAT, IRON OXIDE
NOT GIVEN
NOT GIVEN
1/16, 1/8 INCH
EXTRUSIONS
DEHYDROGENATIOM
MATERIAL CODE GR438
CAT. CR AND K PROMOTED IRON
NOT GIVEN
NOT GIVEN
1/8 AND 3/16 INCH
EXTRUSIONS
STYRENE PRODUCTION FROM ETHYL-
OENZENE? DEHYDRQGEM.OF CUMENE
-------�
MATERIAL CODE GR439
._CQDE_GR439_
CLASSIFICATION 1 -0.000 SOR, ACTIVATED CARBON
COMPOSITION 2__ ___ -Q.OOO _NO_T GIVEN
COST; 2CD ACTIVE "3 " 1320.000'NOT GIVEN
__AVAILABLE siZEs_4 _-6«oQQ 4x5, 9x30 MESH
AVAILABLE SHAPES 5 -O.QOO PELLETS, GRANULES
CRUSH STRENGTH 6 Q_. 0P0 •_
HARDNESS 7 00.000 %
'• PORE SIZE 8_ _ __6..00Q_
PORE'VOLUME" ~9 "".670
SURFACE AREA 1 Q_ __8._OO.OOQ_ • _
BULK DENSITY 11 O.QOO
_CRYSTALL_INITY 12_ fl.*.o_o_o
CRYSTALLITE SlTE~"f3~"~~ "g.OOO"
". MAJOR USES 14 _ -6.QOQ REMOVAL OF S?_CQMPDS FROM GAS
MAJOR USES 15 0.000
.VOLATILITY 16 p«000__
PARTICLE DENSITY 17 6.000
MAX. OP. TEMP.J^8__ Q. oQQ__
ATTRITION 19 0,000
"•'__ COMMENT^ 20 Q»PJ>0_ _
"*\
MATERIAL CODE GR44Q MA TEPI A_L _C C»D E GR44Q_
-\
CLASS'IFICAT'I'ON i -T.'doo""CAT.""PALLADIUM""ON' ^fo2-AL203 ""
_COMPOSTTIONj 2 -0.000 PD . 05-.5» SIO?-AL?03 BALANCE
~) COST, 2CD ACTIVE 3 10800.000 NONlt
AVA IL_AHLE $12ES_4 _.Q. 000_ 3/I 6 INCH
AVAILABLE SHAPES 5 -O.QOO SPHERES
"^ __Jr£u_S_li STRENGTH _6 Q.00.0 _ J
HARDNESS" 7 " "o.oo'b"
. PORE SIZE 8 0.000 __
•- PORE VOLUME 9 0.000
J5yRFACf._AREA j.0_ p_. 000
BULK" OENSTTY""l"l ~" "47."o6"b"~
) __c.RtSTA_LLi_NITY 12. _ _ _ n. 000_ _
CRYSTALLITE SIZE 13 " "o.oOO " '
J^AJOR USES 14 _ __^Q»OQ.O_ HYDROGENA.IJO_N _
• ~~ MAJOR"USES""15""" "" o.oOO " " "
j y°kAnLI TY_1_6 PiQpjO J_
PARTICLE OENS'ITY 17 ~ O.OOO"
OP. jEMP, 18_ _ p«OQO_ __
ATTRITION "19 " O.'OOO"""" "" " •
-------�
MATERIAL CODE HC?01
MATERIAL CODE .HC2Q1
CLTSSl'FICAriON T
_ __ COMPOSITION 2
cost 7" 2~co "ACT i VE ~ "3"
-AVAILABLE SIZES 4
AVAILABLE SHAPES" "5"
Jt ?JJ SH_ S T R E N G T H 6
'HARDNESS i~
PORE si2E_fl
" PORE:'~ VOLUME" "9"
__ __SURFACE AREA 10
BULK DENSITY 11
_? R Y-5! AJ- L1N11Y _L?.
' CRY ST A L LI t~E~STZ E~ 13"
__MAJO_R USES. 14
" "MAJOR"USES Ts
__ VOLATILITY 16
PARTICLE DENSITY" iT
-0.000 CAT, CHROME-ALUMINA
6,p.Qp_CR20_3 17.5% MJN., j\.L2p3__BAL....._
2000.000 NONE
0.000_l/8Xl/6 INCHES
-6.000 PELLETS, CYLINDRICAL EXTRUSION
L5»_O.PO_.MINIMUM
0.000
O.OOO
45.0PO MlN, _70. MAX,
60.000"MIN, 69 MAX.
0.._O.P_0
o.ooo
0.000 AROMATIZATION
_2.._000_. 1.40 OF
n.ooo
COMMENTS 20
O.QOO
o.ooo
MATERIAL CODE HC202
MATERIAL CODE HC202
" " "CL"
COST
AVA
ASSIFICATIOM
COMPOSITION
,< 2CO ACTIVE
ILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
RULK DENSITY
CRYSIALLINITY
CRYSTALLITE SIZE
MAJOR USES
7
MAJOR USES
VOLATILITY
PARTICLE DENSITY
6 MAX. OP, TEMP.
5
ATTRITION
COMMENTS
1
1
1
I
1
1
1
1
2
3
4
5
6
7
8
9
0
1
2
3
4
5
6
17
18
20
-0
6
2100
0
-0
10
0
6
0
330
53
_
0
0
n
0
-6
*
•
•
•
•
•
•
•
•
•
•
•
•
t
•
•
•
•
•
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
000
ooo
000
ooo
CAT, COBALT-MOLYBDATE ON AL2Q3
MO(OJ3 14.6? CO(0) 3.2? AL203
COO 3.2
1/8 AND
PELLETS
PACKED;
%
,
DESULFUR
5/32
CYLI
IZATI
REGENERATES,
INCH
NOR i
ON;
DIAMETERS
CAL EXTRUSION
HYDROGENATION
-------�
MATERIAL CODE HC203
.MATER.I.AI CODE. _HC203.
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SUES
AVAILABLE SHAPES
CRUSH STRENGTH
HARONE.SS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
' CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATTLITY
PARTICLE DENSITY
MAXt OP. TEMP.
ATTRITION
COMMENTS
1
2
3
4
_ ^
6
7
8
9
10
11
12
13
U
15
16
17
18
19
20
-o.ooo
o.ooo
1460.000
6.ooo__
-o.ooo
IS. 000
R.OOO
o.ooo
o.ooo
ISO. 000
49.000
o.ooo
o.ooo
-o.ooo
-o.ooo
o.ooo
79.000
o.ooo
o.ooo
-o.ooo
CRR, ALUMINA* HARD
AL203 98.0% NA20 0.1%
NA20 .1% .
3/32, 1/8* 5/32, 3/16 INCH
PELLETS, CYLINDRICAL EXTRUSION
MINIMUM; 30.0 MAXIMUM
MINJKNIFE EDGE, 1000G.
MINIMUM; iso MAXIMUM
MINIMUM, 80 MAXIMUM
GAMMA ALUMINA
REFORMING, ISOMER I 7 AT ION
ALKYLATION, DEHYDRATION
TRUE DENSITY, SOLID 230
MATERIAL CODE HC204
MATERIAL CODE HC204
CLASSIFICATION
COMPOSITION
COST,, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
1
2
3
5 "
6
-0
6
650
-6
0
6
•
•
•
•
•
*
000
000
000
000
000
ooo
CAT,
SI02
AL2n3
1/8 I
MINERAL
53%, AL203 45%
NCH
POR_E SIZE 8__ _ 6.QOO ______
PORE VOL'lJME " 9 ~ "~6."o66" ""
SyRFACE_AREA_JO_ _. Q80__MIN._ 0_._1 MAJU.
"BULK "DE'N'SITY "fi ~ " 56.000
CRJISTALLTNITY l?._ _ _Q.OOO_
CPYSf ALL I TE~S I ZE"13 "" ~" p .000
MAJOR USES_14 QjOOO_ ._
MAJOR USES 15" O.OOO""
VO LATJtL I_T_Y__ 1_6_ . 5 pj)_J 0 _2_. 0»_l4jP Of
PARTICLE DENSITY 17 O.OOO "" " ~'' ~
J??_! _I^.Mp..»_l?__ 6.000
AtTRlTION 19 T.OOO"
-------�
MATERIAL CODE HC205
.MAT ER I AL_CPP E_ H C 2 p 5
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP, TEMP.
ATTRITION
COMMENTS
1
2
3
4
... ^
6
7
8
9
10
11
12
13
14
15"
16
17
18
19
20
-0.000 CAT, KAOLIN
0.000 SI02. 53%» AL203 45% FE203 0.3%
1QO.OOO AL203 45%
n.ooo 0.17-0. IB
-0.000 PELLETS-.
o.ooo
QR.OOO HALL MILL
6.000
0.000
96.000 MINIMUM;
47.000
o.ooo
o.ooo
6.000
o.ooo
o.ooo
0,000
p. 000
o.ooo
o.ooo
INCH DIAMETER
CYLINDRICAL
HARDNESS
100 MAXIMUM
MATERIAL CODE HC206
MATERIAL CODE HC2.06.
CLASSIFICATION""!
COMPOSITION 2
COST," 2CO 'ACTIVE""3"
_Ay AlkA B LJL i1 z E ?_ _4
AVAll.ABIE SHAPES" 5"
__ C RU SJH_S T R E N G T H 6
HARDNESS" "7
PORE SIZF_ js
PORE "VOLUMF "9
SURFACE AREA 10
RUUK~DENS I'T YTI
___ C?V.5TALI-!NITY 12
CRYSf ALL'ltE" SIZE 13
0.000 CAT» PALLADIUM ON CARBON
o.ooo^ PO, s-io» AS. SPECIFIED
' "CARBON .......
0
6
o.
o.
MAJOR "USES T5~
VOLATILITY 16
~P A RTt ~CLT~DEN"S1 T Y"T T
MAX. OP. TEMP. 18
A T T RIT 10 N~ 1~9"
COMMENTS 20
P*
_0.
6.
6.
o'«
6.
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000
066"
ooo
ooo
ooo
_ _
P"0 WOE R
o p o _
600"
000 HYOROGENATION
0.
o«
p •
o.
p.
o.
000
_p_o_g_
o 6 o
ooo
ooF
-------�
MATERIAL CODE HC207
_M_AIER.I AL._CODE__HC2 OJL—..
CLASSIFICATION 1
__ COMPOSITION 2
"COST",~"2C6 ACT I'VE""3
__AVAILABLE SIZES_ 4
Av AJ L ABLE' SHAPES "~5
CRUSH_ STRENGTH. J>
"HARDNESS
_P.ORE SIZE
PORE"VOLUME
__ SURFACE AREA.
RULK DENSITY
_C R Y SJ A L LI N_I T Y
CRY S'f'A"L L"I t E" SITE
MAJOR USES
MAJOR" USES
VOLATILITY
"PARTICLE" DENSITY
MAX. OP, TEMP.
7
8
"9
10
11
12
"13"
14
15
16
17
-0.
__________ 0.
39000.
_______ 0 .
000
000
000
0 0 0.
-o.ooo
CAT* PLATINUM ON ALUMINA
PT 0.5°f,_AL2.03 .BAL.
NONE
3/32 TO 5/32 INCH DIAM.
PELLETS, CYLINDRICAL EXTRUSION
o.ooo
6.00 o
o.ooo""
BO.ooo...;.
o.ooo
ATTRITION
COMMENTS
19
20
o.ooo
o.ooo DEHYOROGENATIOM; HYDROGENATION
6.006 REFORMING; ISOMERIZATTON
._.2.500.._MAXIMU_M __
o.ooo " " " - - ---
__ jLtMP. 1
o.ooo
-6.000 51 LBS./FT.3» LOADING DENSITY
MATERIAL CODE HC209
MATERIAL CODE HC208
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SI/ES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
RULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
6 MAX. OP, TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
a
9
10
11
i?
13
14
15
16
17
18
19
20
-0.000 CAT, PLATINUM ON ALUMINA
6.000 PT 0.5%, AL203 BAL,
5300.000 NONE
-0.000 0.1 INCH DIAMETER
o.ooo
21. 200
o.ooo
o.ooo
o.ooo
227.000
53.000
0*000
o.ooo
o.ooo
o.ooo .
1.700 1400F
o.ooo
o.ooo
o.ooo
-------�
MATERIAL CODE HC209
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE size
PORE VOLUMr
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SHE
MAJOR USES
MAJOR USE?;
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP,
ATTRITION
COMMENTS
"\
MATERIAL CODE HSlOl
CLASSIFICATION
COMPOSITION
COST,, 2CD ACTIVE
AVAILABLE SIZES
. AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
RULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
e MAX. OP. TEMP.
ATTRITION
G COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
"I 5 ~ ~
16
17
18
19
20
1
2
3 .
4
5
6
7
8
9
10
11
12
13
14
15
16
17
IB
"19 -
20
-n.ooo
o.ooo
900.000
o.ooo
0.000
o.ooo
o.ooo
82.000
o.ooo
?QO«000
39.000
n.ooo
o.ooo
O...OQO_
-o.ooo
o.ooo
62.000
n.OOO
o.ooo
-o.ooo
-n.oOO
-n.oOO
o.ooo
-o.ooo
-o.ooo
9.000
o.ooo
o.ooo
.280
80.000
44.000
n.ooo
o.ooo
-o.ooo
o.ooo
o.ooo
n.ooo
o.ooo
n.ooo
-0.000
>
MATERIAL CODE HC2Q9
CAT* SILICA-ALUMINA, SYNTHETIC
SI02 87,3%! AL203 12,4
AL?03 12.4%
4X4 MM,
PELLETS
MINIMUM, 315 MAXIMUM
FIXED BED CRACK iNfi;
ISOMFRIZATION, ALSO CARRIER
PEGENERABLE BY AIR
MATERIAL CODE HSlOl
CRR, ALUMINA CATALYST
AL203 99
NONE
1/8 TO 1/4 INCH DIAMETER
TABLET
TO 25 (DEPENDING ON SIZE)
MIN. ,33 MAX.
MIN. 100 MAX.
TO 5R (DEPENDING ON SIZE)
DRYING AGEMTt DEHYDRATION
-------�
MATERIAL CODE HS102
. M. AXE PI A L C QOE_ H S1 0 2
CLASSIFICATION 1 -0-000 CRR, ALUMINA CATALYST
.COMPOSITION 2 r-Q.OOO AL203. 9.6 _
COST, 2CD ACTIVE 3 0.000 NONE
AVAILABLE SIZES_4 -0.000 1/8 TO 3/8 INCH DIAMETER _
AVAILABLE SHAPES 5 -0.000 TABLET
CRyS.H_STReH(»lH__6__ J?5.00_0_1Q__6.3 (DEPEND I NG__O.N SlZE>__
HARDNESS 7 Q.OOC
, PORE SIZE 8 _ _D.QOO_
PORE VOLUME 9 .420 M~IN, ,51 MAX.
S.URFACFt_AREA._lO._ ._...i;8ft..oOO MIN« 200.MAX.
RULK DENSITY 1,1 47.000 TO 55 (DEPENDING ON SIZE)
CPYSTALLINITY_12 QjLOPJD
CRYSTALLITE" SIZE 13 o.ooo" " ~ " '
MAJOR USES 14 _ __ rQ.QOO DRYING AGENT» DEHYDRATION
MAJOR USES 15 6.000
VOLATILITY.16_ _ _.9,0.00 __
PARTICLE DENSITY 17 0.000
MAX, OP._ _T.EMP. _18 0.00 Q L .
ATTRITION 19 Q.QOO
;; C 0 M_M E NITS 20 - p.. 0 00 HIG H A C TIVI T Y_. A L U M T N A CARRIER
**
MATERIAL CODE HS103 M ATE_R! A L, _COD_E___H S1Q 3_
' ~v
CLTssTri"c"A"TTON i -"o",6O"O~CR"RT ALUMiNA~cA~T:AL~YS"T
_ COMPOSITION 2_ _ -0.000 AL203 98_ _
} COST, ?CD ACTIVE 3 " 0-000 NONE
AVAJLABLg _5IZES _4 =.Q._OQO i/8_ INCH plAMEjER .
AVAILABLE SHAPES 5 -0,000 'EXTRUSION
; CRUSH STRENGTH k _ 3|',OQO _„_
"""HARDNESS" 7 o.ooo """ " """ ~----
__PORE_SIZf 8 . _ __0.000
--j PORE" VOLUMF." "9"~ " " .560
_syR^CE_AR.E^_lp_ 151.OPO
'RULK "DENSITY 11 " 4?.obo" PACKED
"i CRYSTALLI_NITY 12 o.oo.o
CPYSfALLITE SIZE 13 0.000
MAJOR USES_14_. 6.000 _ __
"MAJOR "USES "15 ' " ~o","66o" ~"
2 . V OJLATJ LIT Y_L§ 6 ...0 00
PARTICLE DENSITY 17 ' " ' ~0.000"
OP,_TEMP._18 0_.000
~ATTRITION ~f9" "O.OOO"
-------�
_HS1 Q4
)
)
CLASS' iTfCA'TTONJ F" ^
_ COMPOSITION! _ 2 ___ -0.000 AL203 92>_SI02 6
coSTY 2co ACTIVE ""3" ..... ""Q.6bo""sio2""6fc
.AVAILABLE SIZES _4_ __ -O.OQO 1/8 INCH DIAMETER __
AVAILABLE SHAPES 5 -O.'oOO EXTRUSION ........ ......... .....
CRUSH STRENGTH^ _ 6 ___ _J*tOPP_ __________________
~ "HARDNESS" "T"" "" n.obb""'
PORE SIZE 8 JNOPO __
"PO'RE" VOLUME" "9 " ...... "Yqib" " "' " ............
___ J5URFACE AREA 10 277.000 • _ ___
RULK" DENSITY" li ""3.1.000 PACKED ""' " ......... " ........... " .......... "
_CRYSTALLINI_TY_12 ___ _Q.QQQ ____ _• ____ ___
C'RYSfALLltE" SIZF i~3~" " "" "q~."bOO " " - - — .....
_^AJpR VSEs u _ _ 6. .000
MAJOR" USES' is"" ~"o."ooo~"". ........
_yOLA'TlLITY 16 0«QOQ _ _ _______
PARTICLE : DENSITY "l?" ...... "' 0,000 " ............ .......... "
ia ____ Q.QOO _____ __ _____ ____ _ ___
19~ ""o"."o"00"
CPJMMENJ_S ^_0 ______ - p • OP 0_H I_GH ACT I V I T_Y_ ALUM T MA _C ARR 1 ER
.-._._.__.. ____________________________ MAJJEPT AL _C_Pp_E _HS 1_05
CLASSIFICATIOKr""! -67obo" "CRRTTLUMlN'/i" CATALYST .........
COMPpSTTION__2_ ___ -O.QOO AL203_97_ _ _ _ _ _ :
2CO ACTIVE 3 ""o'/OOONONE ----- — — - ..... .-
ABLE _SI2ES__4_ ____ -5L.O.P_0_l/8_INCH p_I_AMe_TER _ __
A"V"AILA"BVE""SH"A~P'ES " 5 "-O"
9(^y_s±^IRfNGTH.__6 __ H
HARDNESS""?" ....... "p.'bb'o"
PORE SIZF 8 O.QOO
""PORE VOLUME "9 .770
S_U R F A C E__A R E A 10 _____ 2 1 8 • 0 P_0
BULK"DENS"rrY""lT ~3?7bbh"
CRYSTALLINITY 12__ ___ J.
