-------�
UG-4.2-6
TABLE 4.2-1. (Concluded)
Statement
Mode
Description
All
Demand Run
©§TERM
All
W,n
All
Terminates special input mode, i.e., ©SCQUE
or @@INQ. The ©SEND returns the terminal
to demand run from @@CQUE and will process
the mass storage buffered input of O9INQ.
Allows the input to be passed to the re-
quester unaltered from the format of
which it was entered; that is, all com-
munication envelope characters are not
removed nor is the image translated*
Directs the Executive System to terminate
the terminal. It is recommended that the
remote operator enter ©STEBM only while in
the terminal inactive mode. However, if
entered while a run is active, the run
and terminal will be terminated. ®STERM
is equivalent to sign off.
Changes the maximum character width of the
page from the default 80 characters to n
characters wide. In most cases, the maxi-
mum page width should be set to 132.
June 1978
-------�
UG-4.2-7
4.2.1 Initiating a Demand Processing Section
Communications are established with the NCC UNIVAC 1100 through data com-
munication modems or couplers over voice-grade telephone lines. Users
should follow the steps given in the equipment user manual for their ter-
minal in order to establish the data link to the computer. A list of nation-
wide telephone access numbers for the NCC is given in Table 4.2-2. Once
the data link is established, the following sequence of commands should
be entered (for clarity, the information printed by the computer is shown
in capital letters; the input required from the user in small letters).
Note that the pound sign (#) denotes a carriage return;
Command
#nccdemd#
READY TO NCC ON 9fi
ENTER USERID/PASSWORD:
> xxx/xxxxxx#
*DESTROY USERID/PASSWORD
ENTRY
*UNIVAC 1100 OPERATING
SYSTEM VER.
33R0030-315A(RSI)*
Description
This identifies the NCC to the communications
network*
Response indicates that communication is estab-
lished on Port 9fi«
Enter the approved USERID and PASSWORD fol-
lowing the input solicitation symbol (>).
This header message is usually followed by
several lines of text indicating special news
which can be obtained. When the solicitation
symbol (>) is received you are ready to enter
a valid @RUN card.
June 1978
-------�
UG-4.2 -8
> ©run nnxxx,account
number,fpels,15#
where nnxxx = the RUNID. Usually this begins with a number that desig-
nates an output receiving bin at the NCC followed by
the user's initials* Please consult the NCC User Refer-
ence Manual or call User Services for more information*
account no* = the NCC account number as given.
fpeis = the project code which enables access to the FPEIS
data base and software* No other project code may be
used*
DATE: 060179 TIME: 135248 This is the system response if a
> valid <§RUN card has been entered,
followed by the >• NOTE: if your
terminal can print more than 80 char-
acters across the page, you may wish
to expand the page width as shown
below*
@@tty w,nnn#
where nnn = the maximum width of the page in characters (usually
132.
-©^COMPLETE Indicates that the @§TTY command
> has been executed*
At this point, the computer is ready to receive instructions for access-
ing the data base or for executing FPEIS retrieval or analytical soft-
ware (e.g., System Request Commands)* For users who are knowledgeable
in SYSTEM 2000 natural language, Section 4*2*3 describes the accessing
procedure* Use of the System Request Commands is described in Section
5.
June 1978
-------�
UG-4.2 -9
TABLE 4.2-2. NCC DEMAND ACCESS TELEPHONE NUMBERS
State
Alabama
California
Colorado
Connecticut
District of Columbia
Georgia
Illinois
Louisiana
Massachusetts
Michigan
Minnesota
Missouri
Nevada
New York
North Carolina
Ohio
Pennsylvania
South Carolina
Tennessee
Texas
Washington
City
Montgomery
San Francisco
Denver
Wethersfield
Washington
Athens
Atlanta
Chicago
New Orleans
Boston
Grosse lie
Lansing
Minneapolis
Kansas City
St. Louis
Las Vegas
New York
Raleigh /Durham
Cincinnati
Philadelphia
Columbia
Nashville
Dallas
Seattle
Telephone
205/277-9390
415/391-0970
303/837-0843
203/529-3378
202/966-9510
404/549-3882
404/873-6431
312/663-1640
504/566-0041
617/742-0420
313/675-8936
517/485-3220
612/861-7451
816/474-3540
314/569-3150
702/736-1988
212/233-1604
919/541-2000
513/751-5800
215/925-4407
803/256-1018
615/244-8020
214/651-1723
206/682-6456
All other locations
(toll free)
800/424-3690
June 1978
-------�
UG-4.2-10
4.2.2 Terminating a Demand Processing Session
Two commands are required to end a demand processing session—the ©FIN
and the ©@TERM. The ©FIN command ends the run and results in the printing
of summary usage and accounting data, and places the terminal in the in-
active mode* The <§@TERM command ends the session by disconnecting the
terminal from the computer.
A typical sequence is as follows (# denotes carriage return):
>@f in# Enter the ®FIN command
RUNID: XXXXX AGCT: XXXXXXXXXX PROJECT: FPEIS
TIME: TOTAL: 00:00:35.510 GBSUPS: 001854139
GAU: 00:00:00.177 I/O: 00:00:08.822
GC/ER: 00:00:26.509 WAIT: 00:02:36.079
SRC: PS = 000130352 ES » 000276035
SRUS: 00:01:41.027 COST: $005.05
IMAGES READ: 78 PAGES: 3
START: 13:52:47 MAY 17, 1978 FIN: 13:57:50 MAY 17, 1978
*TERMINAL INACTIVE*
>@@texm# Enter the @§> TERM command
June 1978
-------�
UG-4.2-11
4.2,3 Accessing the FPEIS Data Base
Read-only access to the data base is granted to users of the FPEIS who
use this procedure. Users are cautioned not to attempt to use this proce-
dure unless they are familiar with SYSTEM 2000 natural language.
The sequence is as follows (# denotes carriage return):
>®add fpeis.start# Enter the ©ADD command.
05/17/78 17:09:07 BEGIN SYSTEM 2000 VERSION 2.80D
-556- ASSIGNED...TFPEISC 12 28443 05/09/78 11:44:14
ENTER *C4010* AND WHERE CLAUSE ON NEXT LINE FOR DIAMETER REPORT
05/17/1978
At this point, the system is ready to accept valid SYSTEM 2000 commands.
The session may be ended by using the EXIT: command, which produces the
trailer banner and returns to control mode with the input solicitation
character (>) given.
>exit:#
05/17/78 17:14:52 END SYSTEM 2000 VERSION 2.80D
The demand processing session may be terminated by using the procedure
given in Section 4.2.2.
Any attempts to change or modify the data base in any way will result
in the following diagnostic message:
-864- COMMAND NOT AVAILABLE IN SHARED MODE -
> June 1978
-------�
UG-4.3-1
4.3 Remote Batch Terminal Operation
Batch processing, whether remote or local submittal, implies that dis-
crete jobs are submitted to the NCC UNIVAC 1100 from cards or some similar
form. If local, card decks are submitted to the I/O Control Clerk and
then loaded into the computerj if remote, cards are read into the computer
through a high-speed remote job entry (RJE) terminal which has been con-
nected to the computer via telephone data link*
Remote batch terminal operation with the NCC UNIVAC 1100 is currently sup-
ported under the UNIVAC 1004 and NTR (9000 Remote) terminal protocols.
This means that a variety of commercial RJE terminals which are capable
of emulating (or looking like) a U-1004 or NTR terminal may be used to
access the NCC UNIVAC 1100. A partial list of RJE terminals which satisfy
one or more of these conditions includes the following:
DATA 100 Models 74, 76, and 78
COPE RJE Terminals
Harris RJE Terminals
UNIVAC 1004
UNIVAC 9200 NTR
If you are uncertain regarding the compatibility of a particular terminal
with the NCC UNIVAC 1100, you should contact the following:
NCC User Services
919/541-3649
FTS: 629-3649
June 1978
-------�
UG-4.3-2
All RJE terminals are identified to the NGC UNIVAC 1100 by a unique SITE
ID which is assigned by the MIDSD TSSMS Office at Research Triangle Park,
North Carolina* Figure 4.3-1 gives an example of the form required for
batch terminal support* The completed form is submitted to the appropriate
ADP coordinator (through the EPA project officer if required) for approval
and signature*
The batch SITE ID is of the form DATAXX and must be transmitted to the
NOG UNIVAC 1100 at sign-on before any processing can be initiated*
June 1978
-------�
UG-4.3-3
Organization:
Terminal manufacturer £ model number:
If programmable, what UNIVAC terminal does the terminal emulate?
Hours of Operation: From To EOT
Person responsible:
Name
Title
Mailing Address
Telephone -- FTS Ext.
-- Commercial Ext,
Comments:
ADP Coordinator Date
THE FOLLOWING TO BE COMPLETED BY NCC
SITE-ID Central Computer Operations:
Day:
Telephone numbers to use:
FTS Night;
Mailing Address:
National Computer Center
Commercial U.S. EPA
Research Triangle Park
North Carolina 27711
Contacts: User Services Hours available for operation:
FTS 629-3649 Weekdays: to EOT
919/541-3649 Saturday: to EOT
Sunday: to EOT
Holidays: to EOT
Comments:
Figure 4.3-1. Request for Batch Terminal Support Form.
June 1978
-------�
UG-4.3-4
Initiating a Remote Batch Processing Session
Communications are established with the NCC UNIVAC 1100 through data com-
munication modems over voice-grade telephone lines* The NCC UNIVAC 1100
will support RJE processing at either 2000 bits/second (EPS) transmission
rate or at 4SOO EPS transmission rate. A list of nationwide RJE telephone
access numbers for the NCC is given in Table 4*3-1.
Batch processing through a RJE terminal essentially means that the
terminal-to-computer data link must be established and the computer card
deck must be read into the computer in a prescribed manner. Since this
procedure varies dramatically among terminal vendors, the user should
refer to his terminal hardware operating manual for the appropriate proce-
dure. If any problems or questions arise* the user should contact NCC
User Services.
June 1978
-------�
UG-4.3-5
TABLE 4.3-1. NCC REMOTE BATCH ACCESS TELEPHONE NUMBERS
Location Transmission Rate (BPS) Telephone
North Carolina only
Continental U.S. (except NC)
(toll free)
FTS (all locations)
2000
2000
4800
2000
919/549-8970
800/334-8581
800/334-8582
800/334-8585
800/334-8586
629-2363
629-2364
629-2471
629-2472
Note: 2000 BPS transmission requires Bell 201A dataset or equivalent.
4800 BPS transmission requires Bell 208B dataset or equivalent.
June 1978
-------�
UG-4.3-6
4*3*2 Terminating a Remote Batch Processing Session
The termination of a remote batch processing session depends upon which
UNIVAC RJE terminal is being used (or emulated)* The user should consult
his terminal hardware operations manual for the correct procedure*
June 1978
-------�
UG-4.4-1
4.4 FPEIS User Support
IEBL/RTP is committed to the on-going support of the FPEIS data base and
its associated software. The administrative functions relative to the
FPEIS are provided by the Special Studies Staff in IERL. Technical develop-
ment and maintenance is provided by the FPEIS Support Staff, which is
composed of government contractors under the direction of the FPEIS project
officer. The FPEIS Support Staff has the responsibility for conducting
the data QA program, updating documentation, developing analytical soft-
ware specifications, conducting information transfer activities, etc.
This function is being provided by Midwest Research Institute in Kansas
City, Missouri. Data processing activities are performed by MRI Systems
Corporation of Austin, Texas, from offices at Research Triangle Park,
North Carolina.
Any questions regarding the FPEIS should be directed in writing to the
following address:
FPEIS Project Officer
U.S. Environmental Protection Agency
Special Studies Staff (MD-63)
Industrial Environmental Research Laboratory
Research Triangle Park, North Carolina 27711
or by telephone to:
FTS: 629-2745
Commercial: 919/541-2745
Problems relating to the operation of the NCC UNIVAC 1100, to data com-
munications, etc., are beyond the scope of the FPEIS Support Staff. These
questions should be addressed to:
June 1978
-------�
UG-4.4-2
User Services
National Computer Center (MD-34B)
U.S. Environmental Protection Agency
Research Triangle Park, North Carolina 27711
FTS: 629-3649
Commercial: 919/541-3649
June 1978
-------�
UG-5.0-1
SECTION 5
CATALOG OF SYSTEM REQUEST COMMANDS
CONTENTS
Number Item Page
5.0 Introduction. ..... ........ UG-5.0-1
5.1 FPEIS SERIES Report • UG-5.1-1
5.1.1 Demand Processing Procedure ....••••• UG-5.1-3
5.1.2 Batch Processing Procedure. ......... UG-5.1-10
5.1.3 Example of FPEIS SERIES Report UG-5.1-11
5.2 FPEIS SUMMARY Report UG-5.2-1
5.2.1 Demand Processing Procedure ».••••••• UG-5.2-2
5.2.2 Batch Processing Procedure. ••»•••••• UG-5.2-3
5.3 Fractional Penetration Program (PENTRA) UG-5.3-1
5.3.1 Demand Processing Procedure ......... UG-5.3-3
5.3.2 Batch Processing Procedure. ... UG-5.3-4
5.4 TALLY WHERE, TALLY ALL UG-5.4-1
5.4.1 Demand Processing Procedure UG-5.4-3
5.4.2 Batch Processing Procedure. ......... UG-5.4-I1
5.5 PRINT WHERE UG-5.5-1
5.5.1 Demand Processing Procedure ...•••••• UG-5.5-3
5.5.2 Batch Processing Procedure. ...••«••• UG-5.5-19
5.6 Chemical Data Search (CHEMSEARCH) UG-5.6-1
5.6.1 Demand Processing Procedure ......... UG-5.6-2
5.6.2 Batch Processing Procedure. ......... UG-5.6-26
June 1978
-------�
UG-5.0-2
5*0 Introduction
In order to simplify the retrieval of data from the FPEIS data base, a
catalog of pre-defined (or "canned") programs has been developed as a
user aid* Each program or procedure is identified by a unique number and
is called a System Request Command, or SRC* The SRC's will allow users to
obtain reports without having special expertise in either UNIVAC data process*
ing or SYSTEM 2000 data base management system natural language* This feature
will greatly enhance the usefulness and usability of the FPEIS to a wide
audience of users*
Each entry in the SRC catalog is identified by the unique SRC number, as
noted previously, and by the title of the activity to be performed* A
brief abstract of the SRC is given which identifies in general terms the
input required and the output to be expected* Since most SRC's will be ap-
plicable to both demand and batch processing, step-by-step procedures for
executing the SRC in both modes are given* For demand processing, it is
assumed that the user has successfully established communications with the
UNIVAC 1100 computer as described in Section 4* It is assumed that batch
users have established communications with the UNIVAC 1100 through a remote
job entry terminal or have the capability of submitting jobs locally at the
National Computer Center at Research Triangle Park, North Carolina* All in-
put requirements are given and a sample (or typical) output produced by
the SRC is included* Any comments pertaining to the use of the SRC which
may be helpful to the user in executing the SRC are also given*
As new SRC's are developed and made available to users, this section will
be updated. June 19?8
-------�
UG-5.1-1
5.1 SRC NUMBER; SRC-1
TITLE; FPEIS SERIES Report
ABSTRACT;
The FPEIS SERIES Report (SRC-1) is the basic report for the FPEIS. The
only input parameter required by the SERIES Report is the unique Test
Series Number which identifies the particular test series of interest.
The SERIES Report lists all of the data contained in the test series
in subseries and run number order. A typical SERIES Report is shown
later in this section and is discussed below*
The first page of the SERIES Report lists the data pertaining to the
source, the test series remarks, and the control device. Depending
upon the number of control devices in series on the gas stream and
the number of design specifications given, these data may carry over
to page 2. The next page begins with data from the subseries level.
The data contained here are, in order, test characteristics, control
device operating parameters, particulate mass train results, parti-
culate physical properties, bioassay results, and chemical composi-
tion data. Following these data, all data at the run level are given.
The SERIES Report uses the particle concentrations and stage boundaries
stored in the data base to calculate a particle size distribution as
well as DM/DlogD, DN/DlogD, and CUMULATIVE MASS % LESS THAN SIZE.
Usually, one run will be reported on a single page. The total SERIES
Report, then, will be of varying length, depending upon the number of
runs and subseries.
June 1978
-------�
UG-5.1-2
USER INPUT DATA REQUIRED;
Test Series Number (C310)
DATA QUALIFICATION REQUIRED;
None
June L978
-------�
UG-5.1-3
5.1.1 Demand Processing Procedure
The user shall establish coranunications with the NCG UNIVAC 1100 computer
according to the procedure given in Section 4.2,1 of this document. At the
completion of that procedure, the computer is then ready to proceed with
SRC-1. The command sequence follows:
NOTE: For clarity, all user-supplied data is shown in lower case letters;
all computer-printed data are shown in capital letters. User-supplied
carriage returns are indicated by the pound sign, #. All user-supplied
data are entered following the input solicitation symbol, >•
>@add fpeis.series#
GTS 6R1 13:53:21
THE ASSUMED MODE IS FIELDATA
FILENAME = 53
ENTER YOUR ACCOUNT NUMBER >
xxxxxxxxxx#
ENTER SERIES NUMBER > n#
ENTER USER-ID FOR DEMAND TERMINAL
PRINT, SITE-ID FOR REMOTE
BATCH PRINT. IF NCC JUST PRESS
RETURN > xxx#
ENTER NUMBER OF COPIES DESIRED.
IF 1, JUST PRESS RETURN > n#
IF NO MORE SERIES, ENTER LAST
FOR SERIES NUMBER
ENTER SERIES NUMBER > n# or last#
Enter the ©ADD command for the SERIES
report•
Computer prints header information
similar to this.
Enter your account number.
Enter the Test Series Number n of
the test series to be printed.
This is self-explanatory.
Self-explanatory.
June 1978
-------�
UG-5.1-4
If you enter another Test Series Number at this point, the computer will
again ask for the print location and number of copies to be printed* This
sequence will be repeated until the value "LAST" is entered for Test Series
Number* The following trailer (or similar) will appear for each SERIES
Report requested:
IN EXEC MODE
CASE UPPER ASSUMED
FILE IN FIELD 1 DISABLED — ACCEPTED
ED 15R2-WED-05/17/78-13:55:42-(,0)
INPUT
EDIT
LINES: 7 FIELDATA
FURPUR 27R3 E33 SL73R1 05/17/78 13:56:08
At this point, user input for SRG-1 has been satisfied* The user may proceed
to invoke another SRC or terminate the demand processing session as shown
in Section 4*2.2*
SRG-1 creates a batch run for each SERIES report requested and submits
them for processing by the Executive System* The output is not returned
to the user's print site instantaneously but will be available after the
batch job is finished*
June 1978
-------�
UG-5.1-5
Output Retrieval
USERID print site: SERIES reports queued for demand terminal output are
retrieved by entering the USERID/PASSWORD at the start of a new ses-
sion, followed by the command @@SEND»U. Remember; a page width of
132 characters is required*
Remote Batch print site: SERIES reports queued for remote batch terminal
output will be transmitted to the receiving terminal immediately
following the establishment of the data link and recognition of the
SITEID by the NCC UNIVAC 1100.
NCC print site: SERIES reports printed at the NCC are delivered to Bin
30 for pick-up by IERL/RTP staff. Users may send output to the NCC
and the output will be mailed to the user on the next work day. Users
must notify the FPEIS Project Officer before doing this. Failure
to do so will result in the printout being discarded.
Examples of demand processing use of SRC-1 follow* An example of a complete
SERIES report may be found in Section 5.1.3.
Error Recovery
If an error occurs in responding to the computer query, the user may abort
the SRC by typing "KILL" in response to the request for series number-
The sequence of comnands would appear as follows:
ENTER SERIES NUMBER > kill#
JOB KILLED
IN EXEC MODE
The user may now restart SRC-1 with the ©ADD command or input another EXEC
command.
June 1978
-------�
UG-5.1-6
EXAMPLE 5.1-1: SRC-1 Runstream (Output to Demand Terminal)
Execution of SRC-1
>@add fpeis.series#
GTS 6R1 10:27:19
<66> 30GLJ HAS BEEN ROLLED OUT
<65> 30GLJ IS TEMPORARILY UNAVAILABLE
THE ASSUMED MODE IS FIELDATA
FILE NAME =27
ENTER YOUR ACCOUNT NUMBER >63022fpeis#
ENTER SERIES NUMBER >6#
ENTER USER-ID FOR DEMAND TERMINAL PRINT,
SITE-ID FOR REMOTE BATCH PRINT.
IF NCC JUST PRESS RETURN >glj#
ENTER NUMBER OF COPIES DESIRED.
IF 1, JUST PRESS RETURN >#
IF NO MORE SERIES, ENTER LAST
FOR SERIES NUMBER
ENTER SERIES NUMBER >last#
IN EXEC MODE
CASE UPPER ASSUMED
FILE IN FIELD 1 DISABLED—ACCEPTED
WARNING: NEW ELEMENT WILL REPLACE EXISTING ELEMENT
ED 15R2-FRI-05/19/78-10:28:24-(,0)
INPUT
EDIT
LINES:6 FIELDATA
FURPUR 27R3 E33 SL73R1 05/19/78 10:28:32
>
Retrieval of output:
ENTER USERID/PASSWORD:
>xxx/xxxxx
*DESTROY USERID/PASSWORD ENTRY
*UNIVAC 1100 OPERATING SYSTEM VER. 33R0030-315A(RSI)*
CURRENT NEWS IS AVAILABLE VIA @ED,R HOT*NEWS. COMNET NETWORK
INFORMATION IS AVAILABLE VIA @US*ER.NETWORK.
X8@send,u#
June 1978
-------�
UG-5.1-7
EXAMPLE 5.1-2: SRC-1 Runstream (Output to RJE Terminal)
Execution of SRC-1:
>®add fpeis.series#
GTS 6R1 13:53:21
THE ASSUMED MODE IS FIELDATA
FILE NAME = 53
ENTER YOUR ACCOUNT NUMBER >63022fpeis#
ENTE.i SERIES NUMBER >1#
ENTER USER-ID FOR DEMAND TERMINAL PRINT,
SITE-ID FOR REMOTE BATCH PRINT.
IF NCC JUST PRESS RETURN >datalj&#
ENTER NUMBER OF COPIES DESIRED.
IF 1, JUST PRESS RETURN >1#
IF NO MORE SERIES, ENTER LAST
FOR SERIES NUMBER
ENTER SERIES NUMBER >last#
IN EXEC MODE
CASE UPPER ASSUMED
FILE IN FIELD 1 DISABLED--ACCEPTED
ED 15R2-WED-05/17/78-13:55:58-(,0)
INPUT
EDIT
LINES:7; FIELDATA
FURPUR 27R3 E33 SL73R1 05/17/78 13:56:04
June 1978
-------�
UG-5.1-8
EXAMPLE 5*1-3; SRC-1 Runstream (Output to NCC)
Execution of SRC-1
>@add fpeis.series#
GTS 6R1 10:20:59
<66> 30GLJ HAS BEEN ROLLED OUT
<65> 30GLJ IS TEMPORARILY UNAVAILABLE
THE ASSUMED MODE IS FIELDATA
FILE NAME = 21
ENTER YOUR ACCOUNT NUMBER >63022fpeis#
ENTER SERIES NUMBER >6#
ENTER USER-ID FOR DEMAND TERMINAL PRINT,
SITE-ID FOR REMOTE BATCH PRINT.
IF NCC JUST PRESS RETURN >#
ENTER NUMBER OF COPIES DESIRED.
IF 1, JUST PRESS RETURN >1#
IF NO MORE SERIES, ENTER LAST
FOR SERIES NUMBER
ENTER SERIES NUMBER >last#
IN EXEC MODE
CASE UPPER ASSUMED
FILE IN FIELD 1 DISABLED—ACCEPTED
WARNING: NEW ELEMENT WILL REPLACE EXISTING ELEMENT
ED 15R2-FRI-05/19/78-10:23:23-(,0)
INPUT
EDIT
LINES:6 FIELDATA
FURPUR 27R3 E33 SL73R1 05/19/78 10:23:32
June 1978
-------�
UG-5.1-9
EXAMPLE 5. 1-4; SRC-1 Runstreain (Error—Job Killed)
Execution of SRC-1:
fpeis.series#
GTS 6Rl 10:28:58
<66> 30GLJ HAS BEEN ROLLED OUT
<65> 30GLJ IS TEMPORARILY UNAVAILABLE
THE ASSUMED MODE IS FIELDATA
FILE NAME = 29
ENTER YOUR ACCOUNT NUMBER >63022fpeis#
ENTER SERIES NUMBER >1#
ENTER USER-ID FOR DEMAND TERMINAL PRINT,
SITE-ID FOR REMOTE BATCH PRINT.
IF NCC JUST PRESS RETURN >#
ENTER NUMBER OF COPIES DESIRED.
IF 1, JUST PRESS RETURN >24# *Error occurs here.
IF NO MORE SERIES, ENTER LAST
FOR SERIES NUMBER
ENTER SERIES NUMBER >kill#
JOB KILLED
IN EXEC MODE
June 197ft
-------�
UG-5.1-10
5.1.2 Batch Processing Procedure
Remote or local batch processing of SRC-1 from card input is accomplished
by entering an Executive System runstream in a given order. All cards
must use 029 keypunch codes. Output may be printed at the remote batch
site, a demand terminal, or at the NCC.
In order to execute SRC-1, the following card sequence is required:
<§RUN,R/RS runid/65,accountnumber/userid, FPEI3,5,300/100
OPASSWD pw where pw = password
@M)D TFPEISC.RUN
REPORT FOR SERIES NO nn where nn = Test Series Number
OUTPUT FILE IS OUTnn
PRINT k COPIES AT xxxxx where k = number of copies to be
printed
@EOF where xxxxx = userid for demand terminal
@FIN = siteid for remote batch
terminal
= PR for NCC
Output Retrieval
This is the same as that described in Section 5*1.1, Demand Processing
Procedure.
June 1978
-------�
UG-5.1-11
5.1.3 Example of FPEIS SERIES Report
The following is an example of a FPEIS SERIES Report. Such a report would
be the result of a user requesting a specific test series using SRC-1.
June 1978
-------�
F1NF, PARTICLE EMISSIONS INFORMATION SYSTEM
FPEIS SERIES REPORT
TEST SERIES NO:
16 TEST SERIES AT SITE FROM TO
REFERENCE: J.APCA, 25(6)>605, JUN 1975
BY STATNIC.R.M., AND D.C. DREHMEL, CSL/EPA.RTP,N.C.
SOURCE CHARACTERISTICS-
NEDS SCC SOURCE CATEGORY:
TYPE OF OPERATION:
FEED MATERIAL CLASS:
OPERATING MODE CLASS:
EXTCOMB BOILER
ELECTRIC CENERATN
SITE NAME
SOURCE NAME
ADDRESS
UTM ZONE
SHAWNEE STEAM PLANT
UTM X-COORD
UTM Y-COORD
TEST SERIES REMARKS-
CONTROL OEVICE(S) CHARACTERISTICS-
UNIT 1
DEVICE GENERIC TYPE:
CATEGORY:
CLASS:
DESCRIPTION:
COMMERCIAL NAME: VENTURI SCRUBBER
MANUFACTURER: CHEMICO
WET SCRUBBER
GAS ATOMIZED SPRAY
CONVENTIONAL
ACTUAL SYSTEM INCLUDED A SPRAY TOWER (AFTER-SCRUBBER) WHICH
WAS NOT USED DURING TEST
CONTROL DEVICE DESIGN SPECIFICATIONS
01 VOLUMETRIC FLOW RATE
14.2 M3/SEC
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TEST SERIES HO: 16 SUB-SERIES HO: 1 TEST LOCATION: I
TEST CHARACTERISTICS-
SOURCE OPERATING NODE: COAL
FEED MATERIAL:
SUB-SERIES TEST DATE:
SOURCE OPERATING RATE:
FEED MATERIAL COMPOSITION:
FROM TO HOURS
PCT IIF.S1CN CAP:
PERCENT ISOKINETIC SAMPLINC- 100
SAMPLING LOCATION DESCRIPTION:
PROCESS CONDITIONS AT SAMPLINC LOCATION
VOL. FLOW RATE- 9.4 DNM3/S VELOCITY- . M/S TEMPERATURE- 135 C PRESSURE- 756 MM HC
GAS COMPOSITION
WATER VAPOR (PERCENT BY VOLUME)- .
ORSAT ANALYSIS— C02 - .1 CO - .X O2 - .Z N2 - .1
TRACE CASES (PPM):
SUB-SERIES REMARKS-
PARTICULATE MASS TRAIN RESULTS
FRONT HALF- .E+ TOTAL- .£+
MASS TRAIN REMARKS:
I
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PARTICULAIE PHYSICAL PROPERTIES
DENSITY- 1.000 C/CM3 (ASSUMED ) RESISTIVITY- E+ OHM-CM (
OTHER PHYSICAL PROPERTIES:
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TEST SERIES NO: 16 SUB-SERIES NO: 1 TEST LOCATION: I
CONTROL DEVICE OPERATING PARAMETERS
UNIT 1 01 LIQUID RATE 227* LPM
02 PRESSURE DROP 16.8 MMHG
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TEST SERIES MO: 16 SUB-SERIES HO: 1 TEST LOCATION: I
RUN NUMBER: 01
SIZE RANGE- .110 TO 5.000 MICROMETERS
MEASUREMENT PARTICULARS
MEASUREMENT INSTRUMENT/METHOD NO: 1 NAME: BRINK IMPACTOR
COLLECTION SURFACE/SUBSTRATE:
MEASUREMENT START TIME: SAMPLING PERIOD: . MIN SAMPLING RATE: .L/MIN DILUTION FACTOR: 0001.0
GAS SAMPLING CONDITIONS- TEMPERATURE: 0177 C PRESSURE: 00756 MM HG PCT. WATER VAPOR: .
COMMENTS ON THE MEASUREMENT
DIAMETER BASIS
CONCENTRATION BASIS - MASS
CLASSIC AERODYNAMIC DEFINITION
CALCULATED BOUNDARY DIAMETERS
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NO
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CLASSIC AERODYNAMIC
STOKES-DIA (UH) AERODYNAMIC DIA (UM) IMPACTION D1A (UM)
BNDRY
5.000
1.700
.990
.650
.290
.110
TOTAL
MID FT BNDRY MID PT BNDRY MID PT
5.000 5.080
2.915 1.700 2.915 1.779 3.006
1.297 .990 1.297 1.068 1.378
.802 .650 .802 .726 .881
.434 .290 .434 .362 .513
.179 .110 .179 .173 .250
MASS 8.005-1-05 TOTAL NUMBER 4.240+06
DM DM/DLDAE ON DN/DLDAE CUM M Z
(UG/DNM3) (UG/DNM3) (NO/CM3) (NO./CM3) LESS SIZE
5.100+05 1.089+06 3.930+04 8.389+04 36.290
1.418+05 6.039+05 1.240+05 5.282+05 18.577
1.144+05 6.261+05 4.233+05 2.316+06 4.286
2.516+04 7.178+04 5.871+05 1.675+06 1.143
9.148+03 2.173+04 3.066+06 7.284+06 .000
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TEST SERIES NO: 16 SUB-SERIES NO: 1 TEST LOCATION: t
RUN NUMBER: 02
SIZE RANGE- .110 TO 5.000 MICROMETERS
MEASUREMENT PARTICULARS
MEASUREMENT INSTRUMENT/METHOD NO: 1 NAME: BRINK 1MPACTOR
COLLECTION SURFACE/SUBSTRATE:
MEASUREMENT START TIME: SAMPLING PERIOD: . MIN SAMPLING RATE: .L/M1N DILUTION FACTOR: 0001.0
GAS SAMPLING CONDITIONS- TEMPERATURE: 0177 C PRESSURE: 00756 MM HG PCT. WATER VAPOR: .
COMMENTS ON THE MEASUREMENT
DIAMETER BASIS
CONCENTRATION BASIS
CLASSIC AERODYNAMIC DEFINITION
MASS
CALCULATED BOUNDARY DIAMETERS
ILI.LIC :>16B uibiKi.Bui.iun URIA— ------
CLASSIC AERODYNAMIC
STOKES-DIA (UM) AERODYNAMIC DIA (UM) IMPACTION DIA (UN)
BNDRY
5.000
1.700
.990
.650
.290
.110
TOTAL
MID FT BNDRY
5.000
2.915 1.700
1.297 .990
.802 .650
.434 .290
.179 .110
MASS 4. 322+05
MID PT BNDRY MID PT
5.080
2.915 1.779 3.006
1.297 1.068 1.378
.802 .726 .881
.434 .362 .513
.179 .173 .250
TOTAL NUMBER 2.910-1-06
DM DM/DLDAE DN DN/DLDAE CUM M I
Mir/nuMii fur/nMMil fNO/rMii fun /rui^ i FQ«? <;T7ir
\ v\» / van j t \u\* t unn j t \HVJ/I_.FI.J/ \n\t»/\*njj L* it&s D L 6 c*
2.7444-05 5.857-1-05 2.115+04 4.514+04 36.511
8.462+04 3.604+05 7.402+04 3.152+05 16.932
5.260+04 2.879+05 1.946+05 1.065+06 4.762
1.372+04 3.914+04 3.202+05 9.134+05 1.587
6.861+03 1.630+04 2.300+06 5.463+06 .000
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TEST SERIES NO:
16 SUB-SERIES NO: 2 TEST LOCATION: 0
TEST CHARACTERISTICS-
SOURCE OPERATING MODE: COAL
FEED MATERIAL:
SUB-SERIES TEST UATE:
SOURCE OPERATING RATE:
FEED MATERIAL COMPOSITION:
FROM TO HOURS
PCT DESIGN CAP:
PERCENT 1SOKINETIC SAMPLING- 100
SAMPLING LOCATION DESCRIPTION:
PROCESS CONDITIONS AT SAMPLING LOCATION
VOL. FLOW RATE- 9.4 DNM3/S VELOCITY- . M/S TEMPERATURE- 135 C PRESSURE- 756 MM HC
GAS COMPOSITION
WATER VAPOR (PERCENT BY VOLUME)- .
ORSAT ANALYSIS— CO2 - .Z CO - . Z O2 - .Z N2 - .Z
TRACE GASES (PPM):
SUB-SERIES REMARKS-
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PARTICIPATE MASS TRAIN RESULTS
FRONT HALF- .E+ TOTAL- . E+
MASS TRAIN REMARKS:
PARTICULATE PHYSICAL PROPERTIES
DENSITY- 1.000 G/CH3 (ASSUMED ) RESISTIVITY- E+ OHM-CM (
OTHER PHYSICAL PROPERTIES:
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TEST SERIES NO: 16 SUB-SERIES NO: 2 TEST LOCATION: 0
RUN NUMBER: 01
SIZE RANGE- .110 TO 5.000 MICROMETERS
MEASUREMENT PARTICULARS
MEASUREMENT INSTRUMENT/METHOD NO: 1 NAME: BRINK 1HFACTOR
COLLECTION SURFACE/SUBSTRATE:
MEASUREMENT START TIME: SAMPLING PERIOD : . MIN SAMPLING RATE: .L/MIN DILUTION FACTOR: 0001.0
GAS SAMPLING CONDITIONS- TEMPERATURE: 0177 C PRESSURE: 00756 MM HG PCT. WATER VAPOR: .
COMMENTS ON THE MEASUREMENT
DIAMETER BASIS -
CONCENTRATION BASIS
CLASSIC AERODYNAMIC DEFINITION
MASS
CALCULATED BOUNDARY DIAMETERS
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ILUUE. Slit U IS 1 K LBU 1 JLUH UA I A— --- — — - — -- — -- — -
CLASSIC AERODYNAMIC
STOKES-DIA (UM) AERODYNAMIC DIA ( UM ) U1PACTION DIA ( UM )
BNDRY MLD FT BNDRY
5.000 5.000
1.700 2.915 1.700
.990 1.297 .990
.650 .802 .650
.290 .434 .290
.110 .179 .110
TOTAL MASS 1.029+05
HID PT BNDRY MID PT
5.080
2.915 1.779 3.006
1.297 1.068 1.378
.802 .726 .881
.434 .362 .513
.179 .173 .250
TOTAL NUMBER 3.839+06
DM DM/DLDAE ON DN/DLDAE CUM M Z
Mir'/nNMli Mir/nNMIl fNn/rMi) fun fct4'\\ i PQC CT?P
\\i\j/uvtnj/ \uu/£jnnj/ \ n\t f \*nj t \n\j»j\jnj/ ij&oo 9L&b
4.574+03 9.763+03 3.525+02 7.524+02 95.556
1.830+04 7.793+04 1.601+04 6.817+04 77.775
4.574+04 2,503+05 1.692+05 9.262+05 33.334
2.516+04 7.178+04 5.871+05 1.675+06 8.888
9.148+03 2.173+04 3.066+06 7.284+06 .000
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TEST SERIES 1IO: 16 SUB-SERIES NO: 2 TEST LOCATION: O
RUN NUMBER: 02
SIZE RANGE- .110 TO 5.000 MICROMETERS
MEASUREMENT PARTICULARS
MEASUREMENT INSTRUMENT/METHOD NO: 1 NAME: BRINK IMPACTOR
COLLECTION SURFACE/SUBSTRATE:
MEASUREMENT START TIME: SAMPLING PERIOD: . MIN SAMPLING RATE: .L/M1N DILUTION FACTOR: 0001.0
GAS SAMPLING CONDITIONS- TEMPERATURE: 0177 C PRESSURE: 007S6 MM HC PCT. WATER VAPOR: .
COMMENTS ON THE MEASUREMENT
DIAMETER BASIS -
CONCENTRATION BASIS
CLASSIC AERODYNAMIC DEFINITION
MASS
CALCULATED BOUNDARY DIAMETERS
1 L\f LtT, OLffft 1SJ.DAKA.DU1..
STOKES-DIA (UN)
BNDRY
5.000
1.700
.990
.650
.290
.110
MID PI
2.915
1.297
.802
.434
.179
CLASSIC
AERODYNAMIC DIA ( UM )
BNDRY
5.000
1.700
.990
.650
.290
.110
MID PT
2.915
1.297
.802
.434
.179
AERODYNAMIC
IMPACT ION DIA (UM)
BNDRY
5.080
1. 779
1.068
.726
.362
.173
MID PT
3.006
1.378
.881
.513
.250
DM
/ iin /nNM 1 )
\u\ffwnjf
3.431+04
2.287+03
6.861+03
6.861+03
1.144+04
DM/DLDAE
/ nr; /RNM l )
V u w f i/nru /
7.323+04
9.740+03
3.755+04
1.957+04
2.717+04
DN
( NO /TM1 )
\ n v / \rn j i
2.644+03
2.001+03
2.538+04
1.601+05
3.835+06
DN/DLUAE
fNO /CM\\
\ n w • t \ffij i
5.644+03
8.520+03
1.389+05
4.568+05
9.109+06
CUM M Z
lECC QT7F
IjbdO O L I* ft
44.445
40.742
29.633
18.524
.000
04
TOTAL MASS
6.176+04
TOTAL NUMBER
4.025+06
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UG-5.2-1
5.2 SRC NUMBER; SRC-2
TITLE; FPEIS SUMMARY Report
ABSTRACT;
The FPEIS SUMMARY Report (SRC-2) provides a listing of all data in
the data base for a specific Source Category in SERIES Report format*
Allowable Source Category values are given below* The data are ordered
by Test Series Number within the given Source Category; that is, the
SUMMARY Report consists of several SERIES Reports for the same Source
Category.
The SUMMARY Report produces a large volume of computer output, possibly
several thousand pages. There are several restrictions on the use of
this SRC which are discussed later*
USER INPUT DATA REQUIRED;
Source Category (ClOO)
Allowed values for Source Category are as follows:
EXTCOMB BOILER
INTERNLCOMBUSTION
INDUSTRIAL PROCES
POINT SO EVAP
SOLID WASTE
OTHER
DATA QUALIFICATION REQUIRED:
None
June 1978
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UG-5.2*2
5.2.1 Demand Processing Procedure
SRC-2 is not available to demand users*
Due to the large volume of computer printout produced by this SRC, demand
processing is prohibited. Users wishing to obtain a SUMMARY report should
contact the FPEIS Project Officer (CML: 919/541-2745; FTS: 629-2745)
for further information.
June 1978
-------�
UG-5.2-3
5.2.2 Batch Processing Procedure
SRC-2 may be processed only for printing at the NCC with limited excep-
tions.
Users who wish to obtain a SUMMARY report should contact the FPEIS Project
Officer (CML: 919/541-2745; FTS: 629-2745) for runstream details. This
is necessary because the SUMMARY report produces several thousand pages
of output in some source categories. The FPEIS Project Officer will advise
the user regarding the best means of acquiring the report. In most cases,
the report will be run and printed at the NCC, then mailed to the user.