CRYSTALLITE SIZE" i.3 "" ""g'
MAJOR USES 14_ ____ O.QOO ____ ___________
~ MA'J6R"USE"S"15 " ..... "" "o.OOO" " ' " ~~ " ~
V 0 L_A_T I_L I T Y_ 1 6 __ _____0j._p 0 0 '_ ___ __ _____
PARTICLE DENSITY 17 O.o"00~
OP. TEMP._1« __ Q.OOO __________ ____
ATTRITION 19" " 0/0 00
-------�
JjlMIFjAL—C.P-P-E.HSiP^ MATERIAL .CODE ..HS1 06
cTTssTFicATTON~~T^"6Tb~oo~"CA"f» cO¥AL.T 6"xTDE~ ON~ALUMINA~
COMPOSITION 2_ _ -Q.OOO COO 10, ..BALANCE ALUMINA. _
COST, 2CD ACTIVE 3 O.OOO NONE
AVAILABLE SIZES 4_ -6.000 3/16. INCM..OI A.METER
AVAILABLE SHAPES 5 -0.000 EXTRUSION* BLACK
CRUS_H_ S T R EN GTH __6 56. 0 O.Q .
"HARDNESS 7 "o.ooo
PORE SIZE o o.ooo
PORE VOLUME 9 " " .070
SURFACE. AREA 10. _6»80Q •
BULK "DENSITY ii75.000 PACKED
~CR Y'ST "A LTl T E" "SI"2 E~i 3~~n 7 00 0~~
/, _ MAJOR USES 14 -6.000 SYNTHESIS OF HYDROGEN _S'JLF IDE
MAJOR "USES 15 "" 0.000 '
VOLATILITY 16 p. 000 _
PARTICLE DENSITY 17 p.000
MAX. OP, TEMP, 18 IL.0.00
"ATTRITION 19 0.000
'_; .Cj)MMf.N.TS_2_0 .6.^000 _. _..
~\
j
\
MATERIAL CODE HS107 MAJ.ERI_A.L.C.O_DE_. HS 1 07_
i J _ ... _. .. ._
CLASSIFICATION 1 -6.000 CAT, C00» CUO ON ALUMINA
COMPOSITION 2 -0.000 COO S» CUO 5i BALANCE ALUMINA
O COST, 2CD ACTIVE 3 . O.QOO COO 5%« CUO 5%
AVAILABLE SIZES_4 -6. OpO_l/8_ INCH DIAMETER
. AvAiLABL'E" SHAPES" s •" -nTo'do TABLEfV"BLACK
O CRUSJH STRENGTH 6 U.OOO
HARDNESS " 7 """ 0.000 ~ " ""
PORE SIZE 8 _ 0.000 _
"; PORE VOLUME 9 .290
SURFACE A_REA_IO 59.0.00 __ _ _
BULK "DENSITY" "11 " "67.ooT PACKED "" "~ """ " "
,) _CRYSTALLTNIT_Y 12 o.ooo _
CRYSTALLITE SIZE 13 p.000
__ MAJOR JJSES _14 j-Q.OOO HYDROGENATION, DECOMPOSITION
MAJOR USES 15 p.000
_T VOLATILITY _16 Q.QOO
PARTlCLF."' DENSTfY" 17 " p*"ob~6
_s _MAX. pP._ TEMP. 18 6.000
ATTRITION 19 0*000
-------�
MATERIAL CODE H5108
MAJ _ER_T..AL „CQ0E HS1 Q 8.
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLI.NITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP, TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
9
in
11
\?.
13
14
15
16
17
18
19
20
-0.000
-o.ooo
6.000
-o.ooo
-o.ooo
74.QOO
0.000
o.ooo
.400
160.000
60.000
o.ooo
o.ooo
-o.ooo
0.000
6*000
o.ooo
o.ooo
o.ooo
6.000
CAT, C00» M003 ON ALUMINA
COO 3» M003 9, BAI ANCE ALUMINA
COO 3%
1/8 INCH DIAMETER
TABLET
PACKED
HYDROCARBON DESULFHRIZATION
MATERIAL CODE HS109
MATERIAL CODE HS109
CLASSIFICATION
COMPOSITION
COST, ?co ACTIVE
AVAILABLE SUES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLIMTY
CRYSTALLITE SIZE
MAJOR USEs
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
5 MAX. OP. TEMP.
ATTRITION
s COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
"17 ""
IB
19
20
-o.ooo
-o.ooo
o.ooo
-o.ooo
-o.ooo
P4.QOO
o.ooo
o.ooo
.400
166.000
64.QOO
6*000
o.ooo
-0.000
o.ooo
o.ooo
o.ooo
o.ooo
0*000
o.ooo
CAT* C00» M003 ON ALUMINA
COO 3» M003 12, BAL. AL203
COO 3%
1/8 INCH DIAMETER
TABLET
PACKED
HYDROCARBON DEsULFliRlZAT ION
-------�
MATERIAL CODE HSllO
_MAT.ER iAL CPOE...HS.Uo._.
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURKACF AREA
RULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-o.ooo
-o.ooo
0,000
-o.ooo
-o.ooo
£4 . 0 0 0
o.ooo
o.ooo
.400
l^o.ooo
69.QOO
6. ooo
o.ooo
-O.QOO
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
CAT, COO, M003 ON ALUMINA
COO 3, M003 9, BALANCE ALUMINA
COO 3%
1/8 INCH DIAMETER
TABLET
PACKED
HYDROCARBON DESULEilR IZAT ION
MATERIAL CODE HSlll
MATERIAL CODE HSlll
0
CLASSTETCATION l"
^COMPOSITION, 2
"CQS'T, 2CD ACTIVE '3
AVAILABLE SIZES 4
-0
0
AVAILABLE SHAPES 5
CRUSHJSTRE.NGTH 6
HARDNESS 7
PORE SIZE 8
"PORE"VOLUME "" 9
SURE ACE AREA_ 10
8ULK "DENSITY"" 11
__CRYSTALLINITY 12
"CRYSTALLITE SIZE 13"
_MAJOR USES 14
.._ __.„_. gSE5 i(_
VOLATILITY
P A R T I C"CE DEN51 T Y
_OP. T_EMp.
ATTRITION"
COMMENTS
-0 *
._.$•.
16
IT
18
19"
20
6?.
_6«
Q»
-o.
o»
6.
ooo
ooo
ooo
OQO
ooo
ooo
ooo
ooo
310
ooo.
ooo
ooo
ooo
OPQ
006
ooo
CAT, CHROME ALUMINA
.CR2Q3 12, MOO 2* .BAL. ALUMINA
MGO 2%
TABLET, GREEN
PACKED
DEHYDROGENATION
0.
°«
-0.
ooo
ooo
ooo
ooo
-------�
MATERIAL CODE HS112
_M A.TE_RJ_AL_CODE.. HS 1.12.
CLASSIFICATTOiM" l"
_ COMPOS!TI ON_ 2
C0ST\ "2 CD "AC~TI"VE 3
AVAILABLE SIZE'S 4
A \7 AI LA B L E S H A P E~S 5"
_CRUSH_STRENGTH 6
HARDNESS" 7~
PORE SIZE 8
PORE "VOLUME "9
__ SUREACE AREA 10
BULK' DENSITY 11
_' _CRYSTALLINITY_J.2
"CRYSf ALUTE" SIZE IT
MAJOR USES 14
MAJOR" "USES"" is"
.VOLATILITY 16
"PAR'TICUE "DEMSify"11
MAX. OP. __T_E M P. _ 1JL
ATTRITION! 19
COMMENTS 20
-0.000 CAT* CHROMIUM OXIDE ON ALUMINA
..T.Q • 000 CR2Q3_ 19 i. 8ALAN.CE._A.LUMINA
6.000 NONr
_-o.opp 5/32 INCH DIAMETER
-6.000 TABLET
JL.9...0 00
0.000
_o.ooo
.•290
60.000 •
60.000 PACKED
__O.OQO_ ^__.
6.060
_TO.?.O.QP ..PEH_Y_DRQGENAT I_ON_ O.F .BUTANE,
o.ooo
o.ooo
o.ooo
__a...o oo
o.ooo
_-J>-OQ_Q_ACII^ATED ALUMINA CARRIER
MATERIAL CODE HSH3
MATERIAL CODE HS113
j
j
\ 5
""' CLASSIFICATION"
_ _COMPOSITION
COST* "2 CO" AC T IV E "
_A V A ILA B L_E_S I Z E S
"AVAILABLE 'SHAPES
__ CR_USH_ STRENGTH
"HARDNESS
PORE SIZE
PORE "VOLUME
____ SURf_ACE _AREA
B.ULK "DENSI'TY
'CRYSTALLINITY
"C R Y"S f A L L"I f E" "SI Z E "
____ MAJOR _USEs
MAJOR USES"
__ __ V 0 ^A TJ U I T Y
"PARTICLE D'EN'SITY
___M_A_XJL_ 0 P . J E M P ._
ATtRlTIOM
COMMENTS
i"
2
"3
4_
5
6
7"
8
9
__
if"
)2
13"
-0
-
-o.
J2«
o.
_ 0"
o.
p.
1 OS~.
1 6
1"7
! 8_
19
20
ooo
ooo
ooo
oo c
o"oo"
ooo
ooo
ooo
ooo
0.00
000
ooo
ooo"
ooo
ooo
"p."ooo
Q«000_
"6.060
o.ooo
"CAT i COPPER CHPO'M i f E"
CUO 37, CR20.3 52. __
CUO 37?n
1 /fL I NCKi_pJ_AMElTER
"TABLET "
PACKED
o
-------�
MATERIAL CODE HS114
__MAI£RIAL._C0DE_. HS. 1.1.4.
CLASSIFICATION 1 -0.000 CAT, CLIO ON ALUMINA
" COMPOSITION 2 -0.000 CUO 5» BALANCE ALUMINA
COST, 2cb ACTIVE 3 o.ooo NONE
-AVAILABLE SIZES 4 _ _-6.000. 1/2 INC.H DIAMETER _
AVAILABLE SHAPES 5 -0.000" SPHERE, GRAYISH BLACK
CJ^SH^STPENGTjl _6 240.0.00__ _
HARDNESS" f" ~ o.ooo
"* PORE SIZE 8 _ 0,000
----- "PORE VOLUME "9"" " ".070 " "~ "" ""
SURFACE AREA 10 l.QOO
'; BULK DENSITY 11 7«s.OOO PACKED ~
C_RYSTALLTNITY_J2 Q_..OOC ___
CRYSTALLITE SfZE 13" 6.000 "
.MAJOR USES 14 _ __-Q.OOO REMOVE_02»CO«H2 -GAS STREAM
MAJOR USES 15 6.000
VOLATILITY 16 _ 0.000 __
;'"• PARTICLE DENSITY 17 0.000
M_A X_._ P_P •_II-IP ._ 1_8 Q • 00 Q_
"ATTRTT'ION 19"" 6,000
-"; .cp_MMENT_s._2o Tn»ooo_ INERT ALUMINA CARRIER
\
MATERIAL CODE HSU5 M A_TE_f?J AL.J-P.OE . H.S 115
CCASS'IFICATION "1 -q."oOb~CRRT MAGNESIA ~ ~
COMPOSITION 2 -O.OOO MGO 98
_) " " cpsT,"2Cd "ACTIVE "3" o.ooo NONE" "~ "
. E SH A PE S "~"5 ~- o76 6 0~ f A BLE"f,"~GR A Y ' W HI T E
_C.^UJH__S_T.RENGTH 6 25.000 __
HAR'DNESS 7 " o.ooo " """"""
_PORE SIZE B_ 6..ooo
PORE VOLUMF 9 .200
BULK""DENSiTY~Ti "74", o'oo PAcKE6 '
CBYSTALLINITY 1_2 _ n.00.0
"CRYSTALLITE "SIZE "13 '"" 6.000" " " "
__MAJOR USES 14' _ _O.QOO
M~AJOPr"USE"s""l"5""" " ""o.OOO
________ _. ^_ g. j_ .____ __._._
j MA_X._PP. jt'.Mp. is o.ooo _
. . ^._...._ TI^__.^ ^.^^.__
-------�
MATERIAL CODE HS116
HS 116_
CLASSIFICATION
__ __ COMPOSITION
COSTT2CO 'ACTIVE
_AV-AiLA3LE SIZES
"AVAILABLE "SHAPES"
__CRUSH_ STRENGTH
HARDNESS
___ PORE SIZE
" ...... PORE" VOLUME
_ _ SURFACE AREA
BULK "DENSITY
__ C R YS T A L L I_N I T Y
CRY 5 f A LL "ft "E" STZ F
_____ MAJOR USES
"MAJOR" USES
VOLATILITY
p "ART T "el E b EN s I'TY"
CAT» IRON OXIDE ON ALUMINA
FE203 5» BALANCE ALUMINA
NONE" "" """ ""
3/8 INCH DIAMETER.
SPHERE
ATTRlTfON
COMMENTS
1 -0.000
_2 -g.opo
3 " ~ "p.OOO"
4 -f!«000_
s -p.ooo
_6 fefljtQO.Q.
7 Q. 0 010
8 Q • 0 0 0
. ^ ~Vo6d"
10 _ j«ooo_^_
11 75.000 PACKED
12 _Q«QQO
13 0. OOO"
14 -p.J)PO
15 p.000
16 0. 000
17"" p. 000
1_8_ (U-OJLP_
19 0.000
j?_0 -0 . p p_0.._I N E R T__ A L,U MIN A __C A R RI E R
A_PECQM_PQSI T.I ON
"N.
MATERIAL CODE HS117
__MIgf?JAl-^CODE_JMSn7_
.,/
CLAS'SIFTCATION ~"f " ~'-p,000 CA"fV MOLYBDENUM " s'ULFIDE
_ _ COMP9S.ITION. —2 _. -J.OOp MOS2 44 __
"cnstV 2"co"ACTIVE 3" "o.ooo NONE
AVAILABLE SHAPES 5 -0.000 POWDER* BROWN
CRJJSH STRENGTH^ 6 _ p. 000
""HARDNESS " i~" ~~~ p.'b'o'o ~
PORE SIZE B _ __6.000
PORE VOLUME ""9
460
SURFACE AREA 10
RULK DENSITY 11
") CRYSTALLINITY 12
MAJOR USES 14
) MAJOR USES 15
? VOLATILITY 16
PARTICLE DENSITY 17
. s MAX. OP. TEMP. 18
ATTRITION 19
5 COMMENTS 20
1O. 000
51.000
o.ooo
p. ooo
-o. ooo
0.000
o.ooo
o.ooo
o.ooo
PACKED
OEHYOROGENATIOMj HYDROGEN AT JON
•OESULFURIZATION
-------�
MATERIAL CODE HS118
_MAJ.ER.LAL_CODE . HS118
-CLASSIFICATION 1
COMPOSITION 2
cpsT,"2CO "ACTIVE" 3
AVAILABLE SIZES 4
-O.OPO CAT.
..-.Q.OOO.MN02
0»000 NONE
.-Q»O.OP._.1./8_._1NCH_P_IAMETER.
MN02 ON ALUMINA
19__» _B.AL.ANCE. ALUMINA.
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE size:
PORE VOLUME
SURFACE AREA
"BULK" DENSITY
CRYSTALLINITY
5
6
7
8
9
10
11
12
-n.ooo
3R.OOO
o.ooo
o.ooo
.230
69.000
70.000
o.ooo
TABLET, BLACK
PACKED
CRYSTALLITE SI2F 13 0.000
MAJOR USES U -6.000 _pXIDATIQ_N
MA~JOR"USES"T5 ~ ~ 0.000 "
VOLATILITY 16 6.000
PARTICLE DENSITY
MAX. Q'P. TEMP,
ATTRITION
0.000
17
U
"19 " 0.000
so. - o. ._o OO__AC_T i v:ATEP_ALAJM i NA CARRIER.
MATERIAL CODE HS119
MATERIAL CODE HS119
"CLASSIFICATION ~ T
COMPOSITION 2
-o
-0
~\
"COST ,7"2CD" ACTIVE
_ Ajy^.T LA_a L! SIZ E^
A V AI LA B L" E S H APES
CR_USH_ STRENGTH^
"HARDNESS'
PORE SIZE
"
5
6
"7"
8
9~
S U R F_A C E _ A R E A _ 1 0
BULK DENSITY" i T"
CRYSTALLINITY 12
"CRYSf ALL I'tE"" SIZE "13"
-o
?i
6
o
.000
.000
.000
_._pp_p.
.000
• opo
.000
• 0 Q 0_
CAT* NICKEL OXjDE ON ALUMINA
NIO 32* BALANCE ALUMINA
NONE
5/32_JNCH JD
"TABLEf"
5.2
87
_p
6
• 230
•_QP_0_.
• 000
.000
'S 6
J —
_.
OSES'"!"5"
V^CI LA T T. LIT Y__l^_
PARTICLE DENSTTY 17
OP* L^1^* J8
ATTRTTTOM 19
COMMENTS 20
-o
.000
• poo
.000
• ooo
."o o o
• opo.
.000
. 0 0 0
PACKED
HYOROGENATIOM
ACTIVE ALUMINA CARRIER
-------�
MATERIAL CODE HS120
M A T E RIA L CODE___H S12 0
CLASSIFICATION 1 -n.QOO CAT» NI.Wi ON ALUMINA,SULFIOEO
COMPOSITION 2 -0,000 NI 4.5*. W..9.5? S , R.AL. AL203
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES'
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUMc
. SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
3
4
"5""
6
7
H
9
10
11
12
13
U
15
0.000
r.o.O.QO
-0.060
n.QOO
o.ooo
.410
104.000
60.000
6.000
o.ooo
-6.000
o.ooo
NI 4.596
1/8 INCH DIAMETER
EximjsfoN ' "" ""
PACKED
HYDROGEN ATI ON* DENITROGENAT ION
ILJ TY 1.6 0.,00.0.
PARTICLE DF.MSITY 17
MAX«_OP,_JEMP_. 18_
AfTRTtfON T9
COMMENTS 20
0.000
_-Q_._0 0 0_
o.ooo
-o.ooo
MILDLY ACIDIC
MATERIAL CODE HS121
MATERIAL CODE HS121
J
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
s MAX. OP. TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-o.ooo
-0.000
o.ooo
-o.ooo
-o.ooo
?3.000
o.ooo
o.ooo
.450
139.000
54.QOO
o.ooo
o.ooo
-o.ooo
o.ooo
o.ooo
0*000
o.ooo
o.ooo
o.ooo
CAT, VANAOIA ON SILICA-ALUMINA
V205 10, BAL. SILICA-ALUMINA
NONE
1/8 INCH DIAMETER
TABLET, ORANGE
PACKED
OXIDATION
-------�
MA_TER I AL_CO0E_HS 1.22
-MA.TE Ri A L -C Q.D E _ H S12 2..
CLASSIFICAl ION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRFNGTH
HARDNESS
PORE SIZE
PORE VOLUMfT
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SUE
MAJOR USES
"MAJOR "USE'S"
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-o.ooo
-o_»ooo_
o.ooo
_ -T 6..0 00.
-o.ooo
2ft. 000
o.ooo
o.ooo
.280
115.000
60.000
6. ooo
o.ooo
-o.ooo.
o.ooo
6,000
o.ooo
6.000
0.000
-o.ooo
CAT* VANADIA ON ALUMINA
.V205. 10, .BALANCE ALUMINA
NONE
1/8 INCH DIAMETER
TABLETS, ORANGE
PACKED
OXIDATION _.... _.