For those source categories in which only a few test series exist, RJE
access may be allowed*
(See SRC-1 for an example of one test series in SERIES report format.)
June 1978
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UG-5.3-1
5.3 SRC NUMBER; SRC-3
TITLE: Fractional Penetration Program (PENTRA)
The Fractional Penetration Program PENTRA (SRC-3) enables users to
calculate the efficiency of fine particle control devices (expressed
as penetration) for specific test series, subseries, and runs. The
FPEIS PENTRA has been adapted from a series of data reduction proce-
dures developed for impactor measurements by Southern Research Institute.
FPEIS PENTRA is, however, independent of measurement equipment since
equipment-dependent parameters have already been accommodated when
the data are loaded into the FPEIS data base originally*
The input requirements for FPEIS PENTRA are very simple* First, it is
assumed that the user has access to and has studied the SERIES report
(see SRC-1) prior to executing this program* The user will identify
the inlet and outlet runs to be compared by specifying the inlet
subseries and run, and the outlet subseries and run* The capability
also exists to enable the user to average groups of inlet or outlet
runs in order to obtain conposite data*
The PENTRA program will retrieve the specified data from the data base.
The mass (or number) concentrations and stage boundary diameters will
be used to calculate cumulative mass loadings and differential size
distributions* A curve is fitted to the inlet and the outlet values
of the cumulative mass concentrations less than the stage diameter
•n
versus the diameter.
June 1978
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UG-5.3-2
Next, the derivative of each of these curves is calculated at speci-
fied diameters and the average and standard deviation of the differential
mass distributions are calculated. The control device efficiency (ex-
pressed as penetration) is determined by comparing the two curves at
the same diameter*
The output from PENTRA will include basic process and control device
data, and a tabulation of the inlet and outlet data* A computerized
plot of control device efficiency as a function of particle size will
be given for each of three types of boundary definitions used in the
FPEIS; e.g., Stokes, classic aerodynamic, and aerodynamic impaction.
USER INPUT DATA REQUIRED;
Test Series Number (C310), Subseries Number (C610), Run Number (C1505).
DATA QUALIFICATION REQUIRED;
(To be added at a later date*)
June 1978
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UG-5.3-3
5.3.1 Demand Processing Procedure
(To be added at a later date.)
June 1978
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UG-5.3-4
5»3.2 Batch Processing Procedure
(To be added at a later date*)
June 1978
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UG-5.4-1
5.4 SRC NUMBER; SRG-4
TITLE; TALLY WHERE, TALLY ALL
ABSTRACT;
One of the conmand features of SYSTEM 2000 natural language is the
TALLY command. This command enables a user to determine the frequency
of occurrence of a particular data element and how many unique values
it assumes. The TALLY conmand actually has two options: the TALLY/EACH
and the TALLY/ALL. The TALLY/EACH option produces a list of each unique
value for the specified element along with the frequency of occurrence
for that unique value. The TALLY/ALL option, on the other hand* lists
only the minimum and maximum unique values, not each value*
The natural language TALLY command is limited to key data elements;
that is, those which have been specifically identified for sorting
keys. To broaden the applicability of the TALLY command for the FPEIS,
SRC-4 has been developed to provide the TALLY WHERE and TALLY ALL
commands. The output is the same as for the TALLY/EACH and TALLY/ALL
commands, respectively. SRC-4 does, however, allow the user to qualify
the data element to be tallied. Examples of the TALLY WHERE and TALLY
ALL commands are given on the following pages.
USER INPUT DATA REQUIRED;
The user must supply the component number of the data element to be
tallied. Both key and nonkey data elements may be selected. Data ele-
ments and component numbers for the FPEIS data base are listed in
Section 6.3. The user must also identify whether he wants a TALLY
WHERE or a TALLY ALL. June 1978
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UG-5.4-2
DATA QUALIFICATION REQUIRED;
Data elements to be tallied must be qualified by one or more key data
elements in the qualification clause* Multiple data elements in the
qualification clause may be separated by Boolean logic operators (AND,
OR) and may use the logical operators: EQ, NE, GT, LT, GE, and LE«
Data may also be qualified on the basis of the presence (EXISTS) of
a data element or its absence (FAILS)* A tabulation of key data ele-
ments is given in Section 6.4.
June 1978
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UG-5.4-3
5.4.1 Demand Processing Procedure
SRC-4 should be executed using a demand (interactive) terminal* Since the
possible combinations of data to be printed and qualified are almost in-
finite, the use of SRC-4 is best shown by example. In the following examples,
it is assumed that the user has established communications with the computer
in accordance with the procedure described in Section 4*2, and is ready to
enter a command. For clarity, all user-supplied data are shown in lower case
letters and all computer responses in capital letters. A user-supplied
carriage return is shown by the # sign.
June 1978
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UG-5.4-4
Example 1; TALLY with System-Initiated Abort
©add fpeis.tally#
GTS 6R1 10:33L04
THE ASSUMED MODE IS FIELDATA
FILE NAME = 53
ENTER 'W1 IF TALLY-WHERE, 'A1 IF TALLY-ALL >w#
ENTER COMPONENT NUMBER OF DATA
ELEMENT TO BE TALLYED >300# *Error occurs here**
ENTER QUALIFIER DATA AS COMPONENT NUMBER,VALUE
IF NO MORE, ENTER LAST >C310 spans 1*10#
ENTER QUALIFIER DATA AS COMPONENT NUMBER,VALUE
IF NO MORE, ENTER LAST >last#
IN EXEC MODE
CASE UPPER ASSUMED
FILE IN FIELD 1 DISABLED—ACCEPTED
WARNING: NEW ELEMENT WILL REPLACE EXISTING ELEMENT
ED 15R2-WED-05/24/78-10:35:15-(,0)
INPUT
EDIT
LINES:6 FIELDATA
05/25/78 10:36:55 BEGIN SYSTEM 2000 VERSION 2.80D
-556- ASSIGNED...TFPEISC 12 28443 05/09/78 11:44:44
•••••••••••«.2
-454- ILLEGAL TERM IN IF-CONDITION -
1 ERRORS HAVE OCCURRED
-397- ALL REPORTS HAVE ERRORS -
C -801- MISSING STRING OR DATA TERMINATOR -
EXIT:
*WAIT-LAST INPUT IGNORED*
05/25/78 10:42:31 END SYSTEM 2000 VERSION 2.80D
FURPUR 27R3 E33 SL73R1 05/24/78 10:43:27
June 1978
-------�
UG-5.4-5
The error here is that the user has requested a TALLY for a repeating group
data element, which is not allowed since these data elements never have
values assigned to them. NO REPEATING GROUP DATA ELEMENT MAY BE TALLIED*
See Section 6*3 for a list of the FPEIS data base structure which will iden-
tify repeating groups* Use of the SPANS operator means that all values in
the range given will be checked*
June 1978
-------�
UG-5.4-6
Example 2; TALLY With User-Initiated Abort
©add fpeis.tally#
GTS 6R1 10:44:11
THE ASSUMED MODE IS FIELDATA
FILE NAME = 44
ENTER 'W' IF TALLY-WHERE, 'A1 IF TALLY-ALL >w#
ENTER COMPONENT NUMBER OF DATA
ELEMENT TO BE TALLYED >G1410#
ENTER QUALIFIER DATA AS COMPONENT NUMBER,VALUE
IF NO MORE, ENTER LAST >C310 spans#
ENTER QUALIFIER DATA AS COMPONENT NUMBER, VALUE
IF NO MORE, ENTER LAST >kill#
JOB KILLED
IN EXEC MODE
This shows that the SRC may be aborted by the user simply by entering
the command "KILL*"
June 1978
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UG-5.4-7
Example 3; TALLY WHERE With Single Qualifier
©add fpeis.tally#
GTS 6R1 10:46:05
THE ASSUMED MODE IS FIELDATA
FILE NAME = 46
ENTER 'W1 IF TALLY-WHERE, 'A1 IF TALLY-ALL >w#
ENTER COMPONENT NUMBER OF DATA
ELEMENT TO BE TALLYED >1410#
ENTER QUALIFIER DATA AS COMPONENT NUMBER,VALUE
IF NO MORE, ENTER LAST >C310 spans 1*10#
ENTER QUALIFIER DATA AS COMPONENT NUMBER,VALUE
IF NO MORE, ENTER LAST >last#
IN EXEC MODE
CASE UPPER ASSUMED
FILE IN FIELD 1 DISABLED—ACCEPTED
WARNING: NEW ELEMENT WILL REPLACE EXISTING ELEMENT
ED 15R2-WED-05/24/78-10:49:29-(,0)
INPUT
EDIT
LINES:6 FIELDATA
05/24/78 10:50:24 BEGIN SYSTEM 2000 VERSION 2.80D
-556- ASSIGNED...TFPEISC 12 28443 05/09/78 11:44:44
NO ERRORS HAVE OCCURRED
-399- SELECTED SG IS 1400
************************
TALLY WHERE FOR (CHEMICAL ID)
** A A A A A Ar******** A A A'A A A A A
FREQUENCY VALUE
96
3
3
3
3
3
2
3
-NULL-
2103
2110
2112
2114
2128
2142
2167
8 UNIQUE VALUES
116 OCCURRENCES
June 1978
-------�
UG-5.4-8
05/24/78 10:53:12 END SYSTEM 2000 VERSION 2.80D
FURPUR 27R3 E33 SL73R1 05/24/78 10:53:35
The SPANS operator means that C1410 will be tallied where C310 assumes all
values between 1 and 10.
June 1978
-------�
UG-5.4-9
Example 4; TALLY ALL With Multiple Qualifier
©add fpels.tally/
GTS 6Rl 10:54:14
THE ASSUMED MODE IS FIELDATA
FILE NAME = 54
ENTER 'W1 IF TALLY-WHERE, 'A1 IF TALLY-ALL >a#
ENTER COMPONENT NUMBER OF DATA
ELEMENT TO BE TALLYED >1410#
ENTER QUALIFIER DATA AS COMPONENT NUMBER,VALUE
IF NO MORE, ENTER LAST >Cl410 exists and#
ENTER QUALIFIER DATA AS COMPONENT NUMBER,VALUE
IF NO MORE, ENTER LAST >C3lO Spans 1*10#
ENTER QUALIFIER DATA AS COMPONENT NUMBER,VALUE
IF NO MORE, ENTER LAST >last#
IN EXEC MODE
CASE UPPSER ASSUMED
FILE IN FIELD 1 DISABLED—ACCEPTED
WARNING: NEW ELEMENT WILL REPLACE EXISTING ELEMENT
ED 15R2-WED-05/24/78-10:56:55-(,0)
INPUT
EDIT
LINES:? FIELDATA
05/24/78 10:57:19 BEGIN SYSTEM 2000 VERSION 2.80D
-556- AS SIGNED...TFPEISC 12 28443 05/09/78 11:44:44
NO ERRORS HAVE OCCURRED
-399- SELECTED BG IS 1400
*************** *********
TALLY ALL WHERE FOR (CHEMICAL ID)
***A-A-*-A-A-****************
MINIMUM 2103
Maximum 2167
************************
7 UNIQUE VALUES
20 OCCURRENCES
June 1978
-------�
UG-5.4-10
05/24/78 10:58:15 END SYSTEM 2000 VERSION 2.80D
FURPUR 27R3 E33 SL73R1 05/24/78 10:58:19
This example uses the EXISTS operator as well as the SPANS operator* Com-
par!son with Example 3 shows that the 96 -NULL- values have been eliminated*
June 1978
-------�
UG-5.4-U
5.4.2 Batch Processing Procedure
SRC-4 is not available to batch users since it utilizes the UNIVAC 1100
Conversational Time Sharing (GTS) processor.
June 1978
-------�
UG-5.5-1
5.5 SRC NUMBER; SRC-5
TITLE; PRINT WHERE
ABSTRACT;
The PRINT WHERE command (SRC-5) enables the user to screen data in the
FPEIS while searching for a specific piece of information; that is,
it aids data searching by allowing users to move from general to more
specific selection criteria* This concept is best illustrated by an
example: a user wants to know if there are any data, in the FPEIS from
copper smelters that use electrostatic precipitators as control devices.
The PRINT WHERE command will enable the user to obtain a list of Test
Series Numbers that meet the given selection criteria* The user may
then obtain SERIES reports for each Test Series Number using SRC-1*
In using the PRINT WHERE command, the user has available a variety of
data elements to select for both sorting and qualification. Up to
three levels of qualification are permitted* For example, a user may
print the measurement equipment method/name where the Test Series
Number equals a given value and the Subserles Number equals a given
value and the Run Number equals a given value*
USER INPUT DATA REQUIRED;
The user must supply the component number of each data element to be
printed. Both key and nonkey data elements may be selected* Data ele-
ments and component numbers for the FPEIS data base are given in Section
6.3.
June 1978
-------�
UG-5.5-2
DATA QUALIFICATION REQUIRED:
Data elements to be printed must be qualified by one or more KEY data
elements in the WHERE clause* Multiple data elements in the WHERE clause
may be separated by AND or OR, and nay use the logic operators: EQ,
NE, GT, LT, GE, and LE. Data may also be qualified by determining the
presence (EXISTS) of a data element or its absence (FAILS)* A tabulation
of key data elements is given in Section 6.4.
For more details on the attributes of the qualification data (e.g.,
WHERE clause), the user should refer to the SYSTEM 2000 REFERENCE
MANUAL.
June 1978
-------�
UG-5.5-3
5.5.1 Demand Processing Procedure
SRG-5 should be executed using a demand (interactive) terminal* Since the
possible combinations of data to be printed and qualified are almost in-
finite) the use of SRG-5 is best shown by example* In the following examples,
it is assumed that the user has established cotnmmications with the computer
in accordance with the procedure described in Section 4*2, and is ready to
enter a command. For clarity, all user-supplied data are shown in lower case
letters and all computer responses in capital letters. A user-supplied carriage
return is shown by the # sign* Note that the first four examples illustrate
aborted runstreams.
June 1978
-------�
U6-5.5-4
Example 1; Missing Qualification Data
fpeis.print-where#
GTS 6Rl 09:51:45
THE ASSUMED MODE IS FIELDATA
FILE NAME = 51
ENTER COMPONENT NUMBER OF DATA ELEMENT
TO BE PRINTED, IF NO MORE, ENTER LAST >310#
ENTER THE COMPONENT NUMBER OF DATA ELEMENT
TO BE PRINTED, IF NO MORE, ENTER LAST >last#
ENTER COMPONENT NUMBER OF DATA ELEMENT
BY WHICH DATA ARE TO BE ORDERED
IF NO ORDER, JUST PRESS RETURN >#
ENTER QUALIFICATION DATA AS COMPONENT NUMBER
IF NO MORE, ENTER LAST >#
JOB KILLED (No QUALIFICATION DATA INPUT)
IN EXEC MODE
June 1978,
-------�
UG-5.5-5
Example 2; No Data Input
©add fpeis.print-where#
GTS 6R1 09:41:15
THE ASSUMED MODE IS FIELDATA
FILE NAME = 41
ENTER COMPONENT NUMBER OF DATA ELEMENT
TO BE PRINTED. IF NO MORE, ENTER LAST >#
JOB KILLED (NO COMPONENT NUMBER INPUT)
IN EXEC M3DE
June 1978
-------�
UG-5.5-6
Example 3 t User Initiated Abort
@add fpeis.print-where#
GTS 6R1 10:41:20
THE ASSUMED MODE IS FIELDATA
FILE NAME = 41
ENTER COMPONENT NUMBER OF DATA ELEMENT
TO BE PRINTED. IF NO MORE, ENTER LAST >310#
ENTER COMPONENT NUMBER OF DATA ELEMENT
TO BE PRINTED, IF NO MORE, ENTER LAST >last#
ENTER COMPONENT NUMBER OF DATA ELEMENT
BY WHICH DATA ARE TO BE ORDERED
IF NO ORDER, JUST PRESS RETURN >310#
ENTER COMPONENT NUMBER OF DATA ELEMENT
BY WHICH DATA ARE TO BE ORDERED
IF NO ORDER, JUST PRESS RETURN >#
ENTER QUALIFICATION DATA AS COMPONENT NUMBER
If NO MORE, ENTER LAST >kill# *Note*Enter KILL
JOB KILLED to abort the SRC
IN EXEC MODE
June 1978
-------�
UG-5.5-7
Example 4; User Initiated Abort
©add fpeis.print-where#
GTS 6Rl 10:42:36
THE ASSUMED MODE IS FIELDATA
FILE NAME = 42
ENTER COMPONENT NUMBER OF DATA ELEMENT
TO BE PRINTED. IF NO MORE, ENTER LAST >300#
ENTER COMPONENT NUMBER OF DATA ELEMENT
TO BE PRINTED, IF NO MORE, ENTER LAST >last#
ENTER COMPONENT NUMBER OF DATA ELEMENT
BY WHICH DATA ARE TO BE ORDERED
IF NO ORDER, JUST PRESS RETURN >310#
ENTER COMPONENT NUMBER OF DATA ELEMENT
BY WHICH DATA ARE TO BE ORDERED
IF NO ORDER, JUST PRESS RETURN >C310 gt 5 and#
ENTER COMPONENT NUMBER OF DATA ELEMENT
BY WHICH DATA ARE TO BE ORDERED
IF NO ORDER, JUST PRESS RETURN >C310 It 7#
ENTER COMPONENT NUMBER OF DATA ELEMENT
BY WHICH DATA ARE TO BE ORDERED
IF NO ORDER, JUST PRESS RETURN >last#
ENTER QUALIFICATION DATA AS COMPONENT NUMBER
IF NO MORE, ENTER LAST >kill#
JOB KILLED
IN EXEC MODE
June 1978
-------�
UG-5.5-8
Example 5; Single Data Element Print, Single Qualification Value, Single
Ordering
©add fpeis«print-where#
GTS 6R1 10:23:23
THE ASSUMED MODE IS FIELDATA
FILE NAME = 23
ENTER COMPONENT NUMBER OF DATA ELEMENT
TO BE PRINTED, IF NO MORE, ENTER LAST >310#
ENTER COMPONENT NUMBER OF DATA ELEMENT
TO BE PRINTED, IF NO MORE, ENTER LAST >last#
ENTER COMPONENT NUMBER OF DATA ELEMENT