HIGH ACTIVITY ALUMTNA CARRIER
MATERIAL CODE HS123
MATERIAL CODE HS123
CLASSIFICATION" r
^COMPOSITION 2
"COST," 2CD ACTIVE""3"
AVAILABLE SIZES 4
-o.ooo
.-0.0 0 0
o.ooo
-6.000
CAT»
V205
NONE
1/4 INCH
VANADIA ON ALUMINA
IQ.v.. BALANCE". ALUMINA
DIAMETER
SHAPE'S" " 5 ~ -p.ooo SPHERE* ORANGE
C.R_L!5.I1_S_TRENGTH_ 6_ 6.000
HARDNESS 7 6,000
PORE SIZE 8 O.OOO
PACKED
PORE VOLUMF 9 O.QOO
SURFACF_AREA_ 10 l»_ooo
"BULK"DEN'Si TV ~iT " " BO. o6b"
CRYSTALLTNITY 12 __ 6_.ooo
'CRYSTALLITE" SIZE 13~" o.ooo ~
MAJOR USES 1A__ ___-.6.00p_QXlDATlON
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
MAX. OP, TEMP.
ATTRll ION
5 COMMENTS
15
16
17
18
19
20
o.ooo •
6.000
o.ooo
o.ooo
o.ooo
-------�
MATERIAL CODE HS124
CLASSIFICATION
COMPOSITION
COST, 2co ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
"BULK" DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
"\
MATERIAL CODE HS125
CLASSIFICATION
COMPOSITION
"" "COS TV 2 CO" ACT I'VE"
AVAILABLE SUES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE" SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
s MAX. OP. TEMP.
ATTRITION
. s COMMENTS
1
2
3
4
5
6
_.. ..
8
9
10
11
12
13
H
15
16
17
18
19
20
1
2
3"
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-0
-0
0
-0
-0
IQ 0
0
0
. n
11?
0
0
-0
0
0
0
0
0
6
-0
-6.
6
-0
-0
0
0
6
o
6
0
__ 0
0
-0
0
6
0
6
0
-0
.000
.000
.000
.000
,000
• 0.0_Q_-
.000
.000
.120
.000
.000
.000
.000
.000
.000
.000
• ooo
.000
• ooo
.000
.000
• ooo.
.000
.000
,000
.000
,000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
• ooo
.000
MATERIAL CODE HS124
CAT» ZINC
ZNO 75, AL, MG, CA, CR OXIDES
AL203
1/4 INCH DIAMETER
TABLET
PACKED ~
DESULFURIZATION .
MATERIAL CODE HS125
CAT, CHROMITE
ZNO 74, CR203 ?3
CR203"23%
3/16 TO 3/8 INCH DIAMETER
TABLET
SYNTHESIZE METHANOl.
-------�
MATERIAL CODE HS126
—MATERIAL CODE.MS 126
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIV'E
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
RULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARflCLE DENSITY
MAx. OP, TEMP.
ATTRITION
COMMENTS
---
1
I
I
I
I
1
1
1
1
1
2
3
4
5
6
7
8
9
0
1
2
3
4
5
6
7
8
19
20
-0.
-o.
0.
6,
-0.
6.
0.
o.
0.
6.
so.
0,
ooo
ooo
ooo
ooo.
ooo
ooo
ooo
ooo.
ooo
ooo
ooo
ooo
o.ooo
. .-o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
o.
o.
ooo
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CAT* SILVER ON ALUMINA
AG 4.0 BALANCE AL?03
NONE
1/8 IN. EXTRUSION
OXIDATION OF METHAMOL TO FORM-
ALDEHYDE
MATERIAL CODE HS127
.WATER! AL_. CODE _HS 127
CLASSIFICATION 1
__ ^COMPOSITION 2
COST, 2CD ACTIVE^ 3
iJjyjUL^LE SIZES 4.
AVAILABLE "SHAPES " 5~
CRUSH STRENGTH 6
HARQNESs 7
__ PORE SIZE 8
PORE VOLUME 9
?URE ACF _A RE A _ 1_0
"RULK"DENSITY Tf
CRYS1ALLINITY 1.2
CRYSTALLITE SIZE 13
MAJOR USES_14-
""MAJ"O~R" USES 15~
VOLAILITY 6
"PARTI
MAX
-0
-0
._J).
0
._6
.000
• ooo
,000
•_o_oo.
.000
• OOP.
SOH» ALUMINA
AL2Q3_98%» BALANCE MOISTURE
NONE
"PO WDER"
.000
..000
5S
0
iQOO
>.oop_.
>ooo
'.OPQ.
ooo
000
ooo
CLE DENSITY 17
. OP. TEMP. 18
ATTRITION 19
COMMENTS 20
o.ooo
6.000
-------�
MATERIAL COOE HS128
CLASSIFICATION
COMPOSITION
COST, 2CD ACT IVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH.
HARDNESS
PORE SUE
PORE VOLUME
SURFACE AREA
~"RULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZF
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE HS129
CLASSIFICM ION
COMPOSITION
COST, PCD ACTIVE
AVAILABLE SIZES
AV~AILABCE"SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUME.
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE.
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
6 MAX. OP. TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
q
10
11
12
13
14
15
16
17
IB
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
MATERIAL CODE HS128
-0.000 SOR, ALUMINA
-0.000 AL203 98%» BALANCE MOISTURE
0.000 NONE
6.000
-0.000 POWDER
6.000
o.ooo
0.000
0.000
. . 150.000 ./._... __.. .
54.000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
6.QOO
MATERIAL CODE HS129
-0.000 SORi ALUMINA
-0.000 AL203 92%
0.000 NONE
-6.000 80-325 MESH
-0.000 POWDER
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
55.000
0.000
0.000
-0.000 CHROMATOGRAPHlC ADSORPTION
o.ooo .
o.ooo
o.ooo
o.ooo
o.ooo
-------�
MATERIAL CODE HS130
CPPE...HS.1 30_
CLASSIFICATION 1
COMPOSITION 2
"cos"T,"2CD 'ACTIVE " 3
AVAILABLE SIZES 4
-0.000 CRR» ALUMINA
-0,000 AL203. .97% ._.
0,000 NONE
-0,000 76% 80_MICRONS
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
.VOLATILITY
PARTICLE DENSITY
MAX, OP. TEMP.
ATTRITION
COMMENTS
5
6
7
8
9
10
11
12
13
14
15
16
17'
18
19
20
-0.000 POWDER {MICROSPHEROTOAL)
o.ooo
o.ooo
6,000
200.000
60.000
o.ooo
o.ooo
-o.ooo FLUID BED OPERATIONS
o.ooo
o.ooo ._
o.ooo
o.ooo
o«ooo
o.ooo
MATERIAL CODE HS131
..MATJ^JAL._COOE HS131
^s' ™—,— .
CLASSIFICATION
COMPOSITION
" cost/ 2CD~ ACTIVE"
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
MAX. OP, TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13" •"•
14
15
16
T7
1H
19
20
-0.000 CRRi ALUMINA
-0.000 AL203 92%» SI02 6%
0.000 SI02
o.ooo
-0.000 POWDER
o.ooo
o.ooo
6. ooo
o.ooo
240.000
60.000
o.ooo
o.ooo
o.ooo
o.ooo
6.000
o.ooo
o.ooo
o.ooo
-------�
MATERIAL CODE HS132
M ATE 51A LJC.Q p E _ H S_l 3 2_
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUME
SURFACE AREA
RULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAx, OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE HS133
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SI2p
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
- VOLATILITY
PARTTCUF. DENSITY
6 MAX. OP. TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
] 0
11
12
13
14.
15"" "
16
T7 " "
18
19
20
-O.QOO
-0.000
o»ooo
-n.ooo
-o.ooo
O.QOO
p. ooo
o.ooo
o.ooo
n.ooo
34.000
o.ooo
o.ooo
-o.ooo
-o.ooo
o.ooo
0*000
6«ooo
0*000
6*000
-o.ooo
-o.ooo
0,000
-6.000
-o.ooo
J7.c;00
0*000
6*000
.350
130.000
71 .000
o.ooo
o.ooo
-0*000
o.ooo
0*000
0*000
0*000
0*000
6*000
CAT.BARIUM CHLORIDE ON CARBON
BACL? ?79a» BALANCE CARBON
NONE
4-6 MESH
GRANULE (EXTRUSION
REMOVAL OF HCL2 FROM CHLORINE
CONTAINING HYDPOCARRON
MATERIAL CODE HS133
CAT .COBALT OX IDE ON KJESELGUHR
COO 35%, BALANCE KIESFLGUHR
NONE
3/16X3/16 INCH
TABLETS
HYDROGENATION CATALYST
-------�
MATERIAL CODE HS134
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
"BULK" DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
'"MAJOR USES"
VOL/AT ILITY
PARTICLE DENSITY
MAXt OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE HS135
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CPYSTALLTNITY
CRYSTALLITE SI2F
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
r, MAX, OP, TEMP.
ATTRITION]
s COMMENTS
1
2
3
4
5
6
7
8
9
10
lT
12
13
U
] 5 "
16
17
IB
19
20
~'I
2
3
4
5
6
7
a
q
10
11
12
13
14
15
16
17
la
19
20
-o.ooo
-o.ooo
o.ooo
-O.QOO
-o.ooo
A^s.QOJ).-
n.QOO
n.QOO
,400
.140.000 .
70*000
0,000
0*000
. -6*0 00..
-6*006
o.ooo
0*000
6*000
0,000
0,000
-0,000
-0*000
0,000
-o.ooo
-o.ooo
o.ooo
0*000
6,000
.360
T . o o o
30*000
o.ooo
o.ooo
-n.QOO
-0,000 .
0,000
0,000
o.ooo
o.ooo
0*000
MATERIAL CODE HS134
CAT. COBALT ON KIESELGUHR
CO 39% BALANCE KIFSELGUHR
NONE
3/16X3/16 INCH
TABLETS
- — — - — - - -• -
0X0 PROCESS + RELATED HYDROGEN
ATIOM REACTIONS.
MATERIAL CODE HS135
CAT» COBALT CATALYST
COO 13% ON SIO? TYPE BASF.
NOME
4-8 MESH
GRANULES (BLACK)
OXQ SYNTHESIS PROCESS * HYDRO-
GENATION REACTIONS.
-------�
MATERIAL CODE HS136
MATERIAL CODE HS136
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORF SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SUE
MAJOR USES
MAJOR USES
-VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
IB
1.9
20
-o.ooo
-O.QOO
0.000
-o.ooo
•o.ooo
O.QOO
o.ooo
o.ooo
.380
T *ooo
31.000
o.ooo
o.ooo
-o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
6.000
CAT, COBALT CATALYST
COO 6% ON SI02 TYPF RASE
NONE
4-8 MESH
GRANULES
OXQ SYNTHESIS PROCESS * HYORO-
GENATION REACTIONS,
MATERIAL CODE H$137
MATERIAL CODE HS137
" "" CLASSIFICATION"
COMPOSITION
COST,. 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUMF
SURFACE AREA
BULK DENSITY
CRYSIALLTNITY
"CRYSTALLITE" "SIZE"
MAJOR USES
MAJOR USES
7 VOLATILITY
. PARTICLE DENSITY
s MAX. OP. TEMP.
ATTRITION
s COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
_ t-3
14
"15"" "
16
n ~
18
19
20
-0.000
-0*000
o.ooo
-o.ooo
-o.ooo
o.ooo
o.ooo
6.000
.380
6.000
30.000
0*000
~ o.ooo
-o.ooo
-o.ooo
o.ooo
g.ooo
6.000
o.ooo
0*000
CAT, COBALT CATALYST
COO 2096 ON SIO? TYPE RASE
NONE
4-8 MESH
GRANULES (BLACK)
0X0 PROCESS TO CONVERT ALDE-
HYDES TO ALCOHOLS.
-------�
MATERIAL CODE HS138
MATERIAL_CODE_ HS138
CLASSIFICATION
COMPOSITION
COST. 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORF SIZE
PORF. VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE HS139
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLITE SIZF
MAJOR USES
» VOLATILITY
PARTICLE DENSITY
6 MAX. OP. TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
9
10
11
1?
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
] 0
11
12
13
15
16
17
20
-0.000 CAT, COBALT CATALYST
-n.QOO COO 10%, BAL. ACTIVATED AL203
O.QOO NONE
-0.000 1/8X1/8 INCH
-0.000 TABLETS (BLACK)
17.000
o.ooo
o.ooo
.510
60.000
60.QOO
o.ooo
o.ooo
-0.000 HYDROGENATION CATALYST
0.000
o.ooo
0.000
o.ooo
o.ooo
o.ooo
MATERIAL CODE HS139
-0,000 CAT, COBALT CATALYST
-0.000 COO 18%, BAL, ACTIVATED AL203
0.000 NONE
-0.000 1/8X1/8 INCH
-0,000 TABLETS (BLACK)
P5.QOO
o.ooo
6.QOO
.380
40.QOO
77.000
0.000
g.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o»ooo
-------�
MATERI_A_L_CO_DE_JHSKO_ ._MAJSSJAL__CODE JjS 140
ClASSTFTCATTON 1"
_ COMPOSITION 2
"COST; 2co ACTIVE" 3"
_A_VAiLA8LE SIZES 4
AVAILABLE "SHAPES" 5"
CRUSH STRENGTH 6
-0
- o
-o
"
HARDNESS
PORE SIZE
PORE VOLUME"
SURFACE AREA
""BULK DENSITY
.CRYSTA.LLINITY
C R Y S f"A L L "ft E"""STZ E"
_ MAJO_R USES
" "MAJOR USE'S"
VOLATILITY
PARTICLE DENSITY"
MAX. OP. TEMP.
7
8
— 9
10
Yl
200.
60.
_
Y3
14
15'
16
17"
18
COMMENTS 20
0
r.Q.
-p
6
0-
0.
000
000
oob"
ooo
000
.O.QO
ooo
ooo
400
OQO
ooo
OPJ)
b b o
ooo
ooo
ooo
ooo
.000
ooo
ooo
CAT, COBALT MOLYBDATE CATALYST
COO 3» M003 1_5, BALANCE AL203
COO 3% " " ~ "
1/BX1/8 INCH
TABLET ~
DENITROGENATION * nESULFURIZA-
TION OF HYDROCARBONS.
MATERIAL CODE HSJ41
MATERIAL CODE HS141
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZF
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
6 MAX. OP. TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
9
10
11 "
12
13
14
15
16
17
18
19
20
-o.ooo
-0.000
0.000
-O.oon
-0,000
i. o . o o o
o.ooo
o.ooo
• 350
63.000
60,000
o.ooo
o.ooo
-n.000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
CAT, CHROME ALUMINA
CR203 12» BAL. ACTIVATED AL203
NONE
1/8X1/8 INCH
TABLETS (GREEN.)
DEHYDROGENATION
-------�
MATERIAL CODE HS142
CODE _H$142_.
CLASSIFICATION 1 -0.000 CAT, CHROME ALUMINA
__COMPOS|TI0N 2 _ -0.000 CR203 5%» BAL, ACTIVATED AL203
cost, 2co ACTIVE 3 o.ooo NONE
AVAILABLE SIZES 4 _-o".o.oo_.i/8xi/8 INCH_
';, AVAILABLE SHAPES 5 -o.ooo TABLETS < GREEN")
CRUSH _ST R£NG T_H 6. £4 . o00_
"HARDNESS 7 "n.ooo
' PORE SIZF 8_ o.QOO _
PORE "VOLUME;" "9 " ~ ,360 ""'
SURFACE AREA 10 160.000
';. BULK DENSITY 11 '" 67.500 ' """ "~" "
; CRYSTALLT_NITY \z__ o_.opo __
CPYStALLTTE ST£ffT3 ~" "p."666" ~ "~ " " ""
__MftJOR USES 14 -0.000 DEHYDR.OfiENAT.ION
MAJOR USES 15 O.OOO
VOLATILITY 16 _ Q.OOO.
PARTICLE DENSITY 17 o.ooo
MA_XjL_0_Pj__T_EM_P_.___1_8 n ^O.P_Q _
ATTRITION 19 0.000
^ COMMENTS 2_p 0.000
i
M^TE£T^1_COpJ_J1Sl.43__ MAJJq!T_A.L__CPPE H.Sl*3
cLTsslEfc'ATiON """I -"n"."6oT"c~ATY"CHROME ALJ.IMINA
COMPOSITION 2 -0.000 CR203 9%,K20 1.5%,RAL. AL203
j COST,, 2CD ACTIVE 3 . 6.000 K20
AyA!L_AEl!'? SIZES_ 4_ -Q.QQP_1/8X1_/8_INCH
AVAlLA8TE"SHAPEs'~"5 "" '"-O.OOO" TABLETS "
'; ^c_?y5Jl_STREKIGTH 6 11.000
~HARD~NESS::~~7 " """o.OOO"""
PORE SIZE_8 _ _0.000,_ _. _ _
} " " PORE'voLUMf" "9 ~~~ "~".340~
__sy_?f;l.A:c^ AREi 10_ 67-QOo
BULK "DENSITY "IT " 67."^00 ~ ~" "" ~ "~
.- CRYSTALLINITY 12 o.ooo_ _
~ "CRYSTALLITE" SIZE" \i ~" ~ ""o.'ooo " "" "" ~" "~ "~ ~ "
MAJOR_USES 14 _ -0 . 000 PEHYDOGENATJO_N
""MAJOR USES 15" " "T.OOO
j_ _ VOLATILITY^J^ Q._QQO
pTRTfCLE "DENSITY 17 ~" ~ o". 0o"6
•j. ^X.^P^TEMP. is o._opo
ATTRITION""19™ " ~ p.oo"6~" " '"'"
-------�
MATERIAL CODE HS144
.—MATERIAL .CODE .HS144
CLASSIFICATION 1 -n.QOO CAT* CHROME ALUMINA
; . ^COMPOSITION 2 . ___-0_-OOQ. CK2Q3 _33t_ BAL. SILICATED AL203
COST, 2CD ACTIVE 3 6,000 NONE
AVAILABLE SIZES 4_ -O.OOO 1/8X1/8 INCH
AVAILABLE SHAPES 5 " -0.000 TABLETS"(GREEN)
CRUSH_STRENGTH 6 46.000 __
"HARDWSS T' "" O.OOO"
: PORE SIZE e _ o.ooo _
PORE VOLUME 9 .260
' SURFACE AREA 10 120.000
". ~~"~RULK DENSITY 11 ' " 73.^00
CRYSTALLINITY 12 _ _ _o.poo_ _ __
CRTSTALTlfE SIZE T3~ ~ ' ~~~ oToOO" ~ ~~ " "" ''
; MAJOR USES u _ p»ooq_ __ __ -
"MAJOR" USES "15 "~y.00d
VOLATILITY 16 O-OQQ
PARTICLE DENSITY 17 6.000 "" " ~
MAX. OP. TEMP. IB 0.000 _.