BY WHICH DATA ARE TO BE ORDERED
IF NO ORDER, JUST PRESS RETURN >310#
ENTER COMPONENT NUMBER OF DATA ELEMENT
BY WHICH DATA ARE TO BE ORDERED
IF NO ORDER, JUST PRESS RETURN >#
ENTER QUALIFICATION DATA AS COMPONENT NUMBER
IF NO MORE, ENTER LAST >C310 eq 98#
ENTER QUALIFICATION DATA AS COMPONENT NUMBER
IF NO MORE, ENTER LAST >last#
IN EXEC MODE
CASE UPPER ASSUMED
FILE IN FIELD 1 IN USE BY ANOTHER RUN
WARNING: NEW ELEMENT WILL REPLACE EXISTING ELEMENT
ED 15R2-THU-05/18/78-10:24:34-(,0)
INPUT
EDIT
LINES:10 FIELDATA
05/18/78 10:24:45 BEGIN SYSTEM 2000 VERSION 2.80D
-556- ASSIGNED...TFPEISC 12 28443 05/09/78 11:44:44
PRINT/NAME/
C310
, OB
C310
WHERE
C310 EQ 98
June 1978
-------�
UG-5.5-9
TEST SERIES NUMBER * 98
EXIT:
05/18/78 10:25:27 END SYSTEM 2000 VERSION 2.80D
FURPUR 27R3 E33 SL73R1 05/18/78 10:25:36
June 1978
-------�
UG-5.5-10
Example 6; Multiple Data Element Print, Single Qualification Value, Single
Ordering
©add fpeis.print-where#
GTS 6R1 10:25:56
THE ASSUMED MODE IS FIELDATA
FILE NAME = 26
ENTER COMPONENT NUMBER OF DATA ELEMENT
TO BE PRINTED, IF NO MORE, ENTER LAST >310#
ENTER COMPONENT NUMBER OF DATA ELEMENT
TO BE PRINTED, IF NO MORE, ENTER LAST >320#
ENTER COMPONENT NUMBER OF DATA ELEMENT
TO BE PRINTED, IF NO MORE, ENTER LAST >last#
ENTER COMPONENT NUMBER OF DATA ELEMENT
BY WHICH DATA ARE TO BE ORDERED
IF NO ORDER, JUST PRESS RETURN >#
ENTER QUALIFICATION DATA AS COMPONENT NUMBER
IF NO MORE, ENTER LAST >310 eq 98#
ENTER QUALIFICATION DATA AS COMPONENT NUMBER
IF NO MORE, ENTER LAST >last#
IN EXEC MODE
CASE UPPER ASSUMED
FILE IN FIELD 1 DISABLED—ACCEPTED
FILE IN FIELD 1 IN USE BY ANOTHER RUN
WARNING: NEW ELEMENT WILL REPLACE EXISTING ELEMENT
ED 15R2-THU-05/18/78-10:26:53-(,0)
INPUT
EDIT
LINES:9 FIELDATA
05/18/78 10:27:11 BEGIN SYSTEM 2000 VERSION 2.80D
-556- ASSIGNED...TFPEISC 12 28443 05/09/78 11:44:44
PRINT/NAME/
C310
,C320
WHERE
C310 EQ 98
TEST SERIES NUMBER* 98
TEST SERIES REFERENCE* MONSANTO REPORT OF 17 MARCH 75 FOR EPA CONTRACT
68-02-1816
June 1978
-------�
UG-5.5-11
EXIT:
05/18/78 10:27:31 END SYSTEM 2000 VERSION 2.80D
FURFUR 27R3 E33 SL73R1 05/18/78 10:27:35
June 1978
-------�
UG-5.5-12
Example 7; Multiple Data Element Print, Single Qualification Value, Multiple
Ordering
©add fpeis.print-where#
GTS 6R1 10:38:45
THE ASSUMED MODE IS FIELDATA
FILE NAME = 38
ENTER COMPONENT NUMBER OF DATA ELEMENT
TO BE PRINTED, IF NO MORE, ENTER LAST >310#
ENTER COMPONENT NUMBER OF DATA ELEMENT
TO BE PRINTED, IF NO MORE, ENTER LAST >320#
ENTER COMPONENT NUMBER OF DATA ELEMENT
TO BE PRINTED, IF NO MORE, ENTER LAST >last#
ENTER COMPONENT NUMBER OF DATA ELEMENT
BY WHICH DATA ARE TO BE ORDERED
IF NO ORDER, JUST PRESS RETURN >310#
ENTER COMPONENT NUMBER OF DATA ELEMENT
BY WHICH DATA ARE TO BE ORDERED
IF NO ORDER, JUST PRESS RETURN >320#
ENTER COMPONENT NUMBER OF DATA ELEMENT
BY WHICH DATA ARE TO BE ORDERED
IF NO ORDER, JUST PRESS RETURN >#
ENTER QUALIFICATION DATA AS COMPONENT NUMBER
IF NO MORE, ENTER LAST >C310 eq 98#
ENTER QUALIFICATION DATA AS COMPONENT NUMBER
IF NO MORE, ENTER LAST >last#
IN EXEC MODE
CASE UPPER ASSUMED
FILE IN FIELD 1 DISABLED--ACCEPTED
FILE IN FIELD 1 IN USE BY ANOTHER RUN
WARNING: NEW ELEMENT WILL REPLACE EXISTING ELEMENT
ED 15R2-THU-05/18/78-10:39:52-(,0)
INPUT
EDIT
LINES:12 FIELDATA
05/18/78 10:40:05 BEGIN SYSTEM 2000 VERSION 2.80D
-556- ASSIGNED...TFPEISC 12 28443 05/09/78 11:44:44
PRINT/NAME/
C310
,C320
, OB
0310
June 1978
-------�
UG-5.5^-13
,0320
WHERE
C310 EQ 98
TEST SERIES NUMBER* 98
TEST SERIES REFERENCE* MONSANTO REPORT OF 17 MARCH 75 FOR EPA
CONTRACT 68-02-1816
EXIT:
05/18/78 10:40:41 END SYSTEM 2000 VERSION 2.80D
FURFUR 27R3 E33 SL73R1 05/18/78 10:40:54
June 1978
-------�
UG-5.5-I4
Example 8; Multiple Data Element Print, Multiple Qualification Values,
Multiple Ordering
©add fpeis.print-where#
GTS 6Rl 11:01:30
THE ASSUMED MODE IS FIELDATA
FILE NAME = 01
ENTER COMPONENT NUMBER OF DATA ELEMENT
TO BE PRINTED, IF NO MORE, ENTER LAST >310#
ENTER COMPONENT NUMBER OF DATA ELEMENT
TO BE PRINTED, IF NO MORE, ENTER LAST >320#
ENTER COMPONENT NUMBER OF DATA ELEMENT
TO BE PRINTED, IF NO MORE, ENTER LAST >last#
ENTER COMPONENT NUMBER OF DATA ELEMENT
BY WHICH DATA ARE TO BE ORDERED
IF NO ORDER, JUST PRESS RETURN >310#
ENTER COMPONENT NUMBER OF DATA ELEMENT
BY WHICH DATA ARE TO BE ORDERED
IF NO ORDER, JUST PRESS RETURN >320#
ENTER COMPONENT NUMBER OF DATA ELEMENT
BY WHICH DATA ARE TO BE ORDERED
IF NO ORDER, JUST PRESS RETURN >#
ENTER QUALIFICATION DATA AS COMPONENT NUMBER
IF NO MORE, ENTER LAST >C310 gt 5 and#
ENTER QUALIFICATION DATA AS COMPONENT NUMBER
IF NO MORE, ENTER LAST >C310 It 7#
ENTER QUALIFICATION DATA AS COMPONENT NUMBER
IF NO MORE, ENTER LAST >last#
IN EXEC MODE
CASE UPPER ASSUMED
FILE IN FIELD 1 DISABLED—ACCEPTED
FILE IN FIELD 1 IN USE BY ANOTHER RUN
WARNING: NEW ELEMENT WILL REPLACE EXISTING ELEMENT
ED 15R2-THU-05/18/78-11:03:10-(,0)
INPUT
EDIT
LINES:13 FIELDATA
05/18/78 11:03:27 BEGIN SYSTEM 2000 VERSION 2.80D
-556- ASSIGNED...TFPEISC 12 28443 05/09/78 11:44:44
PRINT/NAME/
C310
,0320
June 1978
-------�
UG-5.5-I5
, OB
C310
,C320
WHERE
G310 GT 5 AND
C310 LT 7
TEST SERIES NUMBER* 6
TEST SERIES REFERENCE* STATNICK, R.M., EPA-650/2-74-111 OCT
74
EXIT:
05/18/78 11:04:07 END SYSTEM 2000 VERSION 2*800
FURPUR 27R3 E33 SL73R1 05/18/78 11:04:19
Note that the AND which appears on the first line of qualification data fol-
lows the C310 GT 5. The same is true for the Boolean OR. Both must appear
on the same line as the qualification statement*
June 1978
-------�
UG-5.5-16
Example 9; User of Qualifier EXISTS
©add fpeis.print-where#
GTS 6Rl 10:22:27
THE ASSUMED MODE IS FIELDATA
FILE NAME = 24
ENTER COMPONENT NUMBER OF DATA ELEMENT
TO BE PRINTED, IF NO MORE, ENTER LAST >1520#
ENTER COMPONENT NUMBER OF DATA ELEMENT
TO BE PRINTED, IF NO MORE, ENTER LAST >last#
ENTER COMPONENT NUMBER OF DATA ELEMENT
BY WHICH DATA ARE TO BE ORDERED
IF NO ORDER, JUST PRESS RETURN >#
ENTER QUALIFICATION DATA AS COMPONENT NUMBER
IF NO MORE, ENTER LAST >C310 eq 6 and#
ENTER QUALIFICATION DATA AS COMPONENT NUMBER
IF NO MORE, ENTER LAST >C1505 exists#
ENTER QUALIFICATION DATA AS COMPONENT NUMBER
IF NO MORE, ENTER LAST >last#
IN EXEC MODE
AUTO FILE CONTAINS FPEIS*TSTART(1)«PRINT(0)
CASE UPPER ASSUMED
FILE IN FIELD 1 DISABLED—ACCEPTED
WARNING: NEW ELEMENT WILL REPLACE EXISTING ELEMENT
ED 15R2-WED-05/24/78-10:28:01-(,0)
INPUT
EDIT
LINES:9 FIELDATA
05/24/78 10:28:22 BEGIN SYSTEM 2000 VERSION 2.80D
-556- ASSIGNED...TFPEISC 12 28443 05/09/78 11:44:44
PRINT/NAME/
C1520
WHERE
C310 EQ 6 and
C1505 EXISTS
•
•
MEASUREMENT INSTRUMENT/METHOD NAME* ANDERSEN MODEL III IMPACTOR
EXIT:
05/24/78 10:29:03 END SYSTEM 2000 VERSION 2.80D
FURPUR 27R3 E33 SL73R1 05/24/78 10:29:10
> June 1978
-------�
UG-5.5-17
Example 10; Use of Qualifiers FAILS and SPANS
©add fpeis.print-where#
GTS 6R1 10:29:28
THE ASSUMED MODE IS FIELDATA
FILE NAME = 29
ENTER COMPONENT NUMBER OF DATA ELEMENT
TO BE PRINTED, IF NO MORE, ENTER LAST >310#
ENTER COMPONENT NUMBER OF DATA ELEMENT
TO BE PRINTED, IF NO MORE, ENTER LAST >last#
ENTER COMPONENT NUMBER OF DATA ELEMENT
BY WHICH DATA ARE TO BE ORDERED
IF NO ORDER, JUST PRESS RETURN >310#
ENTER COMPONENT NUMBER OF DATA ELEMENT
BY WHICH DATA ARE TO BE ORDERED
IF NO ORDER, JUST PRESS RETURN >#
ENTER QUALIFICATION DATA AS COMPONENT NUMBER
IF NO MORE, ENTER LAST >Cl410 fails and#
ENTER QUALIFICATION DATA AS COMPONENT NUMBER
IF NO MORE, ENTER LAST >C310 spans 1*10#
ENTER QUALIFICATION DATA AS COMPONENT NUMBER
IF NO MORE, ENTER LAST >last#
IN EXEC MODE
CASE UPPER ASSUMED
FILE IN FIELD 1 DISABLED--ACCEPTED
WARNING: NEW ELEMENT WILL REPLACE EXISTING ELEMENT
ED 15R2-WED-05/24/78-10:31:44-(,0)
INPUT
EDIT
LINES:11 FIELDATA
05/24/78 10:31:59 BEGIN SYSTEM 2000 VERSION 2.80D
-556- ASSIGNED...TFPEISC 12 28443 05/09/78 11:44:44
PRINT/NAME/
C310
, OB
C310
WHERE
C1410 FAILS AND
June 1978
-------�
UG-5.5-18
C310 SPANS 1*10
TEST SERIES NUMBER* 1
TEST SERIES NUMBER* 2
TEST SERIES NUMBER* 3
TEST SERIES NUMBER* 4
TEST SERIES NUMBER* 5
TEST SERIES NUMBER* 8
TEST SERIES NUMBER* 9
TEST SERIES NUMBER* 10
EXIT:
05/24/78 10:32:27 END SYSTEM 2000 VERSION 2.80D
FURPUR 27R3 E33 SL73R1 05/24/78 10:32:31
June 1978
-------�
UG-5.5-19
5 .5 .2 Batch Processing Procedure
SRC-5 is not available to batch users since it utilizes the UNIVAC 1100 Con-
versational Time Sharing (GTS) processor*
June 1978
-------�
UG-5.6-1
5.6 SRC NUMBER: SRC-6
TITLE; Chemical Data Search (CHEMSEARCH)
The CHEMSEARCH command (SRC-6) enables the user to search all or part
of the FFEIS data base for the presence of a particular chemical
species. The user must supply a chemical identification number, and,
if he wishes to search only a part of the data base, he must also
specify the Test Series Number(s). Chemical ID'S permitted include
SAROAD/SOTDAT, Multi-Media Environmental Goals (MBG's), Chemical
Abstracts Services (CAS) Registration Numbers, and Level 1 Fractions.
Any of these chemical ID'S may be used*
The output from SRC-6 will identify the particular test series in which
the chemical species of interest appears* The user may then retrieve
the SERIES report using SRC-1.
USER INPUT DATA REQUIRED;
. Valid Chemical Entry Code (C1405). Select from:
S = SAROAD/SOTDAT ID
M = MEG Number
C - CAS Registration Number
F = EA Level 1 Fraction
. Valid Chemical ID Code (C1410) which corresponds to the entry code
selected*
DATA QUALIFICATION REQUIRED;
The user must indicate whether he wishes to scan the entire data base,
or part of the data base as indicated by entering a range of Test
Series Numbers*
June 1978
-------�
UG-5.6-2
5*6*1 Demand Processing Procedure
The user shall establish communications with the NCC UNIVAC 1100 computer
according to the procedure given in Section 4*2 of this document* Since
the possible combination of chemical species to be located and Test Series
Numbers to be scanned are almost infinite, the use of SRC-6 is best shown
by example* For clarity, all user-supplied data are shown in lower case
letters and all computer responses in capital letters* A user-supplied
carriage return is shown by the pound (#) sign*
June 1978
-------�
UG-5.6-3
5.6.1.1 Use of SABPAD/SOTDAT CHEMICAL ID
The following examples illustrate the use of SRC-6 with the SASDAD/SOTDAT
CHEMICAL ID system being employed.
June 1978
-------�
UC-5.6-4
Example 1; Invalid SAROAD/SOTDAT Number
>@add £peis.chemsearch#
GTS 6R1 14:30;11
THE ASSUMED MODE IS FIELDATA
FILE NAME = 3013
ENTER CHEMICAL ENTRY CODE (S,C,M,OR F) >s#
ENTER SAROAD NUMBER >3333#
ENTER TEST SERIES NUMBERS TO BE SCANNED
AS FIRST,LAST. IF ENTIRE DATA BASE
IS TO BE SCANNED, JUST PRESS RETURN >#
IN EXEC MODE
CASE UPPER ASSUMED
FILE IN FIELD 1 DISABLED—ACCEPTED
WARNING: NEW ELEMENT WILL REPLACE EXISTING ELEMENT
ED 15R2-THU-05/25/78-14:30:43-(,0)
INPUT
EDIT
LINES:2 FIELDATA
INVALID CHEMICAL DATA
FURPUR 27R3 E33 SL73R1 05/25/78 14:31:00
This means that no such SAROAD number exists*
June 1978
-------�
UG-5.6-5
Example 2; Invalid Entry Code with Correction Applied
> ©add fpeis.chemsearch#
GTS 6R1 14:18:43
THE ASSUMED MODE IS FIELDATA
FILE NAME = 1847
ENTER CHEMICAL ENTRY CODE (S,C,M,OR F) >r#
INVALID ENTRY CODE
ENTER CHEMICAL ENTRY CODE (S,C,M,OR F) >s#
ENTER SARD AD NUMBER >2103
ENTER TEST SERIES NUMBERS TO BE SCANNED
AS FIRST,LAST. IF ENTIRE DATA BASE
IS TO BE SCANNED, JUST PRESS RETURN 5#
IN EXEC MODE
CASE UPPER ASSUMED
FILE IN FIELD 1 DISABLED—ACCEPTED
WARNING: NEW ELEMENT WILL REPLACE EXISTING ELEMENT
ED 15R2-THY-05/25/78-14:l9:19-(,0)
INPUT
EDIT
LINES:2 FIELD ATA
SARD AD NUMBER* 2103
MEG NUMBER* 49AOOO
PREFERRED NAME* ARSENIC
EMPIRICAL FORMULA* AS
MOLECULAR WEIGHT* 0074.92
CAS NUMBER* 07440-38-2
OTHER NAMES*
METALLIC ARSENIC
BLACK ARSENIC
THE FOLLOWING SERIES WERE FOUND IN THE ENTIRE DATA BASE.
00006
00007
FURPUR 27R3 E33 SL73R1 05/25/78 14:19:48
Note that SRC-6 allows the user to re-enter the entry code if a bad value
has been entered.
June 1978
-------�
UQ-5.6-6
Example 3; Invalid SARDAD Number Length with Correction Applied
>add fpeis.chemsearch#
GTS 6R1 13:53:28
THE ASSUMED MODE IS FIELDATA
FILE NAME = 530
ENTER CHEMICAL ENTRY CODE (S,C,M,OR F) >s#
ENTER SAROAD NUMBER >21034#
INVALID LENGTH FOR SABDAD NUMBER (NOT 4)
ENTER CHEMICAL ENTRY CODE (S,C,M,OR F) >s#
ENTER SAROAD NUMBER >2103#
ENTER TEST SERIES NUMBERS TO BE SCANNED
AS FIRST, LAST. IF ENTIRE DATA BASE
IS TO BE SCANNED, JUST PRESS RETURN >#
IN EXEC MODE
CASE UPPER ASSUMED
FILE IN FIELD 1 DISABLED—ACCEPTED
WARNING: NEW ELEMENT WILL REPLACE EXISTING ELEMENT
ED 15R2-THU-05/25/78-13:53:33-(,0)
INPUT
EDIT
LINES:2 FIELDATA
SAO)AD NUMBER* 2103
MEG NUMBER* 49AOOO
PREFERRED NAME* ARSENIC
EMPIRICAL FORMULA* AS
MOLECULAR WEIGHT* 0074.92
CAS NUMBER* 07440-38-2
OTHER NAMES*
METALLIC ARSENIC
BLACK ARSENIC
THE FOLLOWING SERIES WERE FOUND IN THE ENTIRE DATA BASE.
0000|6
00007
FURPUR 27R3 E33 SL73R1 05/25/78 13:53:55
June 1978
-------�
UG-5.6-7
Example 4; Miscellaneous Input Errors with Correction Applied
XSadd fpeis.chemsearch#
GTS 6R1 13:09:01
THE ASSUMED MODE IS FIELDATA
FILE NAME = 0903
ENTER CHEMICAL ENTRY CODE (S,C,M,OR F) >a#
ENTER SAROAD NUMBER >2128
ENTER TEST SERIES NUMBERS TO BE SCANNED
AS FIRST, LAST. IF ENTIRE DATA BASE
IS TO BE SCANNED, JUST PRESS RETURN X),0000009#
INVALID LAST SERIES NUMBER
ENTER TEST SERIES NUMBERS TO BE SCANNED
AS FIRST,LAST. IF ENTIRE DATA BASE
IS TO BE SCANNED, JUST PRESS RETURN X)000000,0000009#
SCANNED FIELD TOO LARGE (GREATER THAN 11)
ENTER TEST SERIES NUMBERS TO BE SCANNED
AS FIRST,LAST. IF ENTIRE DATA BASE
IS TO BE SCANNED, JUST PRESS RETURN X)000000,9#
INVALID FIRST SERIES NUMBER
ENTER TEST SERIES NUMBERS TO BE SCANNED
AS FIRST, LAST. IF ENTIRE DATA BASE
IS TO BE SCANNED, JUST PRESS RETURN >1,9#
IN EXEC MODE
CASE UPPER ASSUMED
FILE IN FIELD 1 DISABLED--ACCEPTED
WARNING: NEW ELEMENT WILL REPLACE EXISTING ELEMENT
ED 15R2-FRI-05/26/78-13:10:19-(,0)
INPUT
EDIT
LINES:2 FIELDATA
SAROAD NUMBER* 2128
MEG NUMBER* 46AQOO
PREFERRED NAME* LEAD
EMPIRICAL FORMULA* PB
MOLECULAR WEIGHT* 0207.22
CAS NUMBER* 07439-92-1
OTHER NAMES*
PLUMBUM
THE FOLLOWING SERIES WERE FOUND BETWEEN SERIES 00001 AND 00009
0006
0007
FURPUR 27R3 E33 SL73R1 05/26/78 13:10:40
June 1978
-------�
UG-5.6-8
Example 5: Partial Data Base Scan (No Errors)
fpeis.chemsearch#
GTS 6R1 13:52:21
THE ASSUMED MODE IS FIELDATA
FILE NAME = 5223
ENTER CHEMICAL ENTRY CODE (S,C,M,OR F) >s#
ENTER SARD AD NUMBER >2103#
ENTER TEST SERIES NUMBERS TO BE SCANNED
AS FIRST, LAST. IF ENTIRE DATA BASE
IS TO BE SCANNED, JUST PRESS RETURN >1,6#
IN EXEC MODE
CASE UPPER ASSUMED
FILE IN FIELD 1 DISABLED- -ACCEPTED
WARNING: NEW ELEMENT WILL REPLACE EXISTING ELEMENT
ED 15R2-THU-05/25/78-13:52:45-(,0)
INPUT
EDIT
LINES: 2 FIELDATA
SARD AD NUMBER* 2103
MEG NUMBER* 49AOOO
PREFERRED NAME* ARSENIC
EMPIRICAL FORMULA AS
MOLECULAR WEIGHT* 0074.92
CAS NUMBER* 07440-38-2
OTHER NAMES*
METALLIC ARSENIC
BLACK ARSENIC
THE FOLLOWING SERIES WERE FOUND BETWEEN SERIES 00001 AND 00006
00006
FURPUR 27R3 E33 SL73R1 05/25/78 13:53:05
June 1978
-------�
UG-5.6-9
Example 6; Full Data Base Scan (No Errors)
XSadd fpeis.chemsearch#
GTS 6R1 12:58:51
THE ASSUMED MODE IS FIELDATA
FILE NAME = 5852
ENTER CHEMICAL ENTRY CODE (S,C,M,OR F) >s#
ENTER SARDAD NUMBER >2103#
ENTER TEST SERIES NUMBERS TO BE SCANNED
AS FIRST,LAST. IF ENTIRE DATA BASE
IS TO BE SCANNED, JUST PRESS RETURN >#
IN EXEC MODE
CASE UPPER ASSUMED
FILE IN FIELD 1 DISABLED--ACCEPTED
WARNING: NEW ELEMENT WILL REPLACE EXISTING ELEMENT
ED 15R2-FRI-05/26/78-12:59:22-(,0)
INPUT
EDIT
LINES:2 FIELDATA
SARDAD NUMBER* 2103
MEG NUMBER* 49AOOO
PREFERRED NAME* ARSENIC
EMPIRICAL FORMULA* AS
MOLECULAR WEIGHT* 0074.92
CAS NUMBER* 07440-38-2
OTHER NAMES*
METALLIC ARSENIC
BLACK ARSENIC
THE FOLLOWING SERIES WERE FOUND IN THE ENTIRE DATA BASE.
00006
00007
FURPUR 27R3 E33 SL73R1 05/26/78 13:00:15
June 1978
-------�
UG-5.6-10
5.6.1.2 Use of Multimedia Environmental Goals (MEG) Numbers
The following examples illustrate the use of SRC-6 with the Multimedia Environ-
mental Goals chemical ID system being employed.
June 1978
-------�
UG-5.6-11
Example It Invalid MEG Number
>§tatdd fpeis.chemsearch#
CIS 6R1 16:14:12
THE ASSUMED MODE IS FIELDATA
FILE NAME = 1414
ENTER CHEMICAL ENTRY CODE (S,C,M,OR F)
ENTER MEG NUMBER >49al25#
ENTER TEST SERIES NUMBERS TO BE SCANNED
AS FIRST, LAST. IF ENTIRE DATA BASE
IS TO BE SCANNED, JUST PRESS RETURN 5#
IN EXEC MODE
CASE UPPER ASSUMED
FILE IN FIELD 1 DISABLED— ACCEPTED
WARNING: NEW ELEMENT WILL REPLACE EXISTING ELEMENT
ED 15R2-FRI-05/26/78-16:13s21-(,0)
INPUT
EDIT
LINES: 2 FIELDATA
INVALID CHEMICAL DATA
FURPUR 27R3 E33 SL73R1 05/26/78 16:13:40
This indicates that 49A125 ia not a valid MEG Number even though it is
in the proper format.
June 1978
-------�
UG-5.6-12
Example 2; Invalid MEG Number Length With Correction Applied
>@add fpeis»chemsearch#
GTS 6R1 13:02:51
THE ASSUMED MODE IS FIELDATA
FILE NAME = 0254
ENTER CHEMICAL ENTRY CODE (S,C,M,OR F)
ENTER MEG NUMBER >123-12-3#
INVALID LENGTH FOR MEG NUMBER (NOT 6)
ENTER CHEMICAL ENTRY CODE (S,C,M,OR F)
ENTER MEG NUMBER >49aOOO#
ENTER TEST SERIES NUMBERS TO BE SCANNED
AS FIRST,LAST. IF ENTIRE DATA BASE
IS TO BE SCANNED, JUST PRESS RETURN >#
IN EXEC MODE
CASE UPPER ASSUMED
FILE IN FIELD 1 DISABLED—ACCEPTED
WARNING: NEW ELEMENT WILL REPLACE EXISTING ELEMENT
ED 15R2-FRI-05/26/78-13:03:54-(,0)
INPUT
EDIT
LINES:2 FIELDATA
SARDAD NUMBER* 2103
MEG NUMBER* 49AOOO
PREFERRED NAME* ARSENIC
EMPIRICAL FORMULA* AS
MOLECULAR WEIGHT* 0074.92
CAS NUMBER* 07440-38-2
OTHER NAMES*
METALLIC ARSENIC
BLACK ARSENIC
THE FOLLOWING SERIES WERE FOUND IN THE ENTIRE DATA BASE.
00006
00007
FURPUR 27R3 E33 SL73R1 05/26/78 13:04:17
June 1978
-------�
UG-5.6-13
Example 3; Partial Data Base Scan (No Errors)
fpeis.chemsearch#
GTS 6Rl 13:04:46
THE ASSUMED MODE IS FIELDATA
FILE NAME = 0447
ENTER CHEMICAL ENTRY CODE (S,C,M,OR F)
ENTER MEG NUMBER :>46aOOO#
ENTER TEST SERIES NUMBERS TO BE SCANNED
AS FIRST, LAST. IF ENTIRE DATA BASE
IS TO BE SCANNED, JUST PRESS RETURN >1,50#
IN EXEC MODE
CASE UPPER ASSUMED
FILE IN FIELD 1 DISABLED- -ACCEPTED
WARNING: NEW ELEMENT WILL REPLACE EXISTING ELEMENT
ED 15R2-FRI-05/26/78-13:05:15-(,0)
INPUT
EDIT
LINES: 2 FIELDATA
SARD AD NUMBER* 2128
MEG NUMBER* 46AOOO
PREFERRED NAME* LEAD
EMPIRICAL FORMULA* PB
MOLECULAR WEIGHT* 0207.22
CAS NUMBER* 07439-92-1
OTHER NAMES*
PLUMBUM
THE FOLLOWING SERIES WERE FOUND BETWEEN SERIES 00001 AND 00050
00006
00007
00013
00025
00026
00027
00032
00043
00044
00045
00046
FURPUR 27R3 E33 SL73R1 05/26/78 13:05:47
June 1978
-------�
UG-5.6-14
Example 4: Full Data Base Scan (No Errors)
>@add fpeis.chemsearch#
GTS 6R1 14:02:47
THE ASSUMED MODE IS FIELDATA
FILE NAME = 0250
ENTER CHEMICAL ENTRY CODE (S,C,M,OR F) >m#
ENTER MEG NUMBER >49aOOO#
ENTER TEST SERIES NUMBERS TO BE SCANNED
AS FIRST,LAST. IF ENTIRE DATA BASE
IS TO BE SCANNED, JUST PRESS RETURN ~>#
IN EXEC MODE
CASE UPPER ASSUMED
FILE IN FIELD 1 DISABLED—ACCEPTED
WARNING: NEW ELEMENT WILL REPLACE EXISTING ELEMENT
ED 15R2-THU-05/25/78-14:03:17-(,0)
INPUT
EDIT
LINES:2 FIELDATA
SARD AD NUMBER* 2103
MEG NUMBER* 49AOOO
PREFERRED NAME* ARSENIC
EMPIRICAL FORMULA* AS
MOLECULAR WEIGHT* 0074.92
CAS NUMBER* 07440-38-2
OTHER NAMES*
METALLIC ARSENIC
BLACK ARSENIC
THE FOLLOWING SERIES WERE FOUND IN THE ENTIRE DATA BASE.
00006
00007
FURPUR 27R3 E33 SL73R1 05/25/78 14:04:38
June 1978
-------�
UG-5.6-15
5.6.1.3 Use of Chemical Abstracts Services Registration Numbers
The following examples illustrate the use of SRC-6 with the Chemical Abstracts
Services chemical ID system being employed.
June 1978
-------�
UG-5.6-16
Example 1: Invalid GAS Number Length with Correction Applied
f peis.chemsearch#
GTS 6R1 13:06:04
THE ASSUMED MODE IS FIELDATA
FILE NAME = 0606
ENTER CHEMICAL ENTRY CODE (S,C,M,OR F) >c#
ENTER CAS NUMBER >123-12-3#
INVALID LENGTH FOR CAS NUMBER (NOT 10)
ENTER CHEMICAL ENTRY CODE (S,C,M,OR F) >c#
ENTER CAS NUMBER X)7439-92-l#
ENTER TEST SERIES NUMBERS TO BE SCANNED
AS FIRST, LAST. IF ENTIRE DATA BASE
IS TO BE SCANNED, JUST PRESS RETURN >#
IN EXEC MODE
CASE UPPER ASSUMED
FILE IN FIELD 1 DISABLED— ACCEPTED
WARNING: NEW ELEMENT WILL REPLACE EXISTING ELEMENT
ED 15R2-FRI-05/26/78-13:06:46-(,0)
INPUT
EDIT
LINES: 2 FIELDATA
SAROAD NUMBER* 2128
MEG NUMBER* 46AOOO
PREFERRED NAME* LEAD
EMPIRICAL FORMULA* PB
MOLECULAR WEIGHT* 0207.22
CAS NUMBER* 07439-92-1
OTHER NAMES*
PLUMBUM
THE FOLLOWING SERIES WERE FOUND IN THE ENTIRE DATA BASE.
00006
00007
00013
00025
00026
00027
00032
00043
00044
00045
00046
FURPUR 27R3 E33 SL73R1 05/26/78 13:07:11
June 1978
-------�
UG-5.6-17
Example 2: Invalid CAS Number
XDadd fpeis.chemsearch#
GTS 6R1 09:15:15
THE ASSUMED MODE IS FIELDATA
FILE NAME = 1518
ENTER CHEMICAL ENTRY CODE (S,C,M,OR F) >c#
ENTER CAS NUMBER X)7459-99-9#
ENTER TEST SERIES NUMBERS TO BE SCANNED
AS FIRST,LAST. IF ENTIRE DATA BASE
IS TO BE SCANNED, JUST PRESS RETURN >#
IN EXEC MODE
CASE UPPER ASSUMED
FILE IN FIELD 1 DISABLED--ACCEPTED
WARNING: NEW ELEMENT WILL REPLACE EXISTING ELEMENT
ED 15R2-TUE-05/30/78-09:l5:55-(,0)
INPUT
EDIT
LINES:2 FIELDATA
INVALID CHEMICAL DATA
FURPUR 27R3 E33 SL73R1 05/30/78 09s16:34
June 1978
-------�
UG-5.6-18
Example 3: Partial Data Base Scan (No Errors)
>§>add fpeis.chemsearch#
GTS 6R1 09:17:07
THE ASSUMED MODE IS FIELDATA
FILE NAME = 1710
ENTER CHEMICAL ENTRY CODE (S,C,M,OR F) >c#
ENTER CAS NUMBER X>7439-92-l#
ENTER TEST SERIES NUMBERS TO BE SCANNED
AS FIRST,LAST. IF ENTIRE DATA BASE
IS TO BE SCANNED, JUST PRESS RETURN >25,35#
IN EXEC MODE
CASE UPPER ASSUMED
FILE IN FIELD 1 DISABLED—ACCEPTED
WARNING: NEW ELEMENT WILL REPLACE EXISTING ELEMENT
ED 1.5R2-TUE-05/30/78-09:19:22-(,0)
INPUT
EDIT
LINES:2 FIELDATA
SAROAD NUMBER* 2128
MEG NUMBER* 46AOOO
PREFERRED NAME* LEAD
EMPIRICAL FORMULA* PB
MOLECULAR WEIGHT* 0207.22
CAS NUMBER* 07439-92-1
OTHER NAMES*
PLUMBUM
THE FOLLOWING SERIES WERE FOUND BETWEEN SERIES 00025 AND 00035
00025
00026
00027
00032
FURPUR 27R3 E33 SL73R1 05/30/78 09:22:26
June 1978
-------�
UG-5.6-19
Example 4: Full Data Base Scan (No Errors)
fpeis.chemsearch#
CTS 6R1 13:07:29
THE ASSUMED MODE IS FIELDATA
FILE NAME = 0731
ENTER CHEMICAL ENTRY CODE (S,C,M,OR F) >c#
ENTER CAS NUMBER >07440-38-2#
ENTER TEST SERIES NUMBERS TO BE SCANNED
AS FIRST, LAST. IF ENTIRE DATA BASE
IS TO BE SCANNED, JUST PRESS RETURN >#
IN EXEC MODE
CASE UPPER ASSUMED
FILE IN FIELD 1 DISABLED— ACCEPTED
WARNING: NEW ELEMENT WILL REPLACE EXISTING ELEMENT
ED 15R2-FRI-05/26/78-13:08:23-(,0)
INPUT
EDIT
LINES:2 FIELDATA
SAROAD NUMBER* 2103
MEG NUMBER* 49AOOO
PREFERRED NAME* ARSENIC
EMPIRICAL FORMULA* AS
MOLECULAR WEIGHT* 0074.92
CAS NUMBER* 07440-38-2
OTHER NAMES*
METALLIC ARSENIC
BLACK ARSENIC
THE FOLLOWING SERIES WERE FOUND IN THE ENTIRE DATA BASE.
00006
00007
FURPUR 27R3 E33 SL73R1 05/25/78 14:02:30
June 1978
-------�
UG-5.6-20
5.6.1.4 Use of Environmental Assessment Level 1 Fractions
The following examples illustrate the use of SRC-6 with the EA Level 1 Frac-
tion chemical ID system being employed*
The Level 1 Fraction data are identified as FRAC-1 through FRAO8. Only
these values may be used.
June 1978
-------�
UG-5.6-21
Example 1: Invalid Identifier
>3*add fpels.chemsearch#
GTS 6R1 16:17:58
THE ASSUMED MODE IS FIELDATA
FILE NAME = 1800
ENTER CHEMICAL ENTRY CODE (S,C,M,OR F) >f#
ENTER LEVEL I FRACTION CHEMICAL ID >level i fraction-3#
ENTER TEST SERIES NUMBERS TO BE SCANNED
AS FIRST, LAST. IF ENTIRE DATA BASE
IS TO BE SCANNED, JUST PRESS RETURN >#
IN EXEC MODE
CASE UPPER ASSUMED
FILE IN FIELD 1 DISABLED--ACCEPTED
WARNING: NEW ELEMENT WILL REPLACE EXISTING ELEMENT
ED 15R2-FRI-05/26/78-16:18:41-(,0)
INPUT
EDIT
LINES:2 FIELDATA
NO SERIES FOUND IN THE ENTIRE DATA BASE
FURPUR 27R3 E33 SL73R1 05/26/78 16:18:57
June 1978
-------�
UG-5.6-22
Example 2; Input Error in Fraction Identifier
X&add fpeis.chemsearch#
CIS 6R1 16:16:28
THE ASSUMED MODE IS FIELDATA
FILE NAME = 1631
ENTER CHEMICAL ENTRY CODE (S,C,M,OR F) >f#
ENTER LEVEL I FRACTION CHEMICAL ID >frac 1#
ENTER TEST SERIES NUMBERS TO BE SCANNED
AS FIRST,LAST. IF ENTIRE DATA BASE
IS TO BE SCANNED, JUST PRESS RETURN >#
IN EXEC MODE
CASE UPPER ASSUMED
FILE IN FIELD 1 DISABLED--ACCEPTED
WARNING: NEW ELEMENT WILL REPLACE EXISTING ELEMENT
ED !5R2-FRI-05/26/78-16:17:07-(,0)
INPUT
EDIT
LINES:2 FIELDATA
NO SERIES FOUND IN THE ENTIRE DATA BASE
FURPUR 27R3 E33 SL73R1 05/26/78 16:17:23
June 197$
-------�
UG-5.6-23
Example 3: Partial Data Base Scan (No Errors)
fpeis.chemsearch#
CIS 6R1 16: 19; 10
THE ASSUMED MODE IS FIELD ATA
FILE NAME = 1912
ENTER CHEMICAL ENTRY CODE (S,C,M,OR F) >f#
ENTER LEVEL I FRACTION CHEMICAL ID >frac-3#
ENTER TEST SERIES NUMBERS TO BE SCANNED
AS FIRST, LAST. IF ENTIRE DATA BASE
IS TO BE SCANNED, JUST PRESS RETURN >105,110#
IN EXEC MODE
CASE UPPER ASSUMED
FILE IN FIELD 1 DISABLED— ACCEPTED
WARNING: NEW ELEMENT WILL REPLACE EXISTING ELEMENT
ED 15R2-FRI-05/26/78-16:19:57-(,0)
INPUT
EDIT
LINES: 2 FIELDATA
THE FOLLOWING SERIES WERE FOUND BETWEEN SERIES 00105 AND 00110
00108
FURPUR 27R3 E33 SL73R1 05/26/78 16:20:16
June 1978
-------�
UG-5.6-24
Example 4; Full Data Base Scan (No Errors)
fpeis.chemsearch#
CTS 6R1 16:15:19
THE ASSUMED MODE IS FIELDATA
FILE NAME = 1521
ENTER CHEMICAL ENTRY CODE (S,C,M,OR F) >f#
ENTER LEVEL I FRACTION CHEMICAL ID >frac-l#
ENTER TEST SERIES NUMBERS TO BE SCANNED
AS FIRST, LAST. IF ENTIRE DATA BASE
IS TO BE SCANNED, JUST PRESS RETURN >#
IN EXEC MODE
CASE UPPER ASSUMED
FILE IN FIELD 1 DISABLED— ACCEPTED
WARNING: NEW ELEMENT WILL REPLACE EXISTING ELEMENT
ED 15R2-FRI-05/26/78-16:l5:51-(,0)
INPUT
EDIT
LINES: 2 FIELDATA
THE FOLLOWING SERIES WERE FOUND IN THE ENTIRE DATA BASE.
00001
00108
FURPUR 27R3 E33 SL73R1 05/26/78 16:16:14
June 1978
-------�
UG-5.6-25
5.6.1.5 Use of User-Initiated Abort
Users may abort the CHEMSEARCH SRC by entering "KILL" FOR ANY ENTRY. This is
shown in the following example.
fpeis.chernsearch#
GTS 6R1 10:52:27
THE ASSUMED MODE IS FIELDATA
FILE NAME = 5233
ENTER CHEMICAL ENTRY CODE (S,C,M,OR F) >kill#
JOB KILLED
IN EXEC MODE
>§add fpeis.chemsearch#
GTS 6R1 10:52:58
THE ASSUMED MODE IS FIELDATA
FILE NAME = 5300
ENTER CHEMICAL ENTRY CODE (S,C,M,OR F) >s#
ENTER SAROAD NUMBER >kill#
JOB KILLED
IN EXEC MODE
>@add fpeis.chemsearch
GTS 6R1 10:53:22
THE ASSUMED MODE IS FIELDATA
FILE NAME = 5323
ENTER CHEMICAL ENTRY CODE (S,C,M,OR F) >s#
ENTER SAROAD NUMBER >2103#
ENTER TEST SERIES NUMBERS TO BE SCANNED
AS FIRST,LAST. IF ENTIRE DATA BASE
IS TO BE SCANNED, JUST PRESS RETURN >kill#
JOB KILLED
IN EXEC MODE
June 1978
-------�
UG-5.6-26
5.6.2 Batch Processing Procedure
SRC-6 is not available to batch users since it utilizers the UNIVAC 1100
Conversational Time-Sharing (CTS) processor.
June 1978
-------�
UG-6.0-1
SECTION 6
APPENDIX
CONTENTS
Number Item Page
6.1 Standard FPEIS Data Input Forms . . . UG-6.1-1
6.2 Example of FPEIS SERIES Report Output • UG-6.2-1
6.3 FPEIS Data Base Structure ............ UG-6.3-1
6.3.1 SYSTEM 2000 Data Base Structure UG-6.3-2
6.4 Key/Nonkey Data Elements UG-6.4-1
6.4.1 Key Data Elements UG-6.4-2
6.4.2 Monkey Data Elements. ......••.••• UG-6.4-4
V /
6.5 Summary of Contents of Che FPEIS Data Base. ... UG-6.5-1
June 1978
-------�
UG-6.1-1
6*1 Standard FPEIS Data Input Forms
Standard data input forms for the FPEIS may be found following this dis-
cussion. There are six forms in all* These forms may be reproduced for
use in encoding emissions testing data* Specific encoding instructions
are given in Section 2,
June 1978
-------�
** n=
SB Lr
U.S. EMVIKMNEH
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Test Series
No.