AfTRTtlON 19 ~ ~ (f. OOO
";• CO_MM|N_TS _2J3 p_. 000
I
_...^I5i?L^L ?^P§_±^SJ^ MAI?_HIAl CODE HSHS
CL~A S SIF "I C A T I ON " ~1" "^oTo 0 b"~C"A T i~ CHROME" ALUM INA
^COMPOSITION 2 _ -6.000 CR2Q3 19* BAL. ACTIVATED AL203
') " COST,.~2CO' ACTIVE ~3"~~ oioOO'NONE" """
AVAILABLE SUES 4__, _ _-6.gpo o-8o_ MESH _
•"AVATL'A'BLE S"HA"PE'S"~~5 '"" ~ "-0 ."o60~PO'w6ER" (>-1l"CROSPHERTODAL)
-; _ CRUSH STRENGTH 6 Q.QOO
~ "HARDNESS"~"7~ " " 0.000 ~ ~~ " " """
PORE SIZE 8 0.000
PORE" VOLUME 9™ " ' ".^00 " "
SURFACE AREA 10 100.000
RTJLK~DENS"I TY"Tl "s'STbol"
} CRYSTALLINITY_12 P.OOO^
CRYSTALLITE SIZE 13 ~(f.~6"6o" "" " "~ ' " "~
MAJOR USES 14 -6«000 DEHYpRpGE_NAT_iqN_CAfALYST FOR
'•; ~" " MAJOR "USES" 15" " """-"6. OOb""FLu"fD" BED USE~." "
_7 VOLAHU I TY 16 ___P^_0_p_p_
PA'RTTCrfT DEMS'lTY" IT " p. 000 "
: j MAXTOR. TEMP. 18 Q.OOO
"ATTRITION" 19" " OTOOO"
-------�
MATERIAL CODE HSU6
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIV'E
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE. SIZE
PORE VOLUMr
SURFACE AREA
BULK DENSITY
CRYSTAI.LINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
\
MATERIAL CODE HS147
COMPOSITION
COST, 2co ACTIVE
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
BULK DENSITY
CRYSTALLJNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
« MAX, OP, TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
5
6
7
8
9
11
12
13
14.
15
16
17
18
19
20
MATERIAL CODE HS146
-0.000 CAT» CHROME ALUMINA
-6.000 CR203 19.BAL. ACTIVATED AL203
0.000 NONE
-0.000 1/8X1/8 INCH
-0-000 TABLETS (GREEN)
35.000
o.ooo
6.000
.380
100. 000 __ ___..
72-000
o.ooo
o.ooo
-0.000 DEHYDROGENATION OF BUTANE TO
-0.000 BUTYLENE.
.._X).OOQ._ „ _. . .... .
o.ooo
o.ooo
o.ooo
0,000
MATERIAL CODE H5147
-0.000 CAT, COPPER CHROMATE
-0.000 CUO 82»CR203 17
0.000 CR203
o.ooo
-0.000 POWDER
o.ooo
o.ooo
o.ooo
.550
13.000
6*000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
-------�
MATERIAL CODE HS148 M A T E RJ_A L C ODE. "SI 4 8_
£__s.^j_.T-J-() _^ ________..„__„ __________
: .COMPOSITION 2 j-o.ooq cug so, CR203 i? __
' COST, 2CO" ACTIVE "Y" 0.000 CR203
AVAILABLE SIZES 4 -q.QOO 1/8X1/8 INCH
•; AVAILABLE SHAPES"" 5 -o.ooo'"TABLETS'" """ ""
CRy_SH_SJRE;NGTH__6__ __ ?g.J}QP_
HARDNESS"'7o.ooo " ~ -
' _____ PORE S_IZE 8 Q.OQO _ __
~ ' "PORE VOLUME"""9" q.ooo " "~ "
_ _SURFACE AREA 10_ 0.000
"BULK' DENSITY' 11 i~3s.ooo '"'" "
CRYSTALLINE J COPPER CHROMITE "
^COMPOSITION'___ 2 -0.000 CR203 44, ClJO 41, BAO 11
;: " "cost, "2"CD""ACTIVE""3~ ~~ 6".ooo cuo "" ' ~ " "
AVMJ-AHLE SIZES 4 _0_«QPO __ _
AVAILABLE"SHAPES 5 -o.ooo POWDER
; CRUSH STRENGTH __6 __ 0.000 _'___"
""HARDNESS 7 "q.ooo "" "~" ' " "" """ ~
PORE SIZE _8 o.ooo _
"PORE VOLUME" 9 " "".470"
SURFACED ARE A _l_p J5«P_On
BULK "DENSTTY IT"" 547oO"0
> CRYSTALLTNITY 12 _o.poo
CRYSTALLITE SIZE" 13" ~ "" "p'.'oOO"
.MAJ.0R USES H 0.000 _
•; " "MAJOR" USES'TS " """ Q.OOO"
7 VOLATILITY 16 O.OOOj
PTRTtCL~E~r)ENfSTTY~Tr "oTooo ~ ~~ ~
. _e MAXTOR. TEMP._18_. 0»000
ATTRIT TON "19" ~ " oVo'OO
5 COMMENTS 20 0.000
-------�
')
MATERIAL CODE HS150
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJpR USES
VOLATILITY
PARTICLE DENSITY
MAX.. OP. TEMP.
ATTRITION
\
MATERIAL CODE HS151
COMPOSITION
" "COST"; 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLITE SIZF.
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
MAX. OP, TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
7
8
9
10
11
12
13
14
15
16
17
18
19
2
3
4
5
7
8
9
10
11
13
15
16
17
18
19
20
MATERIAL CODE HS1SO
-0.000 CAT, COPPER CHROMITE
-0.000 CR203 38, CUO 35, BAO 10 .
o.ooo cuo
.-0.000 1/8X1/8 INCH
-0.000 TABLETS
1?.000
o.ooo
o.ooo
o.ooo
0,000
101.000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
-0.000 TABLETED CU-0401P (HS\49)
MATERIAL CODE HS151
..__r.0.00.0.. C.R.203. 43.5». CUO .39,.. BA0..10 .. '
o.ooo cuo
0.000
-O.QOO POWDER . . •
6.000
o.ooo
o.ooo
.760
47.QOO
6.000
0.000
o.ooo
o.ooo .
o.ooo
o.ooo
0.000
o.ooo
-------�
MATERIAL CODE HS152
UiAlEj? IAL .. CQ D E _HS 152_ _
CLASSIFICATION \
COMPOSITION 2_
"co s T7 2cb" ACT i"v F "" "3
—iVAlLASLE SUES 4
AVAILABLE: SHAPES 5
C RU_S_H _STRENG T H 6_
HARDNESS 7
PORE SIZE 8
"PORE" VOLUME" 9
SURFACE AREA 10
""" """BULK DENSITY n
CR Y S_T ALLJ NI T_Y__12
"CRYSTALLITE SIZE ia"
MAJOR USES U
" "MAJOR "USE'S" IB"
VOLATILITY 16
PARTICLE DENSITY "l'7~
OP • Tj[MP. 18
ATTRITION "19""
COMMENTS 20
-0.
•?-•
6.
_- n .
-o.
0.
113.
__ 0.
o.
0.
0.
___ Q.
0.
-6.
000
000
000
oon
ooo
OPO.,
ooo
ooo
ooo
.000.
ooo
OPQ
ooo
OQO
ooo
ooo
ooo
.000.
ooo
OQO
CAT* COPPER CHROMITE
C«2Q3_38.»_CUO. 33... RAO_
cuo
.1/8X1/8 INCH
TABLETS
9,5.
TAB L E T_E D .C.U -1 1 0 6P (H 5151)
MATERIAL CODE HS153
.MATERIAL CODE HS153
-\
J
CLASSIFICATION
COMPOSITION!
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
RULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZF
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
6 MAy. OP, TEMP,
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
H
15
16
17
18
19
20
-o.ooo CAT, COPPER CHROMITF
-0.000 CR203 46» CUO 41. RAO 9
o.ooo cuo
6.000
-0.000 POWDER
o.ooo
o.ooo
o.ooo
,o20
T.ooo
41.000
o.ooo
o.ooo
o.ooo
o.ooo .
o.ooo
o.ooo
o.ooo
o.ooo
-------�
MATERIAL CODE HS154
CLASSIFICATION
COMPOSITION
COST, 2Cn ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
POKE SIZE
PORE VOLUME
SURFACE AREA
HULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
i>
MATERIAL CODE HS1S6
CLASSIFICATION
COMPOSITION
COST, 2cn ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
* MAX. OP. TEMP.
ATTRITION
5 COMMENTS
i
2
3
4
5
6
7
8
9
10
11
12
13
H
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
MATERIAL CODE HS154
-0.000 CAT* COPPER CHPOMlTE
-0.000 CR203 60» CUO 40
o.ooo cuo
o.ooo
-0*000 POWDER
0.000
o.ooo
o.ooo
.690
16.000
73.000
o.ooo
o.ooo
O.QOO
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
MATERIAL CODE. HS156
-0.000 CAT* COPPER CHROMlTE
-0.000 CUO 51. CR203 47
0.000 CH203
o.ooo
-0*000 POWDER
6.000
o.ooo
o.ooo
• 760
37.000
41.000
6.000
o.ooo
o.ooo
o.ooo
6.000
o.ooo
o.ooo
o.ooo
-------�
MATERIAL CODE HS157
CLASSIFICATION!
COMPOSITION)
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
RULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE HS158
CLASSIFICATION
COMPOSITION
COST,, 2CO ACTIVE
AVAILABLE SIZES
. AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
e MAX. OP. TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
U
15
16
17
18
19
20
1
2
3
4
5
6
7
a
9
10
IT ~
12
13
U
15
16
T7
18
19
20
MATERIAL CODE HS157
-O.flOO CAT» COPPER CHPOMlTE
-6.000 CUO 42, CR203 38
O.QOO CR203
6.000
0. 000
R.OOO
o.ooo
o.ooo
o.ooo
6.000
83.000
6»ooo
o.ooo
o.ooo
o.ooo
6.000
o.ooo
6.000
o.ooo
-6.000 TABLETED CU-1800P (HS156)
MATERIAL CODE HS158
-0.000 CAT, COPPER CHROMITE
-0.000 CUO 54, CR203 41
0.000 CR203
6.000
-0.000 POWDER
6.000
o.ooo
o.ooo
1.130
35.000
38.000
0.000
o.ooo
o.ooo
o.ooo
6.000
o.ooo
6*000
o.ooo
-------�
MATERIAL CODE HS159
M A TEq i AL...COQE. _HS 159.
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
" BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP, TEMP.
ATTRITION
COMMENTS
•v
MATERIAL CODE HS160
CLASSIFICATION
COMPOSITION
"COSY; 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORF SIZr
PORE VOLUME
SURFACE AREA
8ULK DENSITY
CPYSTALLINITY
CRYSTALLITE SIZE
MAJ_OR USES
7 VOLATILITY
PARTICLE DENSITY
MAX, OP, TEMP.
""ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
...8
10
11
13
14
15
16
17
18
19
20
2
4
5
6
8
9
10
11
12
"13
14
"15
16
17
18
19
20
-0
-0
6
-6
-6
23
ft
6
_..5
85
6
0
-0
0
6
0
6
0
0
-0
0
-6
-o
o o
£— *•
0
0
137
53
n
6
-0
-6
6
0
.._. _.6
6
6
,
.
•
»
.
.
.
.
.
.
.
.
.
,
,
,
.
.
.
.
.
*
.
.
.
.
•
•
.
.
.
.
.
.
.
.
.
.
000
000
000
000
000
000.
000
000
260
000
ooo
000
000
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
420
ooo
ooo
ooo
ooo
ooo
ooo
ooo
CAT* COPPER
CUO 99%
NONE
1/8X1/8 INCH
TABj'ETS (BLACK)
REMOVE 02 + HH FROM GAS STREAM
MATERIAL CODE HS160
CAT» COPPER ON ALUMINA
CUO 10%, BAL. ACTIVATED AL2.03
NONE
1/8X1/8 INCH
TABLETS
REMOVAL OF TRACE AMOUNTS OF 02
FROM GAS STREAMS".
ooo
ooo
ooo
-------�
MATERIAL CODE HS161
MATERIAL CODE HS161
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
RULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
9
10
11
12
13
14
15
16
17
18
19
20
-o.ooo
-6.000
0.000
-6.000
-o.ooo
19.000
o.ooo
6.000
.360
106.000
56*000
0.000
o.ooo
-o.ooo
o.ooo
6.000
o.ooo
o.ooo
0.000
o.ooo
CAT» COPPER ON ALUMINA
CU 7.7%, 8AL. ACTIVATED AL203
NONE
1/4X1/4 INCH
TABLETS (WHITE)
CHLORINATION
MATERIAL CODE HS162
MATERIAL CODE HS162
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SHE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
6 MAX. OP. TEMP.
ATTRITION
5 COMMENTS
~"\
2
3
4
5
6
7
8
9
10
11
12
~T3"
U
15
16
17
18
19""
20
-o.ooo CAT, COPPER ON ALUMINA
-0.000 CUCL3 10»8AL, ACTIVATED AL203P
0.000 NONE
o.ooo
-0,000 POWDER
o.ooo
o.ooo
o.ooo
o.ooo
180.000
6n.QOO
o.ooo
o.ooo
-6.000 CHLORINATION CATALYST
0,000 .
o.ooo
o.ooo
o.ooo
o.ooo
-------�
MATERIAL CODE HS163
MATERJAL .CODE_.HS163
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
_AVAILABLE SIZES
AVAILABLE SHAPES
__ C_RUSH_STREJNGTH
HARDNESS
PORE SHE
PORE" VOLUME'
SURFACE AREA
BULK"DENSITY
• CRYSTALLINITY 12
CRYS'f AL"LI TE""S"t Z~E" I 3
MAJOR USES 14
M'AJOR USES" 15
VOLATILITY. 16
PARTICLE DENSITY 17
_?£» -I^P. _J8
ATTRITION 1~9
COMMENTS 20
-0
.- 0
0
-_o
-
.000
.000,
_
7
8
"9
IP
11
.
59
60
0
0
-Q
0
. o
p
O
o
6
.000
. o oo.
.000
. O.O.Q
.0 0 0
• ooo
.260
• ooo
.000
• Q00_
.000
• .0 Q 0.
.000
.000
.000
»0P.O.
• ooo
.000
CA"T, COPPER ON
CUCL2 lOr_8AL.
NONE
1/8X1/8 INCH
TABLETS
ALUMINA
ACTIVATED
AL203
CHLQRlNAT_IpN_ CAT.AX.YST.
MATERIAL CODE HS164
.MATERIAL CODE HS164
CLASSIFICATION
COMPOSITION
COST,, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS '
PORE SIZE
PORE VOLUMF
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE "
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
f. MAX. OP. TEMP.
ATTRITION
5 COMMENTS
1
1
1
1
1
1
1
1
1
1
2
3
4
5
6
7
8
9"
0
1
2
3
4
5
6
7
8
19
20
-o.
-o.
0.
-0.
-0.
IP.
0,
0.
*
A.
10S.
0.
o.
-0.
-0.
0.
0.
0.
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
140
ooo
ooo
ooo
o on
ooo
ooo
ooo
ooo
ooo
CAT. COPPER
CUO 7996
NOT GIVEN
1/8X1/8 INCH
TABLETS
CONVERT
REMOVE""
(8LACK)
ALDEHYDES TO ALCOHOLS *
TRACE G.A5ES (02»CO,H2)
0,000
-------�
MATERIAL CODE HS165
CLASSIFICATION
COMPOSITION!
COST ', ""2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUME
SURFACE AREA
BULK DENSITY
' CRYSTALLlNITy
CRYSTALLITE SI2f
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX* OP. jEMP.
ATTRITION
COMMENTS
MATERIAL CODE HS166
CLASSIFICATION
COMPOSITION
COST,, aCD ACTIVE
AVAILABLE SUES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SUE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
6 MAX. OP. TEMP.
ATTRITION
COMMENTS
1
2
~3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
""19" "
20
-0.000
-O.OQO .
o.ooo
-o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
• ftlO
4.000
30.000
o.ooo
o.ooo
-o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
-o.ooo
-o.ooo
o.ooo
-6*000
-o.ooo
IB. 000
0.000
o.ooo
• 310
41*000
62.000
o.ooo
o.ooo
-0*000
o.ooo
o.ooo
o.ooo
0*000
0*000
o.ooo
MATERIAL CODE HS165
CAT, COPPER ON SILICA
CU2C03 ...6%i .BALAN.CE_S.IQ2
NOME
4-10 MESH
GRANULES
DEHYDROGENATE ALCOHOLS TO
ALDEHYDES OR KETONES.
MATERIAL CODE HS166
CAT, IRON OXIDE ON ALUMINA
FE203 20, 8AL. ACTIVATED AL203
NONE
1/8X1/8 INCH
TABLETS
DEHYDROGENATION CATALYST
-------�
MATERIAL CODE HS167
MATERIAL _COOE _HS 1 67 _,
CLASSIFICATION 1 -0.000 CAJ» IRON OXIDE ON ALUMINA
} _COMPOSITION 2 -O.QOO FE203 20« BAL._ACTIVATEO AL203
COST, gCD'AC'TIVE 3 0.000 NONE
AVAILABLELSIZES * -0.000 M iCROSPHERpI.DAj
AVAILABLE"SHAPES" 5 -o.ooo POWDER
CRUSH STRENGTH 6 Q . OQ_Q
""HARON'E'SS 7 6,000
- . PORE SIZE _B o.ooo_ __ _
"PORE 'VOLUME " 9 ~ Yw """ "
SURFACE AREA 10 _' 105*000 j _
BULK DENSITY 11 68.000 "
CRY_STALLUJITY_12 O.QQO _
CRY STALL"! YE "SIZE T3 ~ 0.000
'-. _MA.J9R IJ5ES_J4 rO.OOO fLUIO-REP__HYDROJ3ENATION CAT.
MAJOR "USES 15' ~ "p."oOO~
ypLATiLITY 16 _O.OOQ_ _
•^ ~ "~ PARTICLE DENSITY 17 O.oOO"
: MAX. OP. TEMP. 18 0«QOO J
ATTRfTiON 19 0.000
~ ^MM.E^L±L?_P_. o.o oo _ _
f
. s'
^ __ . , — . _ _ .
MATERIAL CODE HS171 MATERIAL COPE HS
C"LTS'SrF"l"C"ATIOKi~~l -T," 0 6 0""CAtV "MANGANESE" ""OX IDE ON SILICA
COMPOSITION 2 _ -6.000 MN02_2%« BALANCE SlQ2
•) "COST, 2co ACTIVE 3 "o.ooo NONE
AVA_U.A_BLJE SIZES ^__ -0 . OJLQ_ 3-8_ MESH _ _.
AVAILABLE 'S"HAPES~~""5 " " "-0.000 GRANllLES (BROWNISH-BLACK)
') CJRySH STRENGTH 6 _ o. 000 __
""HARDNESS" ~7" " ~ " "o.ooo
PORE SIZE B_ J}.000 _
} " " "PORE""VO"L"UME" v '"" " " " ".970 " - -- - • •-- ---•
_J5yRFjA_CE_ARE_A_ 10 ?55»000_
BULK DENSITY "IT" ~30i"oOO~"'
: __CRY.STAI-L1NITY I'd 0.000_ __
""CRYSTALLITE SIZE 1.3 ""o.ooo " " " " " "
_____ _ __.MAJPR__USE:^ 14\_ -O.OOO OXIDATION CATALYST __
_ ... MAJOR USES "15 ~ O.OOO " "
j ypLATlLITY_16 0^000
PARTi"CLE"~OFNSTTY 1"7 "" "6/0 6 6"
._9P» J.EMP« l.§ Q.OQO_
ATTRITION'19 " "o.ooo"
-------�
MATERIAL CODE HS173
MATERIAL CODE HS173
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAy, OP, TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-o.ooo
-O.QOO
. o.ooo
-o.ooo
-o.ooo
10.000
o.ooo
o.ooo
.400
64. 000
61 .000
O.QOO
o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
CAT* MOLYBDENA ON ALUMINA
M003 10, BAL. ACTIVATED AL203
NONE
1/RX1/8 INCH
TABLETS (GRAY)
DEHYDROGENATION
MATERIAL CODE HS174
MATERIAL COPE HS174
"CLASSIFICATION
COMPOSITION
COST, 2CQ ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACT AREA
BULK DENSITY
CRYSTALLINITY
i
2
3
4
5
6
7
8
9
10
11
12
-o.ooo
-0.000
0.000
o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
6*000
6R.OOH
6.000
CAT, MOLYBDENA ON ALUMINA
M003 11, BAL. ACTIVATED AL203
NONE
POWDER (KICRQSPHEROIDAL— GRAY)
CRYSTALLITE SIZE 13 0.000
MAJOR JJSES 14 -O.OOO.FLUID BED HYOROFORMING^ AND
7
6
5
PARTI
MAX
MAJOR USES
VOLATILITY
CLE DENSITY
. OP, TEMP.
ATTRITION
COMMENTS
15
16
n
18
19
20
-0.
o.
o.
0.
o.
o.
ooo HYPROGENATION.
ooo
ooo
ooo
ooo
ooo
-------�
MATERIAL COOE HS175
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
ATTRITION
'*
MATERIAL CODE HSJ76
CLASSIFICATION
COMPOSITION:
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
HARDNESS
PORE SIZF
PORE VOLUME
BULK DENSITY
CRYSTALLIMTY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
PARTICLE DENSITY
B MAX. OP. TEMP.
ATTRITION
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
1
2
3
4
6
7
8
9
11
12
13
14
15
16
17
18
19
MATERIAL CODE HS175
-0.000 CAT* MOLYBDENA ON ALUMINA
-6.tOOQ.M003 10., BAL. ACTIVATED AL203..
o.ooo NOME
-O.QOO 1/8X1/8 INCH
-0.000 TABLETS (GRAY)
1Q.OOO
o.ooo
O.QOO
.360
160.000 • .. .
53.000
0.000
o.ooo
-6.000 HYDRO + DEHYDROGENATION .ALSO
-0.000 HYDROFORMING.
o.ooo
o.ooo
0.000
o.ooo
MATERIAL CODE HS176
-0.000 CAT, NICKEL HYDRATE, KTESELGUHR
-O.QOO NI 44(HYDRATE) ,BAL. KTESELGUHK
0.000 NONE
-0.000 l/8i3/16,+l/4 IN. (DTAf, LENGTH)
-0.000 TABLETS (GREEN). .
17.000
o.ooo
o.ooo
o.ooo
6.000
85.000
o.ooo
o.ooo
-0.000 HYDRQGF.NATION * METHANATION
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
-------�
MATERIAL CODE H$177
.CODE MS 171
f
___ _
COST , 2"C D A C T I V E~ 3 "
_ AVAILABLE. SIZES 4
AVAILABLE SHAPES ~"S
.
"7"
_8
9
10
11
1 2
- -
" ..... ""HARDNESS
PORE SIZE
PORE VOLUME
__ SURFACE AREA
" "RULK" DENSITY
___CJBJ STALL LN I T Y
~CR Y S T A L L I f E STZ ?" 13
_______ MAJOR USES 14
MAJOFTUSES 15
__ _ VOLATILITY^ 16
P A R T T C L E " D EN 5 1 T Y " f 7
_ MAX. OP. _TEMP.__1_8
"AYfRlHOM 19
COMMENTS 20
-0*000
__TQ*OQO_
o « o o n
-O.OQO
-6.060
_.?^.»-OQO_
6.006
______ o.ooo
0.000
___ 6..000
104.QOO
________ o._p_pj[L
o . o b o
CAT,NICKEL OXIDE ON KIESELGUHR
NIQ 55, BALANCE_KJESELGUHH
"NONE
1/8,3/16,*1/4 IN. (01 A,,LENGTH)
TABLETS (DARK GRAY)
DEPFNDS_PN SIZE j 1.6-25 LBS.)
DEPENDS ON""sfZE~ (94-104 ~1FT3)
.HYDROGEN AT I ON_. CATALYST
o.ooo
o . o o o _
o.ooo
o.ooo
-0.000
MUST 8_E REDUCED BEFORE USE
MATERIAL CODE HS178
MATERIAL CODE HS17R
CLASSIFICATION 1
COMPOSITION ?
COST, 2CD ACTIVE 3
AVAILABLE SI^ES 4
AVAILABLE SHAPES 5
CRUSH STRENGTH 6
HARDNESS 7
PORE SIZE R
PORE VOLUME 9
SURFACE AREA 10
BULK DENSITY 11
CRYSTALLINITY 12
CRYSTALLITE SIZE 13
MAJOR USES 14
MAJOR USES 15
7 VOLATILITY 16
PARTICLE DENSITY 17"
.3 MAX. OP. TEMP. 18
ATTRITION 19
5 COMMENTS 20
-o.ooo
-o.ooo
o.ooo
o.ooo
-o.ooo
o.ooo
O.OOO
6.QOO
.350
li o.ooo
65.000
6 . o o n
o.ooo
-n.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
0*000
-o.ooo
CAT, NICKEL ON KIESELGUHR
Nl 60, BALANCE KIESFLGUHR
NONE
GRANULES ...
HYDROGENATION CAT. FOR TRICKLE
BED OR LIQUID PHASE REACTIONS.
-------�
MATERIAL CODE H5179
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE sizes
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
' CRYSIALLTNITY
CRYSTALLITE SUE
MAJOR USE'S
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX.. OP. TEMP.
ATTRITION!
COMMENTS
MATERIAL CODE HS180
CLASSIFICATION
COMPOSITION
COST,, 2co ACTIVE
AVAILABLE SUES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
RULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
MAX, OP, TEMP.
ATTRITION
s COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
J6
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
MATERIAL CODE HS179
-0.000 CAT* NICKEL ON KIESELGUHR
-0.000 NI 5ft, RALANCE KIESFLGUHR
n.oOO NONE
0,000
-0.000 POWDER
0.000
o.ooo
o.ooo
n.ooo
u^.ooo •
70.000
o.ooo
o.ooo
-6.000 HYDROGENATION CATALYST
o.ooo
6 . o o o
O.QOO
o.ooo
o.ooo
-0,000 NOT PYROPHORIC AS SHIPPED
MATERIAL CODE HS180
-0.000 CAT* NICKEL ON KIESELGUHR
-0.000 NI 58» BAL. KIESELGUHR
0.000 NONE
-0.000 1/8X1/8 INCH
-0.000 TABLETS
9.000
o.ooo
o.ooo
o.ooo
16S.OOO
90.000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
-------�
MATERIAL CODE H$181
__ MATER I.AL...COpE . HS181
CLASSIFTCACTION ' 1
COMPOSITION 2
"COST V "2C'0~ACTIVF""3"
AVAILABLE SIZES 4
AVAILABLE SHAPES 5~
CRUSH STRENGTH 6_
" HARDNESS 7
PORE SHE 8
"PORE VOLUME " 9
SURFACE AREA 10
"BULK"DENSITY if
CRYSTALLINITY 12
"CRYS'f ALL'I TE "SIZE 73~
_MA_JOR USES u
MAJOR" USES 1's"
VOLATILITY 16
PARTICLE DENSITY 17
_M?« PP« JMN—U?
" "ATTRITION 19"
COMMENTS 20
-0.
-0.
q.
...r9«
-o.
__J.O_s
0*
Q.
130.
000
000
ooo"
ooo
000
opo
ooo
ooo
180"
ooo
"CAT, NICKEL" ON "KI"ESF.CGUHR
NI 56, BALANCE KIESELGUHR
NONE
5/32 IN. DIA. X 1/R IN. LONG
TABLETS
9.* QJIQ
0*000
-Q.QOO HYpROGENATlON CAT. (PARTIALLY
-6.000 REDUCED * STABILIZED)
6..000
0.000
6^*.o_oo
o.ooo
o.ooo
MATERIAL CODE HS182
MATERIAL CODE HS182
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
T VOLATILITY
PARTICLE DENSITY
G MAX. OP. TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
6
7
R
9
10
11
12
13
14.
15
16
17
18
19
20
-o.ooo
-o.ooo
o.ooo
-o.ooo
-o.ooo
16.000
o.ooo
6.000
o.ooo
6*000
77*000
0*000
o.ooo
-o.ooo
o.ooo
P. 000
0*000
6.000
0*000
-6*000
CAT, NICKEL OXIDE, KTESELGUHR
NIO 66, BALANCE KlESEl.GiJHR
NONE
1/4 X 1/4 INCH
TABLETS
HYDROGENATION CAT. (UNREDUCED)
-------�
MATERIAL CODE H5183
_MAT.EP.I A.L.C0DE... HS_l 83
CL
COST
AVA
"A VAT
CR
ASSIFICATION
COMPOSITION
, 2co ACTIVE
ILARLE SIZES
(.ABLE SHAPES
HARDNESS
PORE SIZE
PORE VOLUME
SURFACF AREA
"BULK DENSITY
CRYSTALLINITY
CRYS
PART
MA
•-
TALLITE SIZE
MAJOR USES
"MAJOR USES
VOLATILITY
TCLE DENSITY
ATTRITION
COMMENTS
1
1
1
1
2
3
4
5~ ""
6
7
8
9
0
f
2
13
14
-j-5— -- -•
16
1
7
19
20
-0.
-0.
. 0.
0 .
-o.
a.
0.
o.
0.
....6.
0.
0.
-6.
-6.
0 •
0 •
6..
6«
-0.
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
000
ooo
ooo
ooo
ooo"
ooo
ooo
ooo
ooo
ooo
CAT
NI
i
30
NICKEL ON K
, BALANCE K
NONE
FLAKE
: . _
FOR
IN "
(PROTECTED
CERTAIN
HARDENING
IESEI
IESEI
,GUHR
.GUHR
^HARDENED OIL)
SPECIFIC PROBLEMS
SOME PATTY OILS.
CONSULT HARSHAW
REP.
, DETAILS
MATERIAL CODE HS184
MATERIAL CODE HS184
" CLASSIFICATION "1
COMPOSITION 2
COST, "?co ACTIVE" "3
AVAILABLE SIZES 4
"AVAILABLE "SHAPES "5"
CRUSH STRENGTH 6
"HA R D N E S S "" 7"
PORE SUE 8
1 0
iT
___ _SU R F A C E A R E A .
BULK OE'NSIT'Y
CRYSTALLINITY
CRYSfALLITE SI^F
_ MAJOR USES
MA'JOPTUSES
VOLATILITY
"P A "R T I C I E " 6T N 5" I T V
__ MAX. OP. TEMP,
_. A'T'TP i'T I ON
"13
14
15
16
1 T
18
i"9
- o
.35
0
84
0
"" 0
o
o.
" 0 .
-0.
ooo
ooo
ooo
PQO_
ooo
ooo
ooo
ooo
ooo
Q_00
o 66
ooo
ooo
ooo
ooo
ogo
o"6 d"
ooo
CAT* NICKEL ON KIESELGUHR
MI 60(REpUCED) ,BAL, KIESELGUHR
NONE
TABLETS P RO E c TE D IN i QUID ) "
I ON CATALYST
ooo
-------�
r
c
MATERIAL CODE HS185
CLASSIFICATION 1
COMPOSITION 2
COST, 2CD ACTIVE 3
AVAILABLE SIZES 4
AVAILABLE SHAPES 5
CRUSH STRENGTH 6
HARDNESS 7
PORE SIZE 8
PORE VOLUME 9
SURFACE AREA 10
BULK DENSITY 11
CRYSTALLINITY 12
CRYSTALLITE SIZE 13
MAJOR USES 14
MAJOR USES 15
VOLATILITY 16
PARTICLE DENSITY 17
MAX. OP. TEMP. 18
ATTRITION 19
COMMENTS 20
-0.000 CAT. NICKEL ON
-0.000 NI 60» BAL. KI
0.000 NONE
-0.000 l/B»3/16»+l/4
-0.000 TABLETS
35.000
0.000
0.000
.200
165.000
100.000
o.ooo
o.ooo
-6.000 HYDROGENATION
-0.000 CAL STRENGTH) .
6.000
o.ooo
6.000
0.000
-0.000 NOT PYROPHORIC
MATERIAL CODE HS185
KIESELGUHR
ESELGUHR
IN, (OIA. 'LENGTH)
CAT. (HIGH PHYSI-
AS SHIPPED
MATERIAL CODE HS186
CLASSIFICATION 1
COMPOSITION 2
COST, 2CO ACTIVE 3
AVAILABLE SIZES 4
AVAILABLE SHAPES 5
CRUSH STRENGTH 6
HARDNESS 7
PORE SIZE 8
PORE VOLUME 9
SURFACE AREA 10
RULK DEN5ITY 11
CRYSTALLINITY 12
CRYSfALLITF SIZE 13
MAJOR USES 14
MAJOR USES 15
, VOLATILITY 16
PARTICLE DENSITY 17
6 MAX. OP. TEMP. 18
ATTRITION 19
5 COMMENTS 20
-0.000 CATt NICKEL ON
-0.000 NI 28t BALANCE
MATERIAL CODE HS186
KTESELGUHR
KIESELGUHR
0.000 NONE
-o.ooo 1/16 INCH DIAMETER
-0.000 EXTRUSION
io.ooo
o.ooo
0,000
• 530
16A.OOO
45.000
n.ooo
o.ooo
-0.000 HYDROGENATION
-0.000 STABLE).
o.ooo
o.ooo
o.ooo
o.ooo
-6.000 NOT PYROPHORIC
CAT. (ACTIVE BUT
-------�
c.
C
MATERIAL CODE HS187
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE HS188
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUMF
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-o.ooo
_ -o.ooo.
o.ooo
-OL».OOOL
-o.ooo
13.000
o.ooo
o.ooo
.320
6_4*_000
68*000
o.ooo
o.ooo
-o.ooo
-0*000
0*000
o.ooo
o.ooo
o.ooo
o.ooo
-o.ooo
-o.ooo
o.ooo
-o.ooo
-o.ooo
17.000
o.ooo
6.000
• 200
65.000
83.000
6*000
0*000
-6*000
0*000
0*000
o.ooo
o.ooo
0*000
0*000
MATERIAL CODE HS187
CAT, NICKEL OXIDE ON ALUMINA
Nio.il, BAL. ACTIVATED AL203
NONE
1/8X1/8 INCH
TABLETS (GRAY)
HYDROGENATION OF DIOLFFINS TO
MONO-OLEFINS (SULFTOEO FORM).
MATERIAL CODE HS188
CAT, NICKEL OXIDE ON ALUMINA
NIO 15» BAL. ACTIVATED AL203
NONE
1/8X1/8 INCH
TABLETS
HYDROGENATION
-------�
MATERIAL CODE H5189
MATERIAL..CODE nsi89
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
_AVAJLABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS 7
PORE SIZE B
PORE'VOLUME 9~
SUR.FrACE_AKEA_lp
DENSITY M~
12
1 -0.000 CATt NICKEL ON KIESELGUHR
2__ -LO.OOO_NI 24_LREDUCEDUBAL.KIESELGUHR
3 0.000 NONE
4 6..00Q __
5 -0.000 FLAKE (PROTECTED,HARDE~NED OIL)
_6_ 6jtO.Q_Q
BULK
CRYSTALLINITY
CRYSTALLITE SIZE 13
MAJOR _USE S _14
MAJOR USES 15
VOLATILITY 16
PARTICLE DENSITY 17
MAX. OP. TEMP. 18
1~9
0.000
6.000
6.000
QJ>_OPJL
3B.QOO
O.QOO
0.000
_=.()_• 00 0_HYDRP6EJ^A TJ O^LJB£AC.TiQNS_
6*000
__6.*.0_0 Q
0.000
6.000
ATTRITION
COMMENTS
20
0*000
o.ooo
MATERIAL CODE HS190
MATERIAL CODE HS190
CLASSIFICATION 1
COMPOSITION 2
COST, 2CD ACTIVE 3
AVAILABLE SIZES 4
AVAILABLE SHAPES 5
CRUSH STRENGTH 6
HARDNESS 7
PORE SIZE 8
PORE VOLUME 9
SURFACE AREA 10
RULK DENSITY 11
CRYSTALLTNITY 12
CRYSTALLITE SIZF 13
MAJOR USES 14
MAJOR USES 15
7 VOLATILITY 16
PARTICLE DENSITY 17
o MAX, OP. TEMP. )8
ATTRITION 19
s COMMENTS 20
-0.000 CAT* NICKEL OXIDE, KIESELGUHR
-0.000 NIO 18, BALANCE KIESELGUHR
0.000 NONE
-0.000 5/32 INCH DIAMETER
-0.000 EXTRUSION (GRAY)
45.000
o.ooo
6.000
.500
4.000
51-000
6.000
o.ooo
-0.000 HYDROGENATION REACTIONS
0.000
o.ooo
o.ooo
6.000
o.ooo
-------�
MATFRTAU COOF. HS191
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
RULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE HS192
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUME
SURFACE AREA
RULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTTCLF. DENSITY
MAX. OP, JEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
1
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
q
10
ll
12
13
14
15
16
17
18
19
20
-o.ooo
-0,000
0*000
-0.000
-o.ooo
?2.000
o.ooo
0.000
.380
140.000
52.000
6.000
0*000
-o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
-o.ooo
' -0.000
o.ooo
-6.000
-o.ooo
6*000
0*000
. 6*000
0*000
1 .000
75*000
6.000
0*000
-o.ooo
-0*000
o.ooo
o.ooo
O.QOO
0*000
o.ooo
MATERIAL CODE HS191
CAT» NICKEL OXIDE ON ALUMINA
NIO 14, BAL, ACTIVATED AL203
NONE
1/8x1/8 INCH
TABLETS
HYDROGENATIONS * AMINATIONS.
MATERIAL CODE HS192
CAT, NICKEL OXIPE ON ALUMINA
NIO 5»BAL. AL203-ST02 (INERT)
NONE
3/R» l/2» 3/4, * 1.0 INCH
SPHERES
REFORM LOW MOLECULAR WEIGHT
HYDROCARBONS.
-------�
MATERIAL CODE HS193
CLASSIFICATION
COMPOSITION
COST, 2co ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAx, OP, TEMP.
ATTRITION
COMMENTS
MATERIAL CODE HS194
CLASSIFICATION
COMPOSITION
COST, 2co ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
BULK DENSITY 11
CRYSTALLINITY 12
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
c MAX, OP. TEMP.
ATTRITION
s COMMENTS
13
14
15
16
17
18
19
20
-0.
-o.
0.
-o.
-0.
QJL
0.
6.
0*
. J-.
79,
0,
0,
-6.
-0.
6,
0*
6.
0,
0.
-0,
-0.
0,
-6.
-n.
0,
0.
0.
0.
1*
75.
6.
0,
-6.
0.
0,
o,
o.
0,
6,
000
000
000
ooo
000
ooo
000
ooo
ooo
ooo
ooo
ooo
ooo
000
ooo
ooo
ooo
ooo
000
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
o.oo
ooo
ooo
ooo
000
ooo
ooo
600
ooo
ooo
ooo
ooo
ooo
MATERIAL CODE HS193
CAT* NICKEL OXIDE ON ALUMINA
NIO 10»BAL. AL203-S102 (INERT)
NONE
1.0 INCH
SPHERES
REFORM LOW MOLECULAR WEIGHT
HYDROCARBONS.