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FINE PARTICLE EMISSIONS INFORMATION SYSTEM
DATA INPUT FORMS Forn
[For*
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16
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18
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16
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24
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33
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19
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SCC III (Feed Material Class)
50
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59
60
61
62
63
64
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Start Dote
Mo
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71
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31
37
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19
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20
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23
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38
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52
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16
17
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19
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33
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U.S. ENVIRONMENTAL PROTECTION AGENCY
IERlflTF.Ittu>«tTriw0»F«li.ll.C. IT711
C - CONTROL DEVICE(S) CHARACTERISTICS
FIN: PARTICLE EMISSIONS I NFORMATION SYSTEM
DATA INPUT FORMS
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49
501 51
1
I
1
52
53 54J55
1
56
57
1
51
59
69
41
62
63
64
65
66
67
6*
•»
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n
ft
n
H
W
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U.S. ENVIRONMENTAL PROTECTION AGENCY
lEfll RTF. R«OTtb TnMfli Pirt. *.C. 17711
D - TEST CHARACTERISTICS
Test Series
No.
^n-
\
Sub
series
No.
,
Cord
No.
D
0
1
Card
No.
n
D
12
0
13
2
M
^
15
No" 1 1
77
D
12
0
13)14)15
3
Card
No.
n
D
0
4
FINt PARTICLt FMISSIONS INFORMATION SYSTEM
DATA INPUT FORMS
— Co»tro! Devic
T«tl SubMrio
Date
Mo~T Da ] Yr"
Fe
16
"
"
e
nlet or C
Start
Time
Juliet (I or
Stop
Time
0)
Source Operating t
ed Mated a
17
IB
19
20
2.122
23
24
JjJ 26 27
28 29
30 31 32 33 14 35 36
A*
M
37
ie
— 1 —
J» j
38 3
..1 . ..1 .
> 40
41
42
43
44
*
r~T 1 1 1 —
Form 3 9/77
Form Completed fay
Source Operating Rate*
|Fe*d Material Composition*
4«
47
48
49
50
3!
52
53
54
55
Sampling Location Description*
16
17
,8,9
C02*
,
20
21
22
23
CO*
20
21
22
A
23
24
25
26 17 \lS\n
02*
24
25
26 27
30 31 132 13 34 35 36
^r-,
37
38 3
N2 Trace Gases in pom
28 29j
30 31 32 a 34 35 36
37
38 3
U)
4<
42
43
44
45
w
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
Volume
Flow Rate*
56
57
58
59
60
61
62
a
«
Velocity*
62
63
64
65
66
;TT^t
'*!•*.
67
68
69
Temp*
66
67
68
69
70
71
72
73
74
Press *
70
71
72
n
74
75
,
75
(Text)*
r* 40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
M
65
66
67
68
69
70
71
72
7J
74
75
—
% Design
Capacity
1 t .
76
77 78 79 80
• 1 %lso-
H2O| kinetic"
76
77(78 79 80
JI
'»
77 b» 79 »
CONTROL DEVICE(S) OPERATING PARAMETERS
Test Series
No.
1
2
3
4
5
1
Stib-
•eries
No.
6
7
8
9
ID
Card
Nc.
11
D
D
0
D
D
D
D
D
D
D
0
0
D
D
D
D
U
D
D
U
12
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
13
5
5
5
5
5
5
5
5
5
5
5
5
5
S
5
5
5
5
5
5
f
14
tt
a
Sf
16
17
-Device No. (1,2 or 3)
Specification
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
j
37
38
39
40]
-------�
•vl
00
FINE PARTICLE EMISSIONS I NF ORMAII ON S YST t M
Form 4 9///
IIRI HIP. ItaOTd Tl»-yt M, »X 2IJ1I
CONTROL OEVICE(S) OPERATING PAfiAMtTtRS (confd)
Teit Series
No.
1
Sub-
terns
No.
CorJ
No.
0 0
D
D
D
D
D
D
0
D
D
0
0
0
0
0
0
0
0
0
5
5
5
5
5
5
5
S
5
5
f
o
Jl
-
—Device No. (t. 2 of 3)
Specification
-
-
-1
--
-
-
--
-
_
21
a
»
UAIA INPUT I-UKM:, |Fo,m Complete by
31
-
-
-
1
1
-)-
1
j
-
._
1
Value '
\ -
'
-
-
;
-
-
•
--
SUBSERIES REMARKS
Tcsl Ser
No.
es
1
\
Sob-
Mria
No.
Card
No.
O
0
D
O
D
D
D
F
D
D
D
0
D
D
D
0
0
0
0
1
1
1
1
1
1
1
1
1
1
2
6
7
8
9
0
I
2
3
4
5
6
7
a
9
0
Remarks in Text
IV
20
21
22
\
23
i i ""
24
25
26
-
27
28
19
j
X
31
12
33
34
35
36
37
58
3«
to
41
_J
_L
'
42
43
44
!
4S
46
47
48
49
3d
51
52
S3
M
tt
M
57
H
i9
60
tl
-
tf
61
64
63
46
«7
M
49
70
/
n
73
74
73J76
i
77
7»
n
•0
E - PAKTICULATE MASS T«A(N 8ESULTS
Test Series
No.
I 2
3
Sub-
seriflf
No.
t|M
1
Cord
No.
II
12
E 0
13
1
14
13
Front Half
16
17
]»
•
19
20
21
22
E
23
*-
24
a
Total
26
(7
a
•
29
30
31
1
32
E
33
t
^4
3!
Mass Train Comments (Text)
36
37
M
M
40
41
42
43144
|
4;
46
47
41
4t
59
51
52
53 54
J
55
M
57
51
S>
60
61
a
63
64
65
66
67
»
»
n
71
71
73
74
73
ft
77
nln
D
F - PASTICULATE PHYSICAL PROPERTIES
Test Series
No.
1 2
Sub-
Mriei
No.
1
K
Cord
No.
n
F
12
0
13
1
M
li
Density
16
17
It) 19
I
L 1
<"
20
— Determination —
Pesistivity*
21
22|2J
•1
24
25
+
26
27
1
21
2?
30
Other Physical Properties tn Text
31
32
33
34
35
It
37
36
3»|40|4I
1 1
42
43J44
4!
46
47
4)4?l5«51
n
52
53
M
55
56
57
It
5»
60
6i 'a
63
64
65
66
47
61
0
70
71
72
73
74
7S
'6
77
n
T» n
•Need not be filled if the precxding lubieries contains the same dm; ctwngel or modiriMtions should be entend as nenKarv. If dati
or information from preceding subsets is not applinble. use NA or 999; for sutneria following use of NA or 999 ohere data or in-
fonnation is available it mult be entered.
Oi
-------�
U.S. ENVIRONMENTAL PDOTECTION ACENCr
ItlUBTf Rtu«r^Tr«^,Nrt.l.C 27)11
FINE PASTICLE EMISSIONS I NFO B MATI ON S YST E M
DATA INPUT FORMS
Form 5b 2//B
ro»m Complvlt-d by
H •
- CHEMICAL
Test Series
No.
1
1
COMPOSITION
Sub-
series
No.
*|»
1
Card
No.
n
K
12
0
13
1
Entr/
Card
No.
II
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
12
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
13
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
t*
C
14
a
Vk
i",
i*'
1
16
(7
W 19 i
— Stokes/Aerodvrwmic/lnvactton Diameter (0, 1 . of 2}
i — Colib or Calc ( 1 or 0)
J Boundary
Diameter
•caul
n
M
Analysis I.C
Chemical I.D.
17
18 19 1
1
•0 21 22
23
24
M
>,-,
25
J»J27
1
26
26
r>
30
•
31
32
Moss Train Filter
or Pooled Stages
±
27
28
.
.
•
•
•
•
.
•
'•
•
•
•
•
29
30
31
32
1
1
1
•
•
•
.
•
•
.
•
•
•
•
•
•
•
.
>
•
•
•
•
•
o
33
34
35
36
•i
37
33
©
±
33
34
.
•
•
•
•
«
.
•
•
•
•
35
•
•
•
•
•
•
•
•
•
•
«
•
•
•
•
•
•
•
•
•
•
•
•
36
37
-
38
Partic e Boun
©
39
39
40
40
t
41
42
'
43
44
®
±
41 42
T
• i
. I
j •
.
.
•
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•
•
.
•
•
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•
•
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•
•
•
•
•
•
•
•
•
•
•
43
44
dory Diameter *
45 46
47
•
48
49
50
Chemica
45i 46J 47
•
•
•
.
•
•
•
•
•
•
•
•
•
•
•
•
•
•
1 •
•
48
•
•
«
•
•
•
•
.
•
•
•
•
•
•
49
50
®
51
52
53
•
54
55
56
Concentration
4-
51
52
.
•
•
.
•
.
•
•
•
•
•
>
•
«
•
•
•
•
•
.
•
•
•
•
•
•
•
•
•
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•
•
•
•
53
54 55
56
(D
57
58
59
•
60
61
62
/ig/rr,3)
®
±
57
sals?
.
•1
.
•
•
.
•
•
•
•
•
.
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•
.
.
•
.
•
.
»
.
•
.
•
•
•
•
•
•
•
•
60
61
62
63
64
-------�
iO
uTa^»oi^iau.rmfci,oHi^ri FINE PARTICLE EMISSIONS INFORMATION SYSTEM
lERl'^F HMi.cSiTrt.1* fertile n GBICT DATA NPUT FORMS
I - MEASUREMENT PARTICULARS
Test
No.
i
Series
I
Sub-
tenet
No.
kun
No.
Cord
No.
1
0
1
Card
No.
II
I
12
0
13
2
Cord
No.
[77
I
1
!
12
0
0
0
13
3
4
5
f
14
*4
*3
ITS
- Measurement Instrument/Method No.
Measurement Instrument/Method Nome
K
21 22,
23
24 '25
Measurement Size Range
Lower
16
17
t
18
19
20
Upper
21 22
i
23
24
25
26
27
28
29
X
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
Meos.
Start Time
46
47
48
49
Sampling
Period **
50
51
52
53
54
Aerosol
Flow Rote
55
56
57
58
59
60
Form 6 « '7
Form Completed by
Gos Conditions at
Measurement Location
Temp.
61
62
63
64
Press.
65
6*
67
68
69
"-- HjO
78
'1
»J
7J
M
a
Dilution
Factor"
76
77
78
79
80
**
Collection Surface/Substrate and its Specifications
26
27
28
29
M
31
32
33
34
35
36
37
38
39
40
41
Comments on the Measurement
6
17
IB
19
20
21 22
i
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
«
42
43
44
45
46
47
48
49
50
SI
52
53
54
55
56
57!
58
59
<0
61
62
63
64
6S
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
41
43
44
45
46
47
48
49
I
50
51
52
53
54
55
56
57
58
59
to
61
62
63
64
65
tt
67
68
69
70
71
72
73
74
75
76
77
78
79
80
J - PARTICULATE SIZE DISTRIBUTION DATA
Test Series
No.
1
1
Sub-
series
No.
Run
No.
10
Card
No.
11
J
J
J
12
fl
0
0
13
1
2
3
Card
No.
n
J
J
J
12
0
0
0
13
4
5
6
I
14
r
14
r
15
r
15
—Measurement Instrurr
— Stokes/ Aerodynom
1*1 17
18
19
20
•
•
•
21
22
23
— Measurement Inttrumc
—Mass/No. (1 or 0)
+
l«
17
18
19
• i
• I
•|
20
21
22
23
•nt/Method No.
c/lmpaction Diamere
M
35
26
27
28
•
•
•
29
30
31
nt/Method No.
-f
ft
25
26
•
•
•
27
28
29
30
31
r (0. 1. or 2)
u
i
i
i
*i
!si^
^
m
34
35
36
•
•
•
37
38
39
+
K
33
34
•
•
•
35
36
37
38 b.
r
Particle
»
7»
1
H
M
•Need not be (MM if the preceding subsorio or run with this imtrument/melhod contain! the same data; changes or modifications
should be antarad as neoanary. If data or information from praoading uibseries or run it not applicable, uw MA or 999; for sub-
series or run following me of N A or 999 where data or information is available it must be entered.
I
n
r-»
vO
00
I
•vl
-------�
UG-6.2-1
6.2 Example of FPEIS SERIES Report Output
This section includes a typical FPEIS Series Report* The use of SRC-1 (see
Section 5*1) would result in the printing of one such report, while the use
of SRC-2 (see Section 5*2) would result in the printing of many such reports*
June 1978
-------�
FINE PARTICLE EMISSIONS INFORMATION SYSTEM
FPE1S SERIES REPORT
TEST SERIES NO:
46 TEST SER1KS AT SITE FROM 09211973 TO 10051973 BY YOST, K.J. ET AL, PURDUE UNIVERSITY
REFERENCE: PROGRESS REPORT NSF(RANN) GRANT GI-35106
SOURCE CHARACTERISTICS-
NEDS SCC SOURCE CATEGORY:
TYPE OF OPERATION:
FEED MATERIAL CLASS:
OPERATING MODE CLASS:
SOLID WASTE
GOVERNMENT
SITE NAME NICOSIA MUNICIPAL INCINERATOR
SOURCE NAME FURNACE NO. 1
ADDRESS GARY AVENUE
EAST CHICAGO , IN
UTM ZONE 16 UTM X-COORD . UTM Y-COORD .
TEST SERIES REMARKS-
CONTROL DEVICE(S) CHARACTERISTICS —
UNIT 1
DEVICE GENERIC TYPE: SETTLING CHAMBER
CATEGORY:
CLASS: CONVENTIONAL
DESCRIPTION:
COMMERCIAL NAME:
MANUFACTURER:
I
CONTROL DEVICE DESIGN SPECIFICATIONS
8
10
to
-------�
TEST SERIES NO: 46 TEST SERIES AT SITE FROM 09211973 TO 10051973 BY YOST, K.J. ET AL, PURDUE UNIVERSITY
UNIT 2
DEVICE GENERIC TYPE: SPRAY CHAMBER COMMERCIAL NAME:
CATEGORY: MANUFACTURER:
CLASS:
DESCRIPTION:
CONTROL DEVICE DESIGN SPECIFICATIONS
TEST SERIES NO: 46 TEST SERIES AT SITE FROM 09211973 TO 10051973 BY YOST. K.J. ET AL, PURDUE UNIVERSITY
UNIT 3
DEVICE GENERIC TYPE: WET SCRUBBER COMMERCIAL NAME:
CATEGORY: PLATE MANUFACTURER:
CLASS: CONVENTIONAL
DESCRIPTION:
CONTROL DEVICE DESIGN SPECIFICATIONS
! »
vO ON
00
10
-------�
TEST SERIES NO:
46 SUB-SERIES NO: 1 TEST LOCATION: 0
SUB-SERIES TEST DATE: 09211973 FROM TO HOURS
TEST CHARACTERISTICS-
SOURCE OPERATING MODE:
FEED MATERIAL:
SOURCE OPERATING RATE:
FEED MATERIAL COMPOSITION:
PCT UKSIGN CAP:
PERCENT ISOKINETIC SAMPLING- 10(1
SAMPLING LOCATION DESCRIPTION: 8 STACK DIA FROM THE ID FAN INLET
PROCESS CONDITIONS AT SAMPLING LOCATION
VOL. FLOW RATE- 28.2 DNM3/S VELOCITY- 16.8 M/S TEMPERATURE- 71 C PRESSURE- MM HG
CAS COMPOSITION
HATER VAPOR (PERCENT BY VOLUME)- .
ORSAT ANALYSIS— C02 - .Z CO - .X 02 » . X N2 - .1
TRACE GASES (PPM):
SUB-SERIES REMARKS-
I
(D
-J
00
PARTICULATE MASS TRAIN RESULTS
FRONT HALF- 4.117E+OS TOTAL- .E+
MASS TRAIN REMARKS:
PARTICULATE PHYSICAL PROPERTIES
DENSITY- 1.000'C/CM3 (ASSUMED ) RESISTIVITY- E+ OHM-CM (
OTHER PHYSICAL PROPERTIES:
-------�
TEST SERIES MO:
46 SUB-SERIES NO: 1 TEST LOCATION: 0
CHEMICAL ANALYSIS-
PARTICLE DIAMETERS IN MICROMETERS
STAGE NUMBER: 0123
PARTICLE DIAMETER BOUNDARY: 20.OOO 16.480 10.220 6.800
DIAMETER BASIS - CLASSIC AERODYNAMIC DEFINITION
4 5 6 ; 8
4.660 3.010 l.SSO .960 .660
CALCULATED BOUNDARY DIAMETERS
CHEMICAL DATA ARE LISTED IN THE FOLLOWING ORDER:
SAROAD NUMBER MEG NUMBER CHEN ABSTRACTS REG. NO.
PREFERRED NAME
OTHER NAMES COMMONLY USED
EMPIRICAL FORMULA MOLECULAR WEIGHT
ANALYSIS METHOD
CONCENTRATION (UG/M3) BY STAGE
2110
CADMIUM
CD
ATOMIC ABSORPTION
2128 46AOOO
LEAD
CH PLUMBUM
g PB
(D ATOMIC ABSORPTION
^ 2167 81AOOO
vO ZINC
ZN
ATOMIC ABSORPTION
2114 78AOOO
COPPER
CUPRUM
CU
ATOMIC ABSORPTION
CHEMICAL DATA
82AOOO . 07440-43-9
112.42
00
07439-92-1
207.22
07440-66-6
65.38
07440-50-8
63.55
FILTER STAGE STAGE STAGE STAGE STAGE STAGE STAGE STAGE
/TOTAL 12345678
6.34+0 2.11-1 2.11-1 7.6H-0 1.23+1 6.34+0 1.23+1 4.67+1
2.11 + 0 2.U+0 2.11+0 2.11+0 9.51+1 2.24+2 5.14+2 1.29 + 3
2.28+2 1.23+2 9.51+1 7.19+1 1.29+2 1.61+2 4.93+2 1.35+3
2.11-1 2.11-1 2.11-1 2.11-1 2.11-1 1.33+1 1.86+1 2.68+1 ^
-------�
TEST SERIES NO:
46 SUB-SERIES NO: 1 TEST LOCATION: 0
RUN NUMBER: 01
MEASUREMENT PARTICULARS
MEASUREMENT INSTRUMENT/METHOD NO: I NAME: ANDERSEN IMPACTOR
COLLECTION SURFACE/SUBSTRATE:
MEASUREMENT START TIME: SAMPLING PERIOD: 0004.3 MIN SAMPLING RATE: 0011.06 L/M1N
GAS SAMPLING CONDITIONS- TEMPERATURE: C PRESSURE: MM HG PCT. WATER VAPOR: .
COMMENTS ON THE MEASUREMENT
SIZE RANGE- .030 TO 20.000 MICROMETERS
DILUTION FACTOR: 0001.0
DIAMETER BASIS -
CONCENTRATION BASIS - MASS
CLASSIC AERODYNAMIC DEFINITION
PARTICLE SIZE DISTRIBUTION DATA-
§
00
04
STOKES-DIA (UM)
CLASSIC
AERODYNAMIC DIA (UM)
AERODYNAMIC
IMPACTION UIA (UM)
BNDRY
20.000
16.480
10.220
6.800
4.660
3.010
1.550
.960
.660
.030
MID PT
18.155
12.978
8.336
5.629
3.745
2.160
1.220
.796
. 141
BNDRY
20.000
16.480
10.220
6.800
4.660
3.010
1.550
.960
.660
.030
MID PT
18.155
12.978
8.336
5.629
3.745
2. 160
1.220
.796
.141
BNDRY
20.081
16.561
10.301
6.881
4.740
3.090
1.629
1.038
.737
.076
MID PT
18.236
13.061
8.419
5.711
3.827
2.244
1.300
.874
.236
TOTAL MASS
1.163+05
TOTAL NUMBER
1.335+05
CALCULATED BOUNDARY DIAMETERS
DM
(UG/DNM3)
2
1
I
8
1
8
I
3
0
. 114+04
.057+04
.057+04
.457+03
.480+04
.457+03
.057+04
.171+04
.000
DM/DLDAE
(UG/DNM3)
2.
5.
5.
5.
7.
2.
5.
1.
0.