MATERIAL CODE HS194
CAT» NICKEL OXIDE ON ALUMINA
NI02 5» BALANCE AL?03 (INERT)
NONE
1.0 INCH
SPHERES
GAS REFORMING CATA| YST
-------�
MATERIAL CODE HS195
MATERJAL CODE _HS 195
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-o.ooo
-O.QOO
o.ooo
-_o.ooo
-o.ooo
0.000
o.ooo
6. ooo
o.ooo
J.OOO
6R.OOO
0.000
o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
6*000
CAT* NICKEL OXJDE ONI ALUMINA
NIO 1.5,BAL. AL203-SI02UNERT)
NONE
3/4 INCH
RING (GRAY)
USED IN GAS REFORMING
MATERIAL CODE HS196
MATERIAL CODE HS196
c
COB STF rc ATTO NT
COMPOSITION
COST, 2CD ACTIVE
_AVA TJL A8 L E _SI Z E S
AVAILABLE "SHAPE'S"
CRUSH_STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
1
2_
3
4
-0 . 000 CAT, NICKEL • ALUMINUM
NI 50%«_AL_50%
NI,AL
325 MESH
-O
5
6
.000
.000
-0
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
__ ___
PARTICLE" DENSITY
__ MAX,_ OP. TEMP.
"ATTRITION
COMMENTS
8
"9"
10
rr
12
13
14
15
16
1T7~
)8
19
20
_ 0
0
_ 6
137
__P
6
-6
-n
o
__
0
-0
.000
• OJ>.0
.000
• ooo
.000
*oo_o_
• doo
• opp
.000
.000
.000
JLO_PP
.000
.000
.000
• ooo
POWDER
PROCESS HYDROGENATTONS IN LOW
TO MODERATE TEMPERATURE RANGES
-------�
c
c
MATERIAL CODE HS197
CLASSIFICATION 1
COMPOSITION 2
COST, 2CO ACTIVE 3
AVAILABLE SIZES 4
AVAILABLE SHAPES 5
CRUSH STRENGTH 6
HARONESS 7
PORE SIZE 8
PORE VOLUME 9
SURFACE AREA 10
BULK DENSITY 11
CRYSTALLIMTY 12
CRYSTALLITE SIZE 13
MAJOR USES 14
MAJOR USES 15
VOLATILITY 16
PARTICLE DENSITY 17
MAX. OP. TEMP, 18
ATTRITION 19
COMMENTS 20
-0.000 CAT* NICKEL
-0-000 NI 70%» BASE
MATERIAL CODE HS197
CATALYST
MAT,L PROPRIETARY
0.000 NONE
-0.000 1/8 * 3/16 INCH(DIA, * LENGTH)
-0.000 TABLETS (ACT
io.ooo
o.ooo
6.000
.400
13?. 000
80.000
0.000
IVATED,STABLIZED)
0.000
-6.000 HYDROGENATION CATALYST
0.000
o.ooo
0.000
o.ooo
o.ooo
-0.000 NOT PYROPHORIC AS SHIPPED
MATERIAL CODE HS198
CLASSIFICATION 1
COMPOSITION 2
COST, 2CD ACTIVE 3
AVAILABLE SIZES 4
AVAILABLE SHAPES 5
CRUSH STRENGTH 6
HARDNESS 7
PORE SIZE 8
PORE VOLUME 9
SURFACE AREA 10
BULK DENSITY 11
CRYSTALLINITY i?
CRYSTALLITE SIZE 13
MAJOR USES 14
MAJOR USES 15
7 VOLATILITY 16
PARTICLE DENSITY 17
6 MAX. OP. TEMP. 18
ATTRITION! 19
s COMMENTS 20
-0.000 CAT. NICKEL
-0.000 NI 46%« BASE
0.000 NONr
-6.000 5/32 * 7/32
-0.000 TABLETS
40.000
o.ooo
6*000
o.ooo
6.000
8*5.000
o.ooo
MATERIAL CODE HS198
CATALYST
MAT L PROPRIETARY
IN. (OIA. + LENGTH)
o.ooo
-0.000 HYDROGENATION CATALYST
o.ooo
o.ooo
o.ooo
O.QOO
o.ooo
-------�
MATERIAL CODE HS199
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACF AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE HS200
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
U
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
U
15
16
17
18
19
20
MATERIAL CODE HS199
-0.000 CAT* NICKEL ON ALUMINA
-0.000 NI 40%» BAL, ACTIVATED AL203
0.000 NONE
-0.000 1/16 INCH DIAMETER
-0,000 EXTRUSION
9.000
o.ooo
0,000
.690
160.000
40.000
o.ooo
0*000
-0.000 HYDROGENATION CATALYST
o.ooo
6.000
o.ooo
0.000
o.ooo
-0.000 NOT PYROPHORIC AS SHIPPED
MATERIAL CODE HS200
-0.000 CAT* NICKEL OXIDE ON ALUMINA
-O.QOO NIO 5» MG 1.2* BAL, AL203-SI02
0.000 MG 1.2%
-0.000 1.0 INCH
-0.000 SPHERES
6.000
o.ooo
o.ooo
o.ooo
1 .000
7R.OOO
0.000
o.ooo
-0.000 A GAS REFORMING CATALYST
0.000
o.ooo
0,000
0.000
o.ooo
-------�
CODE HS201
.HS201
CLASSIFICATION 1 -0.000 CATt METAL OXIDES
COMPOSITION 2 __j-Q.OPQ NIO 4»FE203 4,COO
COST, 2CD ACTIVE 3 0.000 FE203»4%* COO 4%
_AVflLABLE SIZES 4 _ _-_6.0PP_l/4 INCH
AVAILABLE SHAPES 5 -0.000 SPHERES
CRUSH STRENGJH 6 0.0Q0
HARD'NESS 7 0.000
PORE SIZE _ 8 O..OPP
PORE VOLUME 9 O.OPO
SURFACE AREA 10 1*000 _
BULK DENS'ITY II ''" 9?.000~
CRYS T AJ_ L I_N_n_Y_J 2 6.QOO
" SIZE 13
14
15
16
17
18
ON ALUMINA
A»AL203-SI02
CRYSTALLITE
MAJOR USES
"MAJOR "USES
VOLATILITY
PARTICLE DENSITY
MAX. OP, TEMP.
0.000
0.000
6 . 0 0 Q
0.000
ATTRITION 19
COMMENTS 20
o.ooo
6.000
f
MATERIAL CODE HS202
MATERIAL CODE HS2Q2
CLASSIFICATION
_COMPOSITION
COST, 2co ACTIVE
_J*VAJLA«LFL SIZES
AVAILABLE SHAPES
__CRySH_ STRENGTH
"HARDNESS
PORE SIZE
PORE" VOLUME
SURFACE AREA
BUUK~DEN5~:
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
"piRrrr"crE~~DEN's i TY
MAX. OP, TEMP.
ATTRITION
COMMENTS
J 1
.1 2
; -3 --
> 4
; 5
\ 6
; 7
• 8
• 9
\ 10
rri'
f 12
• 13
5 14
5 15
f 16
f I'f
, 18
g 19
5 20
-0.
-0.
6.
-0.
-0.
1ft.
0.
0.
78.
6?.
6.
0.
-0.
0.
o.
o.
0.
0.
0.
000
ooo
000
ooo
ooo
ooo
ooo
ooo
280
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
CAT, METAL OXIDES ON ALUMINA
NIO 4»FE203 4, COO 4,AL203-SI02
FE203.4%, COO 4%
1/8X1/8 INCH
TABLETS
A DECOMPOSITION' CATALYST
-------�
MATERIAL CODE HS203
CLASSIFICATION
COMPOSITION
""cos'fi 2co ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUME
SURFACE AREA
BULK DENSITY
CPYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE HS204
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZF
MAJOR USES
MAJOR USES
? VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
i COMMENTS
1
2
"3
4
5
6
1
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
MATERIAL CODE HS203
-0.000 CATt METAL OXIDES ON SILICA
-0.000 NIO 10,CUO 1»B&L SI02
6.000 CUO 1%
-0.000 4-6 MESH
-0.000 GRANULES
o.ooo
0.000
6.000
o.ooo
3.000
37.000
6.000
o.ooo
-6.000 HYDROGENATION CATALYST
o.ooo
0.000
o.ooo
0.000
o.ooo
o.ooo
MATERIAL CODE HS204
-0.000 CAT, NICKEL OXTDE ON ALUMINA
-O.QOO NIO 3» BAL. ACTIVATED AL203
0.000 NONE
-6.000 R-l MESH
-o.ooo GRANULES
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
53.000
o.ooo
o.ooo
-0.000 A GAS REFORMING CATALYST
o.ooo
0.000
o.ooo
o.ooo
o.ooo
-------�
c
c
MATERIAL CODE HS205
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVF
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE HS206
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVF
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUMfr
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
U
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-o.ooo
-0.000
o.ooo
-o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
JJL.OOO
37.500
6.600
o.ooo
-o.ooo
o.ooo
0.000
o.ooo
6.000
o.ooo
o.ooo
-o.ooo
-o.ooo
o.ooo
-o.ooo
-o.ooo
100.000
o.ooo
O.QOO
o.ooo
o.ooo
135«000
o.ooo
o.ooo
-O.QOO
-o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
-o.ooo
MATERIAL CODE HS205
CAT* NICKEL
NIO 5» BAL. INERT CUBES
NONE
1.0 INCH (SPEC^IO?)
CUBES
GAS REFORMING CATALYST
MATERIAL CODE HS206
CAT* NICKEL-ALUMINUM
NI 49%t AL 49%
AL 49%
3/16X3/16 INCH
TABLETS
FOR FIXED BED»LOW-MODERATE
TEMP. HYDROGENftTION REACTIONS.
-------�
MATERIAL CODE HS207
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE HS208
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
"CRYSTALLITE SIZE
MAJOR USES
" "MAJOR USES
? VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
5 COMMENTS
--
1
i
1
1
1
1
1
1
1
1
2
3
4
5
6
7
8
9
0
1
2
3
4
5
6
7
8
19
20
1
1
1
1
1
1
1
1
1
1
2
1
2
3
4
5
6
7
8
9
0
1
2
3
4
5
6
"7"
8
9
!0
-0.
-0.
0.
6.
-0.
0.
0.
0«
0.
0.
o.
0.
0.
-6.
-0.
0.
0.
6.
o.
-0.
-0.
-0.
n.
6.
-0.
0.
0.
6.
0.
0.
0.
0.
0.
-0.
-6.
6.
o.
0.
0.
6.
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
000
ooo
ooo
ooo
ooo
ooo
ooo "
ooo
ooo
ooo
ooo
ooo
MATERIAL CODE HS207
CATt (NYSEL)
Nl 30(ACTIVE) 5BASE PROPRIETARY
NONE
FLAKES(PROTECTED,60% STEARINE)
SUPERIOR S
HYDROGENAT
ELECTIVITY IN THE
ION OF EDIBLE OILS.
CONSULT HARSHAW REP. .DETAILS
MATERIAL CODE HS208
CAT, NICKEL FLAKES (RuFERT)
Nl 25% (NO OTHER DATA GIVEN)
NONE
FLAKES (IN
HARDENED OIL)
HYDROGENATION OF FATTY OILS *
AClnSiMETHYL ESTERS, ETC.
•
-------�
MATERIAL CODE HS209
CLASSIFICATION
COMPOSITION)
COST, 2CD ACTIVF
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE HS210
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPtS
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUME
SURFACF AREA
RULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE OENMJY
6 MAX. OP. TEMP.
ATTRITION
s COMMENTS
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-o.ooo
-0*000
o.ooo
-6.QOO
-o.ooo
14.000
o.ooo
o.ooo
• 370
239.000
0*000
o.ooo
0*000
-o.ooo
-o.ooo
6*000
o.ooo
6.000
0*000
6*000
-n.QOO
-o.ooo
o.ooo
-o.ooo
-o.ooo
16.000
o.ooo
o.ooo
.390
21?. 000
59.000
o.ooo
o.ooo
o.ooo
o.ooo
6.000
o.ooo
o.ooo
0*000
-6*000
MATERIAL CODE HS209
CAT» NICKEL/TUNGSTEN
NI 6«W 19-BAL* SIOP/AL203
NI 6%
1/12 INCH DIAMETER
EXTRUSION
SULFIDE FORMICRACKING FUNCTION
OE-NITROGENATION/SULFURIZATION
MATERIAL CODE HS210
CAT* NICKEL/TUNGSTEN SULFIDE
NOT GIVEN (SEE COMMENTS)
NIS 6%
1/12 INCH DIAMETER
EXTRUSION
-------�
MATERIAL CODE HS211
CLASSIFICATION
COMPOSITION
VoSTV 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
C«USH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE HS212
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORF SIZE
PORE VOLUMF
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
5 COMMENTS
1
?
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19 "
20
MATERIAL CODE HS211
-0.000 CAT* NICKEL/TUN'GSTFN SULFIDE
-0.000 NOT GIVEN (SEE COMMENTS)
6.000 NIS 6%
-0.000 1/12 INCH DIAMETER
-0.000 EXTRUSION
1ft. 000
0.000
o.ooo
.480
140.000
50.000
o.ooo
0.000
o.ooo
o.ooo
o.ooo
o.ooo
0.000
o.ooo
-0.000 SULFIDED FORM QF HS212
MATERIAL CODE HS212
-0.000 CATjNlCKEL/TUNGSTEM ON ALUMINA
-0.000 NI 6,W 19» BALANCE AL203
0.000 NI 6%
-6.000 1/12 INCH DIAMETER
-0.000 EXTRUSION
17.000
0.000
o.ooo
.540
15?. 000
49.000
o.ooo
0.000
.-0.000 DE-NITROGENATlOM/Sl.lLFURIZATION
-6.000 ^SATURATION AROMATIC COMPOUNDS
o.ooo
o.ooo
.... .0.000 __
o.ooo
-------�
MATERIAL CODE HS213
CLASSIFICATION
COMPOSITION
~Cn"ST7'2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
POPE SIZE
PORE VOLUMF
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE HS214
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVF
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUMF
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
6 MAX. OP, TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-o.ooo
_ -o.ooo
o.ooo
-o.ooo
-o.ooo
IS. 000
o.ooo
o.ooo
• 530
184.000
64.000
o.ooo
o.ooo
-o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
-6*000
-o.ooo
-o.ooo
o.ooo
-o.ooo
-o.ooo
24.000
o.ooo
o.ooo
.380
186.000
55.000
o.ooo
o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
MATERIAL CODE HS213
CAT, NICKEL/TUNGSTEN ON ALUMINA
NI 4.5»w 9.5» BALANCE AL203
NI 4.5%
1/8 INCH DIAMETER
EXTRUSION
OE-NITROGENATION/SULFURIZATION
SATURATION AROMATIC COMPOUNDS
MILDLY ACIDIC
MATERIAL CODE HS214
CAT* PALLADIUM ON ALUMINA
PD 0.3%. 8AL. ACTIVATED AL203
NONE
1/8X1/8 INCH
TABLETS
HYDROGENATION CATALYST
-------�
MATERIAL CODE HS215
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP, TEMP.
ATTRITION
COMMENTS
MATERIAL CODE HS216
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUME
SURFACE AREA
RULK DENSITY
CPYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
"MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-0
-0
0
-0
-0
?2
n
6
200
5«=;
0
0
-0
0
0
0
6
0
-0
-0
-0
0
-0
-0
30
0
0
1«0
70
6
0
-0
6
0
0
0
0
. 0
.000
.000
• 000
• ooo
.000
.000
• 000
.000
• 400
.000
• ooo
.000
.000
• ooo
• 000
• ooo
.000
.000
• 000
.000
.000
.000
.000
.000
• ooo
.000
• ooo
• ooo
• 400
.000
• ooo
• ooo
• 000
• ooo
.000
• ooo
• ooo
• ooo
• ooo
.000
MATERIAL CODE HS215
CAT, PALLADIUM ON ALUMINA
PO 0.3%, 8AL. ACTIVATED AL203
NONE
1/8X1/8 INCH
TABLETS
HYDROGENATION CATALYST
PD ACTIVATED * STABILIZED
MATERIAL CODE HS216
CAT* PALLADIUM CATALYST
PO o.3»BASE MAT L PROPRIETARY
NONE
1/8x1/8 INCH
TABLETS
HYpROGENATlON CAT ALYSTJ STABLE)
-------�
MATERIAL CODE HS217
MATERIAL CODE HS217
CLASSIFICATION 1
COMPOSITION 2
C'nS'Tt "PCD ACTIVE 3
AVAILABLE SIZES 4
"AVAILABLE SHAPES 5
CRUSH STRENGTH 6
HARDNESS 7
PORE SIZE 8
PORE VOLUMfr 9
SURFACE AREA 10
BULK DENSITY 11
CRYSTALLTNITY 12
CRYSTALLITE SIZE 13
MAJOR USES 14
MAJOR USES 15
VOLATILITY 16
PARTICLE DENSITY 17
MAX. OP. TEMP. 18
ATTRITION! 19
COMMENTS 20
MATERIAL CODE HS218
CLASSIFICATION 1
COMPOSITION 2
COST, 2CD ACTIVE 3
AVAILABLE SIZES 4
AVAILABLE SHAPES 5
HARDNESS 7
PORE SIZE 8
PORE VOLUME 9
SURFACE AREA 10
RULK DENSITY 11
CRYSTALLINITY 12
CRYSTALLITE SIZE 13
MAJOR USES 14
MAJOR USES 15
7 VOLATILITY 16
PARTICLE DENSITY 17
MAy. OP. TEMP. 18
" ATTRITION 19
COMMENTS 20
-6.000 CAT, TITANIA ON ALUMINA
-0.000 T102 86%, BALANCE AL203
6.000 AL203 14%
-0.000 1/8X1/8 INCH
-0.000 TABLETS (WHITE) "
14.000
o.ooo
6.000
• 250
70.000
87.000
6.000
o.ooo
6.000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
6.000
MATERIAL CODE HS218
-o.ooo CAT, VANADIUM OXIDE ON ALUMINA
-0.000 V205 10, BAL. ACTIVATED AL203
O.OOO NONE
-0.000 1/8X1/8 INCH
-0.000 TABLETS (ORANGE)
9.000
o.ooo
6.000
.330
78.000
59.000
o.ooo
o.ooo
-6.QOO OXIDATION
0.000
O.QOO
o.ooo
6.000
o.ooo
-------�
MATERIAL CODE HS219
CLASSIFICATION
COMPOSITION
"COST, 2CO ACTIVE
AVAILABLE SUES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLIN1TY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE HS220
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SUES
AVAILABLE SHAPE?
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
RULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
r COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
~1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17"
18
19
20
MATERIAL CODE HS219
-0.000 CAT, VANADIUM OXIDF ON ALUMINA
. -0.000 V205 10, .8AL.ANCE A|_203_
0.000 NONE
0.000
-0.000 SPHERES (ORANGE)
27.000
0.000
o.ooo
• 3*0
214.000
61.000
o.ooo
o.ooo
-0.000 OXIDATION
0.000
0.000
o.ooo
o.ooo
o.ooo
o.ooo
MATERIAL CODE HS220
-6.000 CAT* METAL OXIDES ON ALUMINA
-0.000 V205 5, M003 5, ON INERT AL203
0.000 M003 5%
-6.000 3/16 INCH DIAMETER
-0.000 EXTRUSION
6.000
o.ooo
o.ooo
o.ooo
1.000
R?.000
n.ooo
o.ooo
-6. 000 OXIDATION CATALYST
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
-------�
c _
MATERIAL CODE HS221
CLASSIFICATION 1
COMPOSITION 2
COST", 2CD ACTIVE 3
AVAILABLE SIZES 4
AVAILABLE SHAPES 5
CRUSH STRENGTH 6
HARDNESS 7
PORE SIZE 8
PORE VOLUME 9
SURFACE AREA 10
BULK DENSITY 11
CRYSTALLINITY 12
CRYSTALLITE SIZE 13
MAJOR USES 14
MAJOR USES 15
VOLATILITY 16
PARTICLE DENSITY 17
MAX. OP. Tfe-MP. 18
ATTRITION 19
COMMENTS 20
MATERIAL CODE HS222
CLASSIFICATION 1
COMPOSITION 2
COST, 2CD ACTIVF 3
AVAILABLE SIZES 4
AVAILABLE SHAPES 5
CRUSH STRENGTH 6
HARDNESS 7
PORE SIZE 8
PORE VOLUME 9
SURFACE AREA 10
BULK DENSITY 11
CRYSTALLINITY 12
CRYSTALLITE SIZE 13
MAJOR USES 14
MAJOR USES 15
7 VOLATILITY 16
PAPTlCLE DENSITY 17
o MAX. OP. TEMP. 18
ATTRITION 19
5 COMMENTS 20
MATERIAL CODE HS221
-0.000 CAT, METAL OXIDES ON ALUMINA
-0.000 V205 6» M003 3, ON INERT AL203
6.000 M003 3%
-0.000 3/16 INCH DIAMETER
-0.000 EXTRUSION
o.ooo
o.ooo
6.000
n.ooo
1.000
83.000
o.ooo
0.000
-0.000 OXIDATION CATALYST
o.ooo
6.000
o.ooo
n.ooo
o.ooo
o.ooo
MATERIAL CODE HS222
-0.000 CAT, TUNGSTEN OXIDE ON ALUMINA
-6.000 W03 10, BAL. ACTIVATED AL203
n.ooo NONE
-0,000 1/8X1/8 INCH
-0.000 TABLETS (YELLOW TO WHITE)
11,000
0.000
o.ooo
• 370
7S.OOO
59.000
6,000
0,000
o.ooo
0*000
6*000
o.ooo
n.ooo
o.ooo
-------�
MATERIAL CODE HS223
.MAJEpLAL-CODE HS223
CLASSIFICATIOM
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SUE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CPYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-o.ooo
... -O.QOO
0.000
.,-0.000
-0.000
9.000
o.ooo
O.QOO
.190
] 7 • 0 0 0
10^.000
o.ooo
o.ooo
-o.ooo
o.ooo
6.000
o.ooo
o.ooo
o.ooo
-o.ooo
CAT* TUNGSTEN OXIOF
W03 95% JAPPROX..)
NOT GIVEN
1/8X1/8 INCH
TABLETS
DEHYDRATION
SHOULD BE REDUCED BEFORE USE.
MATERIAL CODE HS224
MATERIAL CODE HS224
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP, TEMP.
ATTRITION
r. COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-o.ooo
-o.ooo
o.ooo
-o.ooo
-o.ooo
21.000
o.ooo
0.000
• 360
14S.OOO
63.000
n.QOO
0.000
-o.ooo
0.000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
CAT, TUNGSTEN OXIDE ON ALUMINA
W03 10» BAL. ACTIVATED AL203
NONE
1/8X1/8 INCH
TABLETS (GRAY WHITE)
DEHYDRATION
-------�
MATERIAL CODE HS225
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP, TEMP.
ATTRITION
COMMENTS
MATERIAL CODE HS226
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
e MAX. OP. TEMP.
ATTRITION
* COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-o.ooo
-o.ooo
o.ooo
-o.ooo
-o.ooo
0.000
o.ooo
o.ooo
o.ooo
6.000
o.ooo
o.ooo
-o.ooo
-p. 000
o.ooo
o.ooo
-o.ooo
-o.ooo
-o.ooo
o.ooo
-o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
6.000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
6.000
o.ooo
-o.ooo
MATERIAL CODE HS225
CAT, CHROMITE
NOT GIVEN (SEE COMMENTS)
CR203 22%
1/4X1/4 INCH
TABLETS
READY AS SHIPPED FOR METHANOL
SYNTHESIS.
REDUCED FORM OF HS125
MATERIAL CODE HS226
CAT* CHROMITE
NOT GIVEN (SEE COMMENTS)
CH203
3/16,l/4»*3/8 TNCH,DIA.»LENGTH
TABLETS
-------�
MATERIAL CODE HS227
_MA.T.E9IAL_CODE HS22.7_
CLASSIFICATION 1
COMPOSITION 2
COST, 2CD ACTIVE 3
AVAILABLE SUES _4
AVAILABLE SHAPES 5
CRUS H_ SJP_FJV(G T H __ 6
HARDNESS 7"
PORE SIZF 8_
PORE VOLUME 9
SURFACE AREA_1Q
DENSITY 11
12
BULK
CRYSTALLINITY
•0.000 CAT* CHROMITE
•0.000 MOT GIVEN (SEE COMMENTS)
O.QOO CR203
•0.000 3/l6,l/4»t3/8 INCH,DI A,,LENGTH
•0.000 TABLETS
JL.JIO.Q
o.ooo
CRYSTALLITE SIZE
MAJOR USES
MAJOR"USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
> 0 Q.O..
,000
,000
.000
J)_QO_
ATTRITION
COMMENTS
13 0.000
14 _O.OOQ
15 0*000
16 o.o 00
17 0.000
_! 8 Q_.J}J) 0
"19
20
o.ooo
•Q .• 0 Q_0_:SJ_M_I L.AR__T_0_iiS2_25_
MATERIAL CODE HS228
MATERIAL CODE HS228
CLASSIFICATION)
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
"MAJOR USES
: VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
; COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-o.ooo
-0.000
o.ooo
-o.ooo
-o.ooo
1R.OOO
0.000
o.ooo
• 140
7.000
75.000
0.000
0.000
-0*000
-o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
0.000
CAT* ZINC OXIDE
ZNO 100%
NONE
3/16 INCH DIAMETER
EXTRUSION (WHITE)
REMOVAL OF SULFUR FROM GAS
STREAMS.
-------�
MATERIAL CODE HS229
CLASSIFICATION
COMPOSITION
" COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
MATERIAL CODE HS229
-n.OOO CAT* METAL OXIDES ON ALUMINA
-O.QOO ZNO 38,CR203 25»/BALANCE AL203
0.000 CH203 259i
-0,000 1/8X1/8 INCH
-0.000 TABLETS (GREENISH-BLACK)
14.000
o.ooo
o.ooo
.180
5A.OOO
97.000
o.ooo
o.ooo
0.000
o.ooo
o.ooo
o.ooo
o.ooo
0*000
o.ooo
MATERIAL CODE HS230
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CPYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
1
2
3
4
5
6
7
8
9
10
1 1 ~ '
12
13
14
15
16
PARTICLE DENSITY 17
e MAX. OP. TEMP. 18
ATTRITION
5 COMMENTS
19
20
MATERIAL CODE HS230
-0.000 CAT, METAL OXIDES ON ALUMINA
-0.000 ZNO 10fCR203 Io» BAL» AL203
0.000 CR203 10%
-0.000 1/8X1/8 INCH
-0.000 TABLETS (GREY)
7.000
o.ooo
0.000
• 280
141 .000
6«.000
o.ooo
0.000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
-------�
(.
c
c
MATERIAL CODE HS231
CLASSIFICATION)
COMPOSITION
"COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL COOE HS232
CLASSIFICATION)
COMPOSITION
"COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
" " MAJOR USES
r . VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
s COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
MATERIAL CODE HS231
-0.000 CAT, ZINC OXIDE ON ALUMINA
-0.000 ZNO ?4 ,BAL. ACTIVATED AL203
0.000 NONE
-O.OOO 1/8X1/8 INCH
-0.000 TABLETS (WHITE)
9.000
o.ooo
0.000
• 250
46.000
7^.000
o.ooo
0.000
6.000
o.ooo
o.ooo
o.ooo
6.000
o.ooo
o.ooo
MATERIAL CODE HS232
-o.ooo CAT, ZINC ACETATE
-6.000_ ZN(C2H302)2 _1.0%«_ BAL... CARBON
6.000 NONE
-6.000 4-10 MESH
-0.000 GRANULES
6.000
o.ooo
0.000
o.ooo
6.000
4S.OOO
6.000
o.ooo
-O.OOO CONVERT ACETYLENE AND ACETIC
-0.000 ACID TO VINYL ACETATE MONOMER
0.000
o.ooo
o.ooo
o.ooo
-------�
MATERIAL CODE HS233
CLASSIFICATION
COMPOSTTIOM
COST, 2co ACTIVE
AVAILABLE SUES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE HS234
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
v.. PORE SIZE
"•' PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
c MAX. OP. TEMP.
ATTRITION
5 COMMENTS
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
MATERIAL CODE HS233
-0.000 CAT* ZIRCONIA
-0.000 ZH02 98%» BALANCE AL203
0.000 AL203 2%
-0.000 1/RX1/8 INCH
-0.000 TABLETS (WHITE)
24.000
0.000
6.000
.210
50.000
116.000
0.000
0.000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
MATERIAL CODE HS234
-0.000 CAT» ALUMINA
-0.000 AL203 919f,t SI02 6%
0.000 SI02 6%
-6.000 1/8X1/8 INCH
-0.000 TABLETS
25.000
o.ooo
0.000
.480
240.000
52.000
6.000
o.ooo
-6.000 CATALYST SUPPORT
o.ooo
o.ooo
O.OOO
o.ooo
0*000
-------�
MATERIAL CODE KClOl
CLASSIFICATION
COMPOSITION
"COST, 2co ACTIVE
AVAILABLE SUES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUMF.
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTTCLE DENSITY
MAX. OP, TEMP.
ATTRITION
COMMENTS
MATERIAL CODE MRlOl
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
~Tl
12
13
14
15
16
"1 7~ "
18
19
20
MATERIAL CODE KClOl
-0.000 CRR, ACTIVATED ALUMINA
O.QOO AL203 93.6%, NA20 6.30%
320.000 NA20 .3%
0.000 1/4X8 MESH» 1/4X1/2 JN.CH
0.000 BALLS
50.000
o.ooo
50,000
• 510
380.000
47.000
n.ooo
o.ooo
0.000
o.ooo
A. 000
o.ooo
o.ooo
.200
o.ooo
MATERIAL CODE MBlOl
-0.000 CAT» PLATINUM ON TORVEX
-0.000 NOT GIVEN
111000.000 NONE
o.ooo
0*000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
-0.000 NOX, HYDROCARBON FUME REMOVAL
o.ooo
o.ooo
0*000
o.ooo
o.ooo
-------�
MATERIAL CODE MNlOl
CLASSIFICATION)
COMPOSITION)
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE MN102
CLASSIFICATION
COMPOSITION
" COST, 2CO" ACTIVE"
AVAILABLE SIZES
AVAILABLE SHAPES
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-0
-0
2080
-0
-0
0
0
0
0
34
0
0
-0
0
0
0
-0
-6
-0
-0
2160
-6
-0
0
0
6
n
6
34
6
0
-0
0
0
0
0
-n
-0
.000
.000
.000
• 000
.000
.000
.000
.000
• 000
.000
.000
.Q_00
.000
• ooo
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
• ooo
.000
.000
.000
.000
.000
.000
.000
.000
.000
MATERIAL CODE MNlOl
CAT, VANADIUM OXIDF
V205, CARRIER NOT SPECIFIED
NONE
0.2 IN.DIA. X 0.3 TN. LENGTH
EXTRUDED PELLETS
MIN, 51 MAX,
H2S04 CONTACT CATALYST
HIGHLY RESISTANT TO DTSINTEGR.
IMMUNE TO COMMON POISONS
MATERIAL CODE MN102
CAT, VANADIUM OXIOp
V205, CARRIER NOT SPECIFIED
NONE
0.2 IN.DIA. x 0.3 IN. LENGTH
EXTRUDED PELLETS
MIN» 51 MAX.
H2S04 CONTACT CATALYST
RESISTANT
-------�
MATERIAL CODE MN103
CLASSIFICATION
COMPOSITION!
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE NClOl
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORF VOLUMF
SURFACE AREA
RULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
p'ARTtCLr'OENSITY
MAX. OP. TEMP.
ATTRITION
r- COMMENTS
1
1
1
1
1
1
1
1
1
1
2
1
I
1
1
1
1
1
1
1
1
2
1
2
3
4
5
6
7
8
9
0
1
2
3
4
5
6
7
8
9
0
1
?.
3
4
S
6
7
8
9
0
1
2
3
4
5
6 -
7
8
9
0
-0.
-0.
0.
-6.
-0.
n.
0.
0.
0«
6.
0.
0.
0.
-0.
0.
0.
o.
n.
!•
-n.
-0.
-n.
6500.
o.
0.
?6.
0.
Q.
0.
450.
32.
6.
0.
0.
0.
0.
o.
1500.
0.
0.
000
000
000
000
000
000
000
000
000
ooo
000
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
ooo
MATERIAL CODE MN103
CAT* VANADIUM OXIOF
V205, CARRIER NOT SPECIFIED
NONE
2.8 IN.DIA. X 0.14 IN. THICK
TABLETS
H2S04 CONTACT CATALYST
LOW ATTRITION LOSS
RUGGED IN FIXED-BED OPERATION
MATERIAL CODE NClOl
CRR» ZEOLITE* SYNTHETIC
NOT GIVEN
NOT GIVEN
1/8 1/16 PELLET5*5 MICRON POWD
PELLET* POWDER
PELLET
PELLET
ALKYLATION AND ISOMERIZATION
DRY REFORMER RECYCLE HYDROGEN
MAXIMUM
-------�
MATERIAL CODE N|_101
CODE NL1 01
C
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SHE
PORE VOLUME
SURFACE AREA
RULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL. CODE NL102
'CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUME
SURFACE AREA
RULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
e MAX. OP. TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
9
10
11
1?
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
U
15
16
17
1R
19
20
-0.000 CAT» SYNTHETIC SIO?-AL203 TYPE
-0.000 AL203 13* S04 0.4» BAL. SI02
315.000 AL203 13%
0.000
o.ooo
0.000
o.ooo
70.000
•POO MIN. 0.85 MAX.
5?0.000
26*000
o.ooo
o.ooo
-6.000 FLUID CRACKING
0.000
13.000
0.000
O.ooo
o.ooo
o.ooo
MATERIAL CODE NL102
-0.000 CAT* SYNTHETIC SIO?-AL203 TYPE
-0.000 AL203 25» S04 0.4, BAL. SI02
355.000 AL203 25%
6.000
o.ooo
o.ooo
o.ooo
SO. 000
.800 MIN. 0.9 MAX.
440.000
26.000
o.ooo
O.QOO
-0.000 FLUID CRACKING
0.000
13.000
ft.QOO
o.ooo
o.ooo
-------�
MATF.RJAL CODE NL103
MATERIAL CODE NL103
CLASSIFICATION 1 -0.000 CAT, MODIFIED
COMPOSITION 2 -0.000 AL203 33»_S04
COST, 2CD ACTIVE 3 240.000 AL203 33%
AVAILABLE SIZES 4 6..00Q.
SYNTHETIC
0.4, BALt
TYPE
SI02
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
5
6
7
8
9
10
6.000
o.ooo
o.ooo
95*000
.650
280.000
BULK DENSITY 11 31.000
CRYSTALLTNITY 12 _Q_»_Q_PP_
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
13
14
15
16
17
18
19
20
o.ooo
-6. QOO FLUID CRACKING
0.000
13.000
0.000
o.ooo
o.ooo
o.ooo
MATERIAL CODE NL104
MATERIAL CODE NL104
CLASSIFICATION
COMPOSITION
COST, 2co ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUMF
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
" MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
ir
18
19
20
-0.000 CAT* MODIFIED SYNTHETIC TYPE
-0-000 AL203 29« 504 0.4, BAL. SI02
297. SOO AL203 29%
o.ooo
o.ooo
o.ooo
o.ooo
Q=>.000
.650
350.000
31 .000
6.000
o.ooo
-0.000 FLUIP_CRACKI.NG
o.ooo
13.000
o.ooo
o.ooo
o.ooo
-------�
MATERIAL CODE NL105
CLASSIFICATION
COMPOSITION
"" COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
POPE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE NI.106
CLASSIFICATION
COMPOSITION
COST, 2co ACTIVE
AVAILABLE SIZES
AVAfLABCE SH'APEs
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
o MAX, OP. TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
Tl
12
13
14
15
16
T7 "
18
19
20
MATERIAL CODE NL105
-0.000 CAT, MOLECULAR SIEVE TYPE
-0.000 AL203 32, S04 0.4, BAL. SI02
425.000 AL203 "32%
6.000
o.ooo
o.ooo
o.ooo
82.000
•550 MlN.f 0.60 MAX.
280.000
33.000
6.QOO
o.ooo
-0.000 FLUID CRACKING
0,000
13.000
o«ooo
6.000
o.ooo
o.ooo
MATERIAL CODE NL106
-0.000 CAT* MOLECULAR SIEVE TYPE
-O.QOO AL203 32» S04 0.4, RAL. SI02
471 .000 AL203 32%
6.000
o.ooo
6.000
o.ooo
90.000
•600 MlNi 0.65 MAX.
270.000
33.000
6.000
o.ooo
-0.000 FLUID CRACKING
0.000
13.000
n.QOO
6.000
o.ooo
-------�
MATERIAL CODE ML, 107
MATEPIAL..CODE
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUMF
SURFACE AREA
RULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP, TEMP.
ATTRITION
COMMENTS
MATERIAL CODE NL108
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUMF
SURFACE AREA
RULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
""" " MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
"ATTRITION
; COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-o.ooo
-O.QOO
1680.000
-6.000
-o.ooo
L4.000
o.ooo
o.ooo
.460
260.000
39.000
0.000
o.ooo
-o.ooo
o.ooo
6.000
o.ooo
o.ooo
9?. 000
o.ooo
-o.ooo
-o.ooo
1800.000
-6.000
-o.ooo
13.000
o.ooo
75.000
.510
270.000
45.000
o.ooo
o.ooo
-O.QOO
o.ooo
o.ooo
o.ooo
6.000
91 .000
o.ooo
CAT* MO, C0» OXIDES ON ALUMINA
M003 12, 5» COO 3,5
COO 3.5%
1/16, 1/8 INCH
EXTRUSION
HYDODESULFURIZATION
AFTER TUMBLING FOR ONE HOUR
MATERIAL CODE NL108
CAT* M0» CO, OXIDES ON ALUMINA
M003 12, 5f COO 3.5
COO 3.5%
1/16, 1/8 INCH
EXTRUSION
HYDRQDESULFUR1ZA.TION ..
AFTER TUMBLING FOR ONE HOUR
(
(.