514+05
094+04
974+04
153+04
797+04
934+04
080+04
949+05
000
ON
(NO/CM3)
6
9
3
9
5
1
1
I
0
.747+00
.236+00
.484+01
.055+01
.381+02
.603+03
. 112+04
.201+05
.000
DN/DLDAE
(NO./CM3)
8
4
1
5
2
5
5
7
0
.025+01
.451+01
.969+02
.517+02
.835+03
.561+03
.345+04
.379+05
.000
CUM M I
LESS SIZE
81.819
72. 728
63.638
56.364
43.636
36.362
27.272
.000
.000
C
o
ON
ro
ON
-------�
UG-6.3-1
6.3 FPEIS Data Base Structure
Direct access to the FPEIS requires that the user have a working knowledge
of the SYSTEM 2000 Data Base Management System* The key to the sorting
and retrieval of data is the data base definition* This is a list of all
of the data elements which are identified by unique component numbers and
which are arranged in a hierarchical structure* Section 6*3*1, which fol-
lows, gives the SYSTEM 2000 data base definition for the FPEIS*
June 1978
-------�
UG-6.3-2
6.3.1 SYSTEM 2000 Data Base Structure
10* FPEIS (name X (5))
50* Category (KG)
100* Source category (name X (17) in 50)
110* Source characteristics (BG in 50)
120* Type of operation (name X (17) in 110)
130* Feed material class (name X (17) in 110)
140* Operating mode class (name X (20) in 110)
150* Source name (name X (25) in 110)
160* Site name (name X (40) in 110)
170* Zone location (integer number 99 in 110)
180* UTM-X (decimal number 999.9 in 110)
190* UTM-Y (decimal number 9999.9 in 110)
200* Address (nonkey name X (20) in 110)
210* City (name X (18) in 110)
220* State (name XX in 110)
230* Zip code (nonkey integer number 9(5) in 110)
300* Test series (R3 in 110)
310* Test series number (integer number 9(5) in 300)
320* Test series reference (name X (60) in 300)
330* Name of testing group (name X (50) in 300)
340* Series start date (nonkey date in 300)
350* Series finish date (nonkey date in 300)
355* Date FPEIS entry (date in 300)
360* Test series remark 1 (nonkey text X (65) in 300)
361* Test series remark 2 (nonkey text X (65) in 300)
362* Test series remark 3 (nonkey text X (65) in 300)
363* Test series remark 4 (nonkey text X (65) in 300)
364* Test series remark 5 (nonkey text X (65) in 300)
365* Test series remark 6 (nonkey text X (65) in 300)
366* Test series remark 7 (nonkey text X (65) in 300)
June 1978
-------�
UG-6.3-3
367* Test series remark 8 (nonkey text X (65) in 300)
368* Test series remark 9 (nonkey text X (65) in 300)
369* Test series remark 10 (nonkey text X (65) in 300)
400* Control devices (HG in 300)
410* Generic device type (name X (20) in 400 with many
future additions)
420* Device class (name X (12) in 400 with many future
additions)
430* Device category (nonkey text X (33) in 400)
440* Device commercial name (name X (30) in 400)
450* Manufacturer (name X (30) in 400)
460* Device description 1 (nonkey text X (60) in 400)
461* Device description 2 (nonkey text X (60) in 400)
500* Design specification (RG in 400)
510* Device number (integer number 9 in 500 with many
future additions)
520* Specification number 2 (integer number 99 in 500)
530* Specification type (nonkey name X (30) in 500)
540* Specification value (nonkey name X (20) in 500)
600* Test characteristics (RG in 300)
610* Subseries number (integer number 999 in 600)
620* Subseries test date (nonkey date in 600)
630* Subseries start time (nonkey integer number 9(4)
in 600)
640* Subseries stop time (nonkey integer number 9(4)
in 600)
650* Sampling location (name X in 600 with many future
additions)
660* Sampling location description (name X (40) in 600)
670* Source operating mode (nonkey text X (30) in 600)
680* Source operating rate (nonkey text X (17) in 600)
June 1978
-------�
UG-6.3-4
690* Percent design capacity (nonkey decimal number 999.9
in 600)
700* Source feed material (nonkey text X (30) in 600)
710* Feed material composition (nonkey text X (35) in
600)
720* Volumetric flow rate (nonkey decimal number 9(5).9
in 600)
730* Gas velocity sampling location (nonkey decimal num-
ber 999.9 in 600)
740* Gas temperature sampling location (nonkey integer
number 9999 in 600)
750* Pressure sampling location (nonkey integer number
9(5) in 600)
760* Moisture content (nonkey decimal number 99.9 in
600)
770* Percent isokinetic sampling (nonkey integer number
999 in 600)
780* CO-2 (decimal number 99.99 in 600)
781* CO (decimal number 99.99 in 600 with many future
additions)
782* 0-2 (decimal number 99.99 in 600)
783* N-2 (decimal number 99.99 in 600 with some future
additions)
790* Trace gases in PPM (nonkey text X (49) in 600)
800* Mass train - total mass concentration mantissa (non-
key decimal number 99.999 in 600)
810* Mass train - total mass concentration exponent (non-
key integer number 99 in 600)
820* Mass train - front half mass concentration mantissa
(nonkey decimal number 99.999 in 600)
830* Mass train - front half mass concentration exponent
(nonkey integer number 99 in 600)
June 1978
-------�
UG-6.3-5
840* Mass train comments (nonkey text X (45) in 600)
850* Density (decimal number 99.99 in 600)
860* Density determination (nonkey text X in 600)
870* Resistivity-mantissa (nonkey decimal number 9.99
in 600)
880* Resistivity-exponent (nonkey integer number 99 in
600)
890* Resistivity determination (nonkey text X in 600)
900* Physical properties comments (nonkey text X (50)
in 600)
910* Subseries remark-1 (nonkey text X (65) in 600)
911* Subseries remark-2 (nonkey text X (65) in 600)
912* Subseries remark-3 (nonkey text X (65) in 600)
913* Subseries remark-4 (nonkey text X (65) in 600)
914* Subseries remark-5 (nonkey text X (65) in 600)
915* Subseries remark-6 (nonkey text X (65) in 600)
916* Subseries remark-7 (nonkey text X (65) in 600)
917* Subseries remark-8 (nonkey text X (65) in 600)
918* Subseries remark-9 (nonkey text X (65) in 600)
919* Subseries remark-10 (nonkey text X (65) in 600)
920* Subseries remark-11 (nonkey text X (65) in 600)
921* Subseries remark-12 (nonkey text X (65) in 600)
922* Subseries remark-13 (nonkey text X (65) in 600)
923* Subseries remark-14 (nonkey text X (65) in 600)
924* Subseries remark-15 (nonkey text X (65) in 600)
1000* Control device operating parameters (RG in 600)
1010* Control device number (integer number 9 in 1000
with many future additions)
1020* Parameter number 2 (integer number 99 in 1000 with
many future additions)
1030* Parameter type (nonkey name X (50) in 1000)
1040* Parameter value (nonkey name X (20) in 1000)
June 1978
-------�
UG-6.3-6
1100* Bioassay analysis (EG in 600)
1110* Bioassay test type (name X (20) in 1100)
1120* Bioassay test remarks (nonkey name X (45) in 1100)
1200* Chemical calibration/calculation (integer number
9 in 600)
1205* Diameter basis (integer number 9 in 600)
1210* Upper boundary limit (nonkey decimal number 99.999
in 600)
1220* Stage-1 limit (nonkey decimal number 99.999 in 600)
1230* Stage-2 limit (nonkey decimal number 99.999 in 600)
1240* Stage-3 limit (nonkey decimal number 99.999 in 600)
1250* Stage-4 limit (nonkey decimal number 99.999 in 600)
1260* Stage-5 limit (nonkey decimal number 99.999 in 600)
1270* Stage-6 limit (nonkey decimal number 99.999 in 600)
1280* Stage-7 limit (nonkey decimal number 99.999 in 600)
1290* Stage-8 limit (nonkey decimal number 99.999 in 600)
1400* Chemical analysis (RG in 600)
1405* Chemical entry code (name X in 1400)
1410* Chemical ID (name X (10) in 1400)
1420* Analysis method (name XX in 1400)
1430* Filter/total (nonkey text X (6) in 1400)
1432* Stage-1 (nonkey text X (6) in 1400)
1434* Stage-2 (nonkey text X (6) in 1400)
1436* Stage-3 (nonkey text X (6) in 1400)
1438* Stage-4 (nonkey text X (6) in 1400)
1440* Stage-5 (nonkey text X (6) in 1400)
1442* Stage-6 (nonkey text X (6) in 1400)
1444* Stage-7 (nonkey text X (6) in 1400)
1446* Stage-8 (nonkey text X (6) in 1400)
1500* Run group (RG in 600)
June 1978
-------�
UG-6.3-7
1505* Run number (Integer number 99 in 1500 with many
future additions)
1510* Measurement instrument/method number (integer num-
ber 9 in 1500 with many future additions)
1520* Measurement instrument/method name (name X (30)
in 1500 with many future additions)
1530* Measurement start time (nonkey integer number 9999
in 1500)
1540* Sampling period duration (nonkey decimal number
9999.9 in 1500)
1550* Sampling flow rate (nonkey decimal number 9999.99
in 1500)
1560* Sampling train temperature (nonkey integer number
9(4) in 1500)
1570* Sampling train pressure (nonkey integer number 9(5)
in 1500)
1580* Percent moisture (nonkey decimal number 99.9 in
1500)
1590* Dilution factor (nonkey decimal number 9(4).9 in
1500)
1600* Measurement size range - lower limit (decimal num-
ber 99.999 in 1500 with many future additions)
1610* Measurement size range - upper limit (decimal num-
ber 99.999 in 1500 with many future additions)
1620* Collection surface/substrate (nonkey text X (55)
in 1500)
1630* Run remark-1 (nonkey text X (65) in 1500)
1631* Run remark-2 (nonkey text X (65) in 1500)
1632* Run remark-3 (nonkey text X (65) in 1500)
1640* Particle diameter basis (integer number 9 in 1500
with many future additions)
June 1978
-------�
UG-6.3-8
1645* Concentration basis (integer number 9 in 1500)
1650* Upper diameter boundary (decimal number 9(3).9(3)
in 1500)
1700* Particle size distribution data (EG in 1500)
1710* Diameter boundary (decimal number 9(2).9(3) in 1700
with some future additions)
1715* Calibration/calculation (nonkey integer number 9
in 1700)
1720* Concentration value - mantissa (nonkey decimal number
9.999 in 1700)
1730* Concentration value - exponent (nonkey integer number
99 in 1700)
1800* SAROAD table (RG)
1810* SABDAD number (integer number 9(4) in 1800)
1820* MEG number (name X (6) in 1800)
1830* CAS number (name X (10) in 1800)
1840* Preferred name (nonkey name X (50) in 1800)
1850* Synonyms (BG in 1800)
1851* Other names (nonkey name X (50) in 1850)
1860* Empirical formula (nonkey name X (20) in 1800)
1870* Molecular weight (decimal number 9(4).9(2) in 1800)
1900* Chemical analysis type table (BG)
1910* Chemical analysis code (name X in 1900)
1920* Chemical analysis method (name X (75) in 1900)
June 1978
-------�
UG-6.4-1
6.4 Key/Nonkey Data Elements
Data elements in a SYSTEM 2000 data base may be either KEY or MONKEY. This
designation determines whether a particular data element may be accessed
directly or must be qualified by including additional information. KEY
elements may be selected directly; NONKEY elements require qualification
by a KEY element. For example, the data element GENERIC DEVICE TYPE is
KEY and may be used to directly access the data of interest, such as in
the following:
PRINT TEST SERIES NUMBER WHERE GENERIC DEVICE TYPE EQ ESP:
If, however, the data element is NONKEY as in the case of SERIES START
DATE, then qualification will be required:
IF SERIES START DATE GT 1/1/76 THEN PRINT TEST SERIES NUMBER WHERE
NAME OF TESTING GROUP EQ XYZ LABORATORY:
In this case, the KEY element, NAME OF TESTING GROUP, is used to qualify
the request regarding a NONKEY element.
Sections 6.4.1 and 6.4.2 which follow list the KEY and NONKEY data ele-
ments, respectively, along with their SYSTEM 2000 component numbers.
June 1978
-------�
UG-6.4-2
6.4.1 KEY Data Elements
Component Number
100
120
130
140
150
160
170
180
190
210
220
310
320
330
355
410
420
440
450
510
520
610
650
660
780
781
782
783
850
1010
1020
1110
Data Element
Source Category
Type of Operation
Feed Material Class
Operating Mode Class
Source Name
Site Name
Zone Location
UTM-X
UTM-Y
City
State
Test Series Number
Test Series Reference
Name of Testing Group
Date FPEIS Entry
Generic Device Type
Device Class
Device Commercial Name
Manufacturer
Device Number
Specification Number 2
Subseries Number
Sampling Location
Sampling Location Description
CO-2
CO
0-2
N-2
Density
Control Device Number
Parameter Number 2
Bioassay Test Type
June 1978
-------�
UG-6.4-3
Component Number
1200
1205
1405
1410
1420
1505
1510
1520
1600
1610
1640
1645
1650
1710
1810
1820
1830
1870
1910
1920
Data Element
Chemical Calibration/Calculation
Diameter Basis
Chemical Entry Code
Chemical ID
Analysis Method
Run Number
Measurement Instrument/Method Number
Measurement Instrument/Method Name
Measurement Size Range - Lower Limit
Measurement Size Range - Upper Limit
Particle Diameter Basis
Concentration Basis
Upper Diameter Boundary
Diameter Boundary
SABOAD Number
MEG Number
CAS Number
Molecular Weight
Chemical Analysis Code
Chemical Analysis Method
June 1978
-------�
UG-6.4-4
6.4.2 NONKEY Data Elements
Component Number
200
230
340
350
360-369
430
460-461
530
540
620
630
640
670
680
690
700
710
720
730
740
750
760
770
790
800
810
820
830
Data Element
Address
Zip Code
Series Start Date
Series Finish Date
Test Series Remark 1-10
Device Category
Device Description 1 and 2
Specification Type
Specification Value
Subseries Test Date
Subseries Start Time
Subseries Finish Time
Source Operating Mode
Source Operating Rate
Percent Design Capacity
Source Feed Material
Feed Material Composition
Volumetric Flow Rate
Gas Velocity Sampling Location
Gas Temperature Sampling Location
Pressure Sampling Location
Moisture Content
Percent Isokinetic Sampling
Trace Gases in PPM
Mass Train - Total Mass Concentration
Mantissa
Mass Train - Total Mass Concentration
Exponent
Mass Train - Front Half Mass Concentra-
tion Mantissa
Mass Train - Front Half Mass Concentra-
tion Exponent June 1978
-------�
UG-6.4-5
Component Number
840
860
870
880
890
900
910-924
1030
1040
1120
1210
1220
1230
1240
1250
1260
1270
1280
1290
1430
1432
1434
1436
1438
1440
1442
1444
1446
Data Element
Mass Train Gorments
Density Determination
Resistivity - Mantissa
Resistivity - Exponent
Resistivity Determination
Physical Properties Comments
Subseries Remark 1-15
Parameter Type
Parameter Value
Bioassay Test Remarks
Upper Boundary Limit
Stage - 1 Limit
Stage - 2 Limit
Stage - 3 Limit
Stage - 4 Limit
Stage - 5 Limit
Stage - 6 Limit
Stage - 7 Limit
Stage - 8 Limit
Filter/Total
Stage - 1
Stage - 2
Stage - 3
Stage - 4
Stage - 5
Stage - 6
Stage - 7
Stage - 8
June 1978
-------�
UG-6.4-6
Component Number Data Element
1530 Measurement Start Time
1540 Sampling Period Duration
1550 Sampling Flow Rate
1560 Sampling Train Temperature
1570 Sampling Train Pressure
1580 Percent Moisture
1590 Dilution Factor
1620 Collection Surface/Substrate
1630-1632 Run Remark 1, 2, and 3
1715 Calibration/Calculation
1720 Concentration Value - Mantissa
1730 Concentration Value - Exponent
1840 Preferred Name
1851 Other Names
1860 Empirical Formula
June 1978
-------�
UG-6.5-1
6.5 Summary of Contents of the FPEIS Data Base
This section provides a summary of the contents of the FPEIS data base.
As new testing results are added to the FPEIS, this master listing will
be updated.
June 1978
-------�
Test Series
No.
•J
00
Report's Author and Name
Testing Equipment
Source
Control Equipment No. of Runs
Harris, D. B., and D. C. Drehroel,
"Fractional Efficiency of Metal
Fume Control as Determined by
Brink Impactor," EPA/CSL
(1973)
Harris, D. B., and D. C. Drehmel,
"Fractional Efficiency of Metal
Fume Control as Determined by
Brink Impactor," EPA/CSL
(1973)
Harris, D. B., and D. C. Drehmel,
"Fractional Efficiency of Metal
Fume Control as Determined by
Brink Impactor," EPA/CSL
(1973)
Harris, D. B., and D. C. Drehmel,
"Fractional Efficiency of Metal
Fume Control as Determined by
Brink Impactor," EPA/CSL
(1973)
Harris, D. B., and D. C. Drehmel,
"Fractional Efficiency of Metal
Fume Control aa Determined by
Brink Impactor," EPA/CSL
(1973)
Statnlck, R. H., "Measurement of
SC*2, Particulate, and Trace
Elements in a Copper Smelter
Converter and Roaster/
Reverberatory Gaa Streams,"
EPA/CSL
Statnick, R. M., "Measurement of
SC-2, Particulate, and Trace .
Elements in a Copper Smelter
Converter and Roaster/
Reverberatory Gas Streams,"
EPA/CSL
Brink lopactor
7,n Roaster
Wet ESP
Brink Impactor
Cu Converter
Wet ESP
Brink Impactor
Zn Sintering
Dry ESP
Brink Impactor
Pb Sintering
Baghouse (Orion)
Brink Impactor
Pb Blast Furnace
Baghouse (wool felt)
Brink and Andersen Impactors
Cu Roaster and Re-
verberatory Furnace
(ASARCO)
Dry ESP (pipe) and
Parallel Type ESP
Brink and Andersen Impactors Cu Converter
Plate Type ESP
ro
-------�
Test Series
Ho. -
Report'a Author and Ha
Testing Equipment
Source _ Control Equipment
No. of Runs
I
(t>
h-
NO
00
8 McCain. J. D., and U. B. Smith,
"Lone Star Steel Steam-Hydro
Air Cleaning System Evalua-
tion," EPA-650/2-74-028 (1974)
9 Cooper, D. W., and D. P. Andersen,
"Dynactor Scrubber Evaluation,"
GCA Corporation (1974)
10 Harris, D. B., "Tests Performed
at Celotex Corporation,
Goldaboro, North Carolina
11 Harris, D. B., and J. A. Turner,
"Participate and SO2/SO3 Mea-
surement Around aa Anthracite
Steam Generator Baghouse,"
EPA/CSL (1973)
12 HcKeona, J. D., "Applying Fabric
Filtration to Coal-Fired Indus-
trial Boilers: A Preliminary
Pilot Scale Investigation,"
Envlro-Systems and Research,
Inc. (1974)
13 Cowherd, C. et al., "Hazardous
Emission Characterization of
Utility Boilers," EPA-650/2-
75-066
15 Statnick, R. M., and D. C.
Drehmel, "Fine Partlculate
Control Using SX>2 Scrubbers,"
EPA (1974)
16 Statnick, R. M., and D. C.
Drehmel, "Fine Partlculate
Control Using SOj Scrubbers,"
EPA (1974)
Brink and Andersen Inpactors.
Optical Particle Counter
and Diffusion Battery
Andersen Impactor
Pllat Impactor
Brink Impactor
Andersen lapactor
Brink Impactor
Brink and Andersen Impactors
Brink and Andersen Impactors
Open Hearth Furnace lane Star Steel Stea
Hydro Scrubber
Test Aerosol from
Dust Feeder
Asphalt Roofing
Utility Boiler
Coal-Fired Utility
Boiler
Coal-Fired Utility
Boiler
Dynactor Scrubber
Afterburner
Pulverized Coal-Fired Baghouse
Boiler
Coal-Fired Industrial Baghouse
Boiler
Cyclone
TCA Scrubber
Venturi Scrubber
38
50
0»
•
ISI
I
-------�
Test Series
Ho.
I
(D
Report's Author and Name
Testing Equipment
Source
Control Equipment
No. of Runs
17 Statnick, R. M., and D. C.
Drehnel, "Fine Partlculate
Control Using SOj Scrubbers,"
EPA (1974)
18 Riggenbach, J. D., E. D. Johnson,
and M. K. Ramlin, "Measurement
of Particulate Grain Loadings,
Particle Size Distribution, and
Sulfur Gas Concentrations at
Hoerner Waldorf's Pulp and
Papennill No. 3 Recovery Sys-
tem, Vols. I, II, and III, En-
vironmental Science and Engi-
neering, Inc.