(
c
-------�
MATERIAL CODE NL109
CLASSIFICATION i
COMPOST TIOM 2
"COST, 2CO ACTIVE 3
AVAILABLE SIZES 4
AVAILABLE SHAPES 5
CRUSH STRENGTH 6
HARDNESS 7
PORE SIZE 8
"" " PORE VOLUME "9
SURFACE AREA 10
BULK DENSITY 11
CRYSTALLINITY 12
CRYSTALLITE SIZE 13
MAJOR USES 14
MAJOR USES 15
VOLATILITY 16
PARTICLE DENSITY 17
MAX. OP. TEMP. 18
ATTRITION 19
COMMENTS 20
MATERIAL CODE NI..110
CLASSIFICATION 1
COMPOSITION 2
COST, 2CD ACTIVE 3
AVAILABLE SIZES 4
AVAILABLE SHAPES 5
CRUSH STRENGTH 6
HARDNESS 7
PORE SIZE 8
"PORE" VOLUME 9
SURFACE AREA 10
BULK DENSITY 11
CRYSTALLINITY 12
CRYSTALLITE SIZE 13
MAJOR USES 14
MAJOR USES 15
7 VOLATILITY 16
PARTICLE DENSITY 17
r, MAX. OP. TEMP. 18
~" '~ ATTRITION 19
5 COMMENTS 20
-o.ooo
-0.000
1900.000
-O.QOO
-o.ooo
i?.ooo
o.ooo
o.ooo
.500
360.000
35.000
o.ooo
o.ooo
-o.ooo
o.ooo
_o.ooo
o.ooo
6.000
92.000
o.ooo
-o.ooo
-o.ooo
2040.000
-o.ooo
-o.ooo
13.000
o.ooo
75.000
• sio
270.000
45.000
o.ooo
o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
O.oOO
of. ooo
o.ooo
MATERIAL CODE NL109
CAT, NI ON SI02-AL203
M003 13» NI 4.5, ST02 15
Nl 4.5%
1/16, 1/R INCH
EXTRUSION
.
DESULFURIZATIOM
AFTER TUMBLING FOR ONE HOUR
MATERIAL CODE NL110
CAT* MO. NI ON ALUMINA
M003 14, NIO 2.8, sfoa 1.5
NIO 2.8%
1/16, I/ft INCH
EXTRUSION
DESULFURIZATION
-------�
MATERIAL CODE Nt_Hl
CLASSIFICATION)
COMPOSITION]
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE NLH2
CLASSIFICATION
COMPOSITION
COST, 2co ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
"" MAJOR USES
; VOLATILITY
PARTICLE DENSITY
MAy. OP. TEMP.
ATTRITION
s COMMENTS
1
2
3
4
5
6
7
R
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
1R
19
20
MATERIAL CODE NL111
-o.ooo CAT* NICKEL-TUNGSTEN
-0.000 W 16, NI 4, S04 0.4 BAL. AL203
3240.000 NI 4%
0.000
o.ooo
14.000
o.ooo
0.000
• 380
2T=i.oOO
50.000
0.000
o.ooo
-6.QOO SPECIFIC HYDROTREAT1NG
0.000
?^00 AT 1200F
n.QOO
0.000
91.000 AFTER TUMBLING FOR ONE HOUR
o.ooo
MATERIAL CODE NL112
-o.ooo CRR» ALUMINA BASE
-0.000 ALUMINA
0.000 NONE
-O.OOO EXTRUDED OR MlCROSPHEROIDAL
o.ooo
0.000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo .
o.ooo
o.ooo
o.ooo
o.ooo " " " "
o.ooo
o.ooo
o.ooo
o.ooo
-------�
MATERIAL CODE Nl|_113
CLASSIFICATION
COMPOSITION)
"COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE RMlOl
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
v VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
U
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
MATERIAL CODE NL113
-0.000 CAT, SILICA-ALUMINA
-0.000 AL203 33, NA20 .09, ST02-BAL.
650.000 NA20 .09
o.ooo
o.ooo
0.000
o.ooo
o.ooo
• 630
300.000
32.000
o.ooo
o.ooo
-0.000 FLUID CRACKING
o.ooo
6.000
0.000
o.ooo
o.ooo
o.ooo
MATERIAL CODE RMlOl
-0.000 CRR» ALUMINA
-0.000 AL203 9?.2»NA20 ,5,SI02 .10
260.000 NA20 .5
0.000 1/2-1/4, 1/4-8 MESH, 8-14 MESH
0.000 IRREGULAR GRANULES
0.000
o.ooo
6.000
.200 MIN» 0.25 MAX
210.000 MlN, 240. MAX
50.000 MlNi 55. MAX
0.000
0.000
O.'OOO
o.ooo
o.ooo
0,000
o.ooo
o.ooo
-------�
MATERIAL CODE UAlOl
.MATERIAL CODE UAlQl
(
(
(
(
(
c
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SUES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE UA102
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUMF
SURFACE AREA
RULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
: VOLATILITY
PARTICLE DENSITY
,; MAX. OP. TEMP.
" " ATTRITION
COMMENTS
I
2
3
4
5
6
7
8
9
10
11
12
13
14
15
1ft
17
Ifl
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
-0.000 CAT* POROUS CERAMIC
-0.000 NOT GIVEN
24000.000 NOT GIVEN
o.ooo
o.ooo
0.000
0.000
0.000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
-0.000 OXIDATION OF S02t HYDROCARBONS
-0.000 AT LOW TEMPERATURE
0.000
0.000
0.000
0.000
-0.000 MFGR CAN SUPPLY MORE_INFO.
MATERIAL CODE UA102
-o.ooo CAT» POROUS CERAMIC
-0.000 NOT GIVEN
58000.000 NOT GIVEN
o.ooo
o.ooo
0.000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
-0.000 OXIDATION OF HYDROfiFN (LOW 1)
0.000
O.QOO
o.ooo
_o.ooo
o.ooo
-------�
MATERIAL CODE UA103
CLASSIFICATION 1
COMPOSITION 2
COST," 2CO ACTIVE 3
AVAILABLE SIZES 4
AVAILABLE SHAPES 5
CRUSH STRENGTH 6
HARDNESS 7
PORE SIZE 8
PORE VOLUME 9
SURFACE AREA 10
BULK DENSITY 11
CRYSTALLTNITY 12
CRYSTALLITE SIZE 13
MAJOR USES 14
MAJOR USES 15
VOLATILITY 16
PARTICLE DENSITY 17
MAX. OP. TEMP, IB
ATTRITION 19
COMMENTS 20
MATERIAL CODE UClOl
CLASSIFICATION 1
COMPOSITION 2
COST, 2CO ACTIVE 3
AVAILABLE SIZES 4
AVAILABLE SHAPES 5
CRUSH STRENGTH 6
HARDNESS 7
PORE SIZE 8
PORE VOLUME 9
SURFACE AREA 10
BULK DENSITY 11
CRYSTALLTNITY 12
" CRYSTALLITE SIZF "13
MAJOR USES 14
MAJOR USES 15
, VOLATILITY 16
PARTICLE DENSITY T7
6 MAX, OP. TEMP. 18
ATTRITION 19
z COMMENTS 20
-o.ooo
-o.ooo
85000.000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
n.ooo
o.ooo
o.ooo
o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
1450.000
o.ooo
-o.ooo
-o.ooo
-o.ooo
2670.000
-o.ooo
-o.ooo
o.ooo
o.ooo
4.000
o.ooo
o.ooo
55.400
o.ooo
o.ooo
-o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
O.QOO
o.ooo
MATERIAL CODE UA103
CAT» METAL ON METAl.
NI 60%* CR 20%, FE~30%
CR 20%, FE ?0%
COMBUSTION HYDROCARBON FUMES
OK IN REDUCING ATMOSPHERES
MATERIAL CODE UClOl
SOR, MOLECULAR SIEVE
NOT GIVEN
NOT GIVEN
l/8« 1/16 INCH
PELLETS
REMOVES S02 AND OXIDES OF N?
FROM PROCESS STREAMS
-------�
MATFRTAL CODE UC102
CLASSIFICATION
COMPOSITION!
" COST. 2CO ACTIVE
AVAILABLE SUES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUMF
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTfCLE DENSITY
MAX. OP. TEMP.
ATTRITION)
COMMENTS.
MATERIAL CODE UC201
CLASSIFICATION!
COMPOSITION)
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORP SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
: VOLATILITY
" " PARTTCL'E "OFN'SITY
MAX. OP. TEMP.
ATTRITION!
COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
_ r -
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
"IT
Ifl
19
20
-o.ooo
-o.ooo
2000.000
o.ooo
o.ooo
o.ooo
o.ooo
5.000
o.ooo
o.ooo
45.400
o.ooo
o.ooo
-o.ooo
-0.000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
-o.ooo
-o.ooo
2670.000
-o.ooo
-o.ooo
12.^00
o.ooo
5.000
o.ooo
o.ooo
45.000
-o.ooo
o.ooo
-o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
MATERIAL CODE UC102
SOR, MOLECULAR SIEVE
NOT GIVEN
NOT GIVEN
REMOVES S02 AND OXIDES OF N?
FROM STREAMS; DRIES SOUR GAS
MATERIAL CODE UC201
SOR, MOLECULAR SIEVE
NOT GIVEN
NOT GIVEN
1/16* 1/8 INCH
POwnER* PELLETS
1/8 INCH PELLETS
POWDER FORM-CUBIC
SEPARATES NORMAL FPOM BRANCHED
PARAFFINS - - - -.-
-------�
MATERIAL CODE UC202
MATERIAL CODE UC202
CLASSIFICATION
COMPOSITION!
COST, 2CD ACTIVE
AVAILABLE SIZES
"AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUMF
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
"MAJOR USES
VOLATILITY
"PARTICLE DENSITY
MAXt OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE UC203
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HA'RDNESS
PORE SIZF
PORE VOLUMF
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
7 VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
5 COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15~
16
17
18
19
20
1
2
3
4
5
6
7
R
9
10
11
12
13
14
15
16
17
18
19
20
-0.000
-o.ooo
3260.000
-o.ooo
-6.000
?4,QOO
o.ooo
10.000
o.ooo
o.ooo
4?. 000
-o.ooo
o.ooo
-o.oop_
o.ooo
P . 0 0 0_
o.ooo
o.ooo
o.ooo
o.ooo
-o.ooo
-o.ooo
2720.000
-o.ooo
-0,000
14.ROO
n.oOO
3.000
o.ooo
o.ooo
47.000
-n.QOO
o.ooo
-o.ooo
0.000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
SOP, MOLECULAR SIEVE
NOT GIVEN
NOT GIVEN
l/16t 1/8 INCH
POWDER, PELLETS
1/8 INCH PELLETS
1/16 AND 1/8 INCH PFLLETS
POWDER FORM-OCTAHEDRAL
REMOVES .H20, C02j H2S...FROM GAS
MATERIAL CODE UC203
SOR, MOLECULAR SIEVE
NOT GIVEN
NOT GIVEN
1/16, 1/8 INCH
PELLETS, POWDER
1/8 INCH PELLETS
1/8 INCH PELLETS
POWDER FORM-CUBIC
DEHYDRATION
-------�
_J^ATERTAL_ CODE UC204
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
C«USH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUMF
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE UC301
CLASSIFICATION
COMPOSITION
" "criStY'ZCD ACTIVE
AVAILABLE SUES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZF
MAJOR USES
~"~MAJOR USES
v VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
" ^ATTRITION
'.- COMMENTS
-- -
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
IB
19
20
2
""3"
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
- •— -- --•
-0.000
-0*000
2460.000
_-._.- 0».0 00
-o.ooo
_ 2i-oo(L
o.ooo
4.000
o.ooo
o.ooo
46*000
-o.ooo
o.ooo
-o.ooo
o.ooo
o»ooo
o.ooo
o.ooo
o.ooo
O.QOO
o.ooo
o.ooo
56000.000
-n.QOO
-o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
506.000
44.000
o.ooo
o.ooo
-o.ooo
o.ooo
o.ooo
0.000
__.'_...o".ooo_
o.ooo
o.ooo
MATERIAL CODE UC204
SOR. MOLECULAR SIEVE
NOT RIVEN
NOT GIVEN
1/16, 1/8 INCH, 14X30,8X12 MSH
PELLETS, BEADS, POwDER
1/8 INCH PELLETS
ALL FORMS
1/16 INCH PELLETS
POwDER FORM-CUBIC
DEHYDRATION; DESSICANT
MATERIAL CODE UC301
CAT, PALLADIUM ON MQL. SIEVE
PU 0,5
MOLECULAR SIEVE STRUCTURE
3/16X3/16
TABLETS
PENTANE-HEXANE.. ISOMF.RIZATION
-------�
MATERIAL CODE IJC302
CLASSIFICATION
COMPOSTTIOM
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
RULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
"MAJQR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
9
in
11
12
13
14
"15
16
17
18
19
20
MATERIAL CODE UC302
o.ooo CAT* PALLADIUM ON MOL. SIEVE
O.QOO PD 0.5
56000.000 MN 5.2» MOL. SIEVE STRUCTURE
-0.000 3/16X3/16 INCH
-0.000 TABLETS
o.ooo
o.ooo
0.000
o.ooo
500.000
37.000
0.000
o.ooo
-0.000 BUTANE TSOMERIZAT ION
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
MATERIAL' CODE uc303
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE"
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
1
2
3
4
5
6
" 7
8
9
10
11
12
13
14
15
16
PARTICLE DENSITY 17
MAX. OP. TEMP. 18
ATTRITION
s COMMENTS
19
20
MATERIAL CODE UC303
o.ooo CAT* PLATINUM ON MOL. SIEVE
o.ooo PT o.s
80000.000 MOLECULAR SIEVE STRUCTURE
-0.000 3/16X3/16 INCH
-0.000 TABLETS
O.QOO
o.ooo
0.000
o.ooo
500.000
40.500
O.QOO
o.ooo
-0,000 REFORMING
0.000
o.ooo
o.ooo
o.ooo
o.ooo
-------�
MATERIAL CODE UC304
CLASSIFICATION
COMPOSITION
COST, PCD ACTIVE
AVAILABLE SUES
~" "AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE UC305
" CLASSIFICATION!
COMPOSITION
"COST, 2CD ACTIVE
AVAILABLE SUES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUMF
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
r COMMENTS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
1R
19
20
1
2
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
MATERIAL CODE UC304
o.ooo CAT, PALLADIUM ON MOL. SIEVE
o.ooo PU 6.5
80000.000 MOLECULAR SIEVE STRUCTURE
-O.OOO 3/16X3/16 INCH
-0.000 TABLETS
o.ooo
o.ooo
0.000
o.ooo
500.000
40.^00
o.ooo
o.ooo
-0.000 HYDROGENATION
o.ooo
6.000
o.ooo
0.000
o.ooo
o.ooo
MATEPTAL CODE UC305
6.000 CAT* PALLADIUM ON MOL. SIEVE
0.000 PD 0.5
80000.000 MOLECULAR SIEVE STRUCTURE
-0.000 3/16X3/16 INCH
-0.000 TABLETS
o.ooo
o.ooo
o.ooo
o.ooo
500.000
40.500
o.ooo
o.ooo
-0.000 HYDROGENATION
6.000
o.ooo
o.ooo
6.000
o.ooo
-------�
MATERIAL CODE UC306
MATERIAL.CODE ucsoe
CLASSIFICATION
COMPOSITION
COST, 2CO ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SURFACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
1
2
3
4
5
6
7
8
g
10
11
12
13
14
15
16
17
18
19
20
O.QOO
o.ooo
26000.000
-O.QOO
-0.000
O.QOO
o.ooo
0 .000
o.ooo
500.000
40»c;00
6.000
0.000
-o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
CAT* NICKEL ON MOLECULAR SIEVE
NI 1.0
MOLECULAR SIEVE STRUCTURE
3/16X3/16 INCH
TABLETS
_ .
HYDRODEALKYLATION
MATERIAL CODE UC307
MATERIAL CODE UC307
CLASSIFICATION
COMPOSITION
"COST, ~2co ACTIVE"
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZF
PORE VOLUME
SURFACE AREA
RULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
1
2
3"
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
o.ooo
_o.ooo
26000.000
-0.000
-o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
500.000
40.^00
o.ooo
o.ooo
-o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
_.. o.ooo
o.ooo
CAT* COPPER ON MOLECULAR SIEVE
CU 1.0
MOLECULAR SIEVE STRUCTURE
3/16X3/16 INCH
TABLETS
HYDROOEALKYLATTON
-------�
MATERIAL CODE UC401
CLASSIFICATION
COMPOSITION
COST, 2CQ ACTIVE
AVAILABLE SUES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUME
SUREACE AREA
BULK DENSITY
CRYSTALLTNITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP. TEMP.
ATTRITION
COMMENTS
MATERIAL CODE UC402
CLASSIFICATION
COMPOSITION
COST, 2CD ACTIVE
AVAILABLE SIZES
AVAILABLE SHAPES
CRUSH STRENGTH
HARDNESS
PORE SIZE
PORE VOLUMF
SUREACE AREA
BULK DENSITY
CRYSTALLINITY
CRYSTALLITE SIZE
MAJOR USES
MAJOR USES
VOLATILITY
PARTICLE DENSITY
MAX. OP, TEMP.
ATTRITION
r, COMMENTS
1
?
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
lf>
17
18
19
20
MATERIAL CODE UC4Q1
o.ooo
O.QOO
o.ooo
0.000
o.ooo
0.000
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
o.ooo
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MATERIAL CODE UC402
-0.000 CAT* MOLECULAR SIEVE
-O.OOO NOT GIVEN
26000.000 NOT GIVEN
-0.000 3/16X3/16 INCH
-0.000 TABLETS
20.000
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0.000
0.000
550.000
44.000
6.000
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-0.000 A.LKYLATJON
6.000
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MATERIAL CODE UC501
CLASSIFICATION 1
COMPOSITION ?.
COST, 2CO ACTIVE 3
AVAILABLE SIZES 4
AVAILABLE SHAPES 5
CRUSH STRENGTH 6
HARDNESS 7
PORE SIZE 8
PORE VOLUME 9
SURFACE AREA 10
RULK DENSITY 11
CRYSTALLTNITY i?
CRYSTALLITE SIZE 13
MAJOR USES 14
MAJOR USES 15
VOLATILITY 16
PARTICLE DENSITY 17
MAXt OP. TEMP. 18
ATTRITION 19
COMMENTS 20
MATERIAL CODE XYlOl
CLASSIFICATION ~1"
COMPOSITION 2
COST, 2CD ACTIVE 3
AVAILABLE SIZES 4
AVAILABLE SHAPES 5
CRUSH STRENGTH 6
HARDNESS 7
PORE SIZE 8
PORE VOLUME 9
SURFACE AREA 10
BULK DENSITY 11
CRYSTALLTNITY 12
CRYSTALLITE SIZE 13
MAJOR USfcS 14
MAJOR USES 15
7 VOLATILITY 16
PARTICLE DENSITY 17
MAX. OP. TEMP. 18
ATTRITION 19
s COMMENTS 20
-0.000
-6. ooo
2600.000
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30.000
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0.000
550.QOO
46.200
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1000.000
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~-6.(To(r
-o.ooo
250000.000
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-0.000
6.000
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MATERIAL CODE UC501
CAT* MOLECULAR SIEVE
NOT GIVEN
NOT GIVEN
1/BX1/8 INCH
TABLET, ANHYDROUS
GREATER THAN
ISOMERIZATION PENTANE»HEXANfc'
MAXIMUM
MATERIAL CODE XYlOl
"CAT7 PLATINUM ON" ALUMINA COMB ~ "'
NOT GIVEN
NOT GIVEN
..N!!^L.f.yMES_iL_.HN03 J.ATL.S GASES
-------� |