19 Shannon, L. J. et al., "St. Louis/
Union Electric Refuse Firing
Demonstration Air Pollution Test
Report"
20 McCain, J. D., "Evaluation of
Aronetics Two-Phase Jet Scrub-
ber," EPA-650/2-74-129
21 Bosch, J. C., M. J. Pilat, and
B. F. Hrutflord, "Size Distri-
bution of Aerosols From a Kraft
Mill Recovery Furnace," Tappl,
54(11):1871 (1971)
22 McCarry, F. J., and C. J.
Gregory, "A Comparison of the
Size Distribution of Partlcu-
lates Emitted from Air, Me-
chanical, and Steam Atomized
Oil-Fired Burners," JAPCA.
22(8):636 (1972)
Brink and Andersen Impactors Oil-Fired Boiler
Brink Impactor
Pulp and Papermill
Recovery Boiler
Venturl MgO Scrubber
ESP
Brink and Andersen Impactors
Brink and Andersen Impactors.
Optical Particle Counter,
Diffusion Battery + CNC
Pilat Impactor
Coal-Fired Utility
Boiler
Ferro-Alloy Electric
Arc Furnace
Kraft Mill Recovery
Furnace
ESP
Aronetics Two-Phase
Jet Scrubber
ESP
26
Andersen Impactor
Air Atomized Oil-Flred ESP
Boiler
Ov
•
Ui
I
•P-
-------�
Teat Series
(to.
Report's Author and Name
Testing Equipment
Source
Control Equipment
Ho. of Runs
23 HcCarry, F. J., and C. J.
Gregory, "A Comparison of the
Size Distribution of Partlcu-
lates Emitted from Air, Me-
chanical, and Steam Atomized
Oll-Fired Burners." JAPCA.
22(8) :636 (1972)
Andersen Impactor
Mecnanical Atomized
Oil-Fired Boiler
ESP
I
(D
»-"
vO
«»J
00
24 McGarry, F. J., and C. J.
Gregory, "A Comparison of the
Size Distribution of Partlcu-
lates Emitted from Air, Me-
chanical, and Steam Atomized
Oil- Fired Burners," JAPCA.
22(8) :636 (1972)
25 Lee, R. E., Jr., H. L. Crist,
A. E. Riley, and K. E. MacLeod,
"Concentration and Size of Trace
Metal emissions from a Power
Plant, a Steel Plant, and a Cot-
ton Gin," Env. Sci. and Tech.,
9(7):643 (1975)
26 Lee. R. E., Jr., H. L. Crist.
A. E. Rilejr, and K. E. MacLeod.
"Concentration and Sire of Trace
Metal Emissions from a Power
Plant, A Steel Plant, and a Cot-
ton Gin," Env. Sci. and Tech..
9(7):643 (1975)
27 Lee. R. E., Jr., H. L. Crist.
A. E. Riley, and K. E. MacLeod,
"Concentration and Size of Trace
Metal Emissions from a Power
Plant, a Steel Plant, and a Cot-
ton Gin," Env. Sci. and Tech..
9(7):643 (1975)
Andersen Impactor
Steam Atomized Oll-
Fired Boiler
ESP
UW Mark III Impactor
Emissions from a Power ESP
Plant
Mark III Impactor
Emissions from a Steel
Plant
Baghouse
UW Hark III Impactor
Emissions from a Cot-
ton Gin
Wet Scrubber
/I
a,
-------�
Test Series
Mo.
Report's Author and Name
Testing Equipment
Source
I
(D
28 "St. Louis/Union Electric Refuse
Fuel Project," MR1 Project No.
3821-C(4), January 1975
29 "St. Louis/Union Electric Refuse
Fuel Project," HRI Project No.
4033-C, Monthly Report No. I
30 "Test and Evaluation Program for
St. Louis/Union Electric Refuse
Fuel Project," MRI Project No.
4033-C, Monthly Report Mo. 4
31 "Test and Evaluation Program for
St. Louis/Union Electric Refuse
Fuel Project," MRI Project No.
4033-C, Monthly Report Ho. 11
32 Toca, F. M., "Lead and Cadmium
Distribution in the Participate
Effluent from a Coal-Fired
Boiler," Ph.D. Thesis, Uni-
versity of Iowa, Ames, Iowa,
July 1972
33 Baladi, E., "Particle Size Dis-
tribution Testa for Beker In-
dustrie* Corporation," KRI
Project No. 5-1379-C
34 Gooch, J. P., and J. D. McCain,
"Partlculate Collection Effici-
ency Measurements on a Wet
Electrostatic Precipitator,"
EPA-650/2-75-033
35 Bradway, R. M., and R. W. Case,
"Fractional Efficiency of a
Utility Boiler Baghouse," EPA-
600/2-75-013-a
Brink and Andersen Impactors
Brink and Andersen Impactors
Brink and Andersen Impactors
Brink and Andersen Impactors
Andersen Ambient Impactor
Brink Inpactor
Brink and Andersen Impactors.
Optical Particle Counter,
Diffusion Battery, and CN
Counter
Andersen Inpactor
Coal-Fired Utility
Boiler
Coal-Fired Utility
Boiler
Coal-Fired Utility
Boiler
Coal-Fired Utility
Boiler
Coal-Fired Boiler
Control Equipment
ESP
ESP
ESP
ESP
ESP
Ho. of Runs
Phosphate Rock Calciner Venturl Scrubber
Aluminum Reduction
Cells
Coal-Fired Boiler
ESP Preceded by Spray
Towers
Baghouse
67
12
43
19
17
86
J/t
-------�
Teat Series
Ho.
Report'a Author and Name
Testing Equipment
36 McKenna, J. D., J. C. Mylock, and
V. 0. Lipscomb, "Applying Fab-
ric Filtration to Coal-Fired
Industrial Boilers," EPA-650/2-
74-05B-a
Andersen Impactor
Source
Coal-Fired Boiler
Control Equipment Mo. of Runs
Baghouse 28
37 McKenna, J. 0., J. C. My lock, and
V. O. Lipscomb, "Applying Fab-
ric Filtration to Coal-Fired
Industrial Boilers," EPA-650/2-
74-058-a
Andersen Impactor
Coal-Fired Boiler
Baghouse
38 McKenna, J. D., J. C. Mylock, and
W. O. Lipscomb, "Applying Fab-
ric Filtration to Coal-Fired
Industrial Boilers," EPA-650/2-
74-058-a
Andersen Impactor
Coal-Fired Boiler
Baghouse
39 McKenna, J. 0., J. C. Mylock, and
W. 0. Llpaconb. "Applying Fab-
ric Filtration to Coal-Fired
Industrial Boilers," EPA-650/2-
74-058-a
40 McKenna, J. D., J. C. Mylock, and
V. 0. Lipscomb, "Applying Fab-
ric Filtration to Coal-Fired
Industrial Boilers," EPA-650/2-
74-058-a
41 McCain, J. D., "Evaluation of
Centrlfield Scrubber," EPA-650/
2-74-129-a
42 Cooper, D. W., "Pentapure Impinger
Evaluation," EPA-650/2-75-024-a
Andersen Impactor
Coal-Fired Boiler
Baghouse
11
Andersen Impactor
Coal-Fired Boiler
Brink and Andersen Inpactors,
Diffuslonal, Optical, and
Electrical Methods
Andersen Impactor
Asphalt Dryer
Gray Iron Foundry
Baghouse
1. Coarse Cyclone
2. Secondary Collector
3 . Scrubber
Pentapure Impinge r
31
12
I
\o
Ol
i
-------�
Teat Series
Mo.
Report's Author and Name
Testing Equipment
Source
Control Equipment
No. of Rune
43 Tost. K. J. et al., "The Environ-
mental Flow of Cadmium and
Other Trace Metals," Progress
Report NSF (RANN) Grant CI-
35106. Purdue University, West
Lafayette, Indiana
44 Tost. 1C. J. et al., "The Environ-
mental Flow of Cadmium and
Other Trace Metals," Progress
Report NSF (RAKN) Grant CI-
35106, Purdue University, West
Lafayette, Indiana
Andersen Impactor
Zinc Coke Plant
Andersen Impactor
Zinc Vertical Retort Baghouse
I
•si
00
45 Toat, K. J. et al.. "The Environ-
mental Flow of Cadmium, and
Other Trace Metals," Progress
Report NSF (RANN) Grant GI-
35106,Purdue University, West
Lafayette, Indiana
46 Yost, K. J. et al., "The Environ-
mental Flow of Cadmium and
Other Trace Metals," Progress
Report NSF (RAKN) Grant GI-
35106, Purdue University, West
Lafayettt. Indiana
48 Calvert, S., N. J. Jhaverl, and
S. Tung, "Fine Particle Scrub-
ber Performance Tests," EPA-
650/2-74-O93
49 Calvert, S., N. J. Jhaverl, and
S. Tung, "Fine Particle Scrub-
ber Performance Teats, EPA-
650/2-74-093
Andersen I*pactor
Steel Hill Open Hearth ESP
Furnace
Andersen lapactor
Municipal Incinerator Scrubber
UW Hark II and Andersen
Inpactora
UW Nark III and Andersen
Impactors
Urea Prilling Tower Valve Tray
Potash Dryer
Scrubber
12
17
I
0v
•
m
OD
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Tot Series
No.
Report'a Author and Hame
Testing Equipment
Source
Control Equipment
Ho. of Runs
50 Calvert, S., N. J. Jhaverl, and
S. Yung, "Fine Particle Scrub-
ber Performance Tests," EPA-
650/2-74-093
UW Hark III and Andersen
Impactora
Coal-Fired Boiler
TCA Scrubber
51 Calvert, S., N. J. Jhaverl, and
S. Yung, "Fine Particle Scrub-
ber Performance Tests," EPA-
650/2-74-093
UW Mark III and Andersen
Impactora
Coal-Fired Boiler
Venturl Scrubber
52 Calvert, S., N. J. Jhaverl, and
S. Yung, "Fine Particle Scrub-
ber Performance Tests," EPA-
650/2-74-093
UW Hark III and Andersen Salt Dryer
Impactora
Wetted Fiber Scrubber
16
r
A
S3 Calvsrt, S., N. J. Jhaverl, and
S. Yung, "Fin* Particle Scrub-
ber Performance Tests," EPA-
650/2-74-093
54 Calvert, S., H. J. Jhaverl, and
8. Yung, "Fine Particle Scrub-
ber Performance Testa," EPA-
650/2-74-O93
55 Calvirt, S. et ml., EPA-600/2-76-
282
56 EPA Contract No. 68-02-181*.
Bechtel Corporation, Son
Francisco, California
57 EPA Contract Mo. 60-02-1814,
Bechtal Corporation, San
Franclaco. California
58 Hunter, 8. C. et al., EPA Con-
tract Mo. 68-02-1074
UW Mark III and Anderaen
Impactors
UW Mark III and Anderaen
Imp actori
UW Hark III Impactor
MRI Model 1502 and Brink
Impactors
MRI Model 1502 and Brink
Impact on
Brink Impactor
Salt Dryer
Iron Wetting Cupola
Impingement Plate
Scrubber
Venturl Rod Scrubber
Cray Iron Process Wet Scrubber
Coal-Fired Boiler Wet Scrubber
Coal-Fired Boiler Wet Scrubber
Coal-Fired Boiler Rone
12
18
35
101
75
Ok
o>
I
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Test Series
No.
59
60
61
62
63
64
65
66
67
68
73
74
e-, 75
g
3
a>
,_,
*o
Report's Author and Name
Hunter, S. C. et al., EPA Con-
tract No. 68-02-1074
Hunter, S. C. et al., EPA Con-
tract No. 68-02-1074
Hunter, S. C. et al., EPA Con-
tract No. 68-02-1074
Hunter, S. C. et al., EPA Con-
tract No. 68-02-1074
Hunter, S. C. et al., EPA Con-
tract No. 68-02-1074
Hunter, S. C. et al., EPA Con-
tract No. 68-02-1074
Hunter, S. C. et al., EPA Con-
tract No. 68-02-1074
Hunter, S. C. et al., EPA Con-
tract No. 68-02-1074
Hunter, S. C. et al., EPA Con-
tract No. 68-02-1074
Ensor, D. S. et al., EPA-600/2-
75-074
Bradway, R. M. et al., EPA-600/
2-76-077A
Bradway. R. M. et al., EPA-600/
2-76-077A
Bradway, R. M. et al., EPA-600/
2-76-077A
Testing Equipment
Brink Impactor
Brink Impactor
Brink Impactor
Brink Impactor
Brink Impactor
.
Brink Impactor
Brink Impactor
Brink Impactor
Brink Impactor
Impactor and Wire Screen
Diffusion Battery
Andersen Impactor
Andersen and UM Mark III
Impactors
Andersen and UM Mark III
Impactors, Rich 100-CNC
Source
Residual OU-Flred
Boiler
Residual 011-Flred
Boiler
Residual Oil-Fired
Boiler
Residual Oil Boiler
Coal-Fired Boiler
Coal-Fired Boiler
Coal-Fired Boiler
Distillate Oil-Fired
Boiler
Residual Oil-Fired
Boiler
Coal-Fired Boiler
Nonclassified Boiler
Nonclassified Boiler
Nonclassified Boiler
Control Equipment No. of Runs
None 5
None 2
None 1
None 3
None 1
None 3
ESP 5
ESP 2
None 2
Wet Scrubber 33
Fabric Filter 38
Fabric Filter 39
Fabric Filter 82
O
1
ON
Ut
1
00
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Test Series
No.
Report's Author and Name
Testing Equipment
Source
_Control Equipment _
C-4
g
ffi
76 Cass, R. W., and J. E. Langley,
EPA-600/7-77-023
77
78
79
80
81
82
83
85
86
87
Rei. M. T., and D. W. Cooper,
EPA-600/2-76-202
Dennis. R. et al., EPA-650/2-74-
036
Werner, A. S. et al., EPA-600/7-
76-017
Nichols et al., "Collection Ef-
ficiency on Three ESP's," EPA-
600/2-75-056
Gooch, J. P. et al., SORI-EAS-76-
471, Draft, September 1976
Nichols, G. B. et al., SORI-EAS-
76-511
Gooch, J. f. et al., EPA-600/2-
76-141
Gooch, J. P. et al., EPA-600/2-
76-141
Nichols, G. B., and J. D. McCain,
EPA-600/2-75-056
McCain, J. D., "Evaluation of
Rexnord Gravel Bed Filter,"
EPA-600/2-76-164
UW Hark III and Andersen
Impactors, Rich 100-CNC,
Bauach and bomb Model
OPC
Andersen Impactor, Bauscn
and Lomb Model OPC, Rich
100-CNC
Andersen Impactor
UN Mark III Impactor
Brink Impactor, Other CCNC,
Andersen Impactor, ROYCO
Model OPC
Brink Inpactor, Whitby Elec-
trical Analyzer 3030,
Andersen Impactor
Brink Inpactor
Brink Impactor, Whitby Elec-
trical Analyzer Model 3030
Brink and UW Mark II
Impactors
Brink and Andersen Impactors
Electric Arc Furnace Fabric Filter
Laboratory Analysis Wet Scrubber
Prototype Test
Novel
Residual Oil Boiler Cyclone
Rotary Kiln in Cement ESP
Manufacture
Coal-Fired Boiler ESP
Copper Smelter ESP
Sulfate Pulping ESP
Sulfate Pulping ESP
Unclassified Boiler ESP
Andersen Impactor, Other CNC Clinker Cooler in Novel
Cement Manufacture
No. of Runs
332
52
32
22
Harriaburg Municipal Incinerator Brink and Andersen Impactors Solid Waste Incinerator ESP
23
13
12
49
10
f
00
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§
n
vO
00
Test Series
No.
88
89
90
91
98
99
100
101
10Z
103
104
105
106
Report's Author and Name
McCain, J. II., SORI-EAS-73-052
Gooch, J. P., and G. B. Nichols,
SORI-F.AS-77-098
EPA Contract No. 68-02-1869
EPA Contract No. 68-02-1869
Monsanto Research Corporation,
EPA Contract No. 68-02-1816
Monsanto Research Corporation,
EPA Contract No. 68-02-1816
Monsanto Research Corporation,
EPA Contract No. 68-02-1816
Monsanto Research Corporation,
EPA Contract No. 68-02-1816
Monsanto Research Corporation,
EPA Contract No. 68-02-1816
Monsanto Research Corporation,
EPA Contract No. 68-O2-1816
Monsanto Research Corporation,
EPA Contract No. 68-02-1816
Monsanto Research Corporation,
EPA Contract No. 68-02-1816
Monsanto Research Corporation,
EPA Contract No. 68-02-1816
Testing Equipment
Other
Brink and Andersen Impacfovs,
Wliitby Electrlr.il Analyzer
Model 3030
UW Mark III Impactor
IIW Mark III Inpactor, Wire
Screen Diffusion Battery
Brink Impactor
Brink Impactor
Andersen Impactor
Brink Irapactor
Brink Irapactor
Brink Irapactor
Brink Irapactor
Brink Irapactor
Andersen Inpactor
Ceramic/Clay Dryer
Coal-Fired Boiler
ControJ__B
-------�
Test Series
No.
Report's Author and Na
Testing Equipment^
Source
n>
vO
-J
00
107 Monsanto Research Corporation,
EPA Contract No. 68-02-1816
108 TRC
109 TRC
110 TRC
111 TRC
112 Coal and Refuse Test, SORI-EAS-
75-316
113 Confidential
114 McCain, J. D., and W. B. Smith,
Final Report, SORI-EAS-74-158
115 McCain, J. D. et al., SORI-EAS-
74-418 and SORI-EAS-75-062
116 Bird, A. N., SORI-EAS-73-124
117 Bird, A. N., SORI-EAS-73-200
118 Nichols, G. B., SORI-EAS-74-009
119 Nichols, G. B., Company Cor-
respondence, A1402-3005-IF
120 Nichols, G. B.. and J. D. McCain.
EPA-600/2-75-056
121 Nichols, G. B., and J. P. Cooch,
A1364-2975
Brink Impaotor
Sierra Impactor, Optical
Particle Counter
Sierra Impactor
Andersen Impactor
Sierra Impactor, Optical
Particle Counter
Andersen and Other Inpactor
Brink Impactor
Andersen Inpactor
Lime-Recovery Kiln
Coke-Gas Boiler
Bark-Fired Boiler
Incinerator
Coal-Fired Boiler
Solid Wastes Coal-
Fired Boiler
Steel Foundry
Unclassified Boiler
Andersen and Other Impactors, Coal-Fired Boiler
Other OPC
Brink Iropactor
Coal-Fired Boiler
Brink Impactor, Climet CMC, Steel Foundry
Other CNC
Brink and Andersen Impactors Unclassified Boiler
Brink Impactor Unclassified Boiler
Andersen and Other Impactors Unclassified Boiler
Brink Impactor
Unclassified Boiler
Conit ro 1_ Et^u I proo in
Mobile Fabric M I tor
None
Baghouse
Other
Cyclone
ESP
Mechanical Collector
Cyclone
ESP
Wet Scrubber
Hone
ESP
ESP
ESP
ESP
Ho. of Runs
12
9
2
20
52
7
7
69
12
8
10
6
24
10
I
«
Ol
I
I-1
UJ
-------�
Test Series
No.
Report's Author and Name
Testing Equipment
Source
123 McCain, J. D., SORI-EAS-73-127
124 McCain, J. D., SORI-EAS-73-127
127 Dlsmukes, E., SORI-EAS-75-311,
EPA-600/2-75-015
128 Dismukes, E., SORI-EAS-75-311,
EPA-600/2-75-015
Modified Brink Impactor
Modified Brink Impactor
Andersen trapactor, Other CNC
Modified Brink and Andersen
Impactors
Other/Not Classified
Mineral Wool Cupola
Unclassifed Boiler
Unclassified Boiler
_ Control Equlpmcnt
Cyclone
Cyclone
ESP
ESP
No. of Runs
8
6
15
47
I
(D
5
00
I
I-1
•p>
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UG-6.5-15
1. REPORT NO. 2.
EPA-600/8-7 8-006
4, TITLE AND SUBTITLE
Fine Particle Emissions Information System
User Guide
7. AUTHOR(S)
M.P. Schrag, Editor
9. PERFORMING ORGANIZATION NAME ANO ADDRESS
Midwest Research Institute
425 Volker Boulevard
Kansas City, Missouri 64110
12, SPONSORING AGENCY NAME AND ADDRESS
EPA, Office of Research and Development
Industrial Environmental Research Laboratory
Research Triangle Park, NC 27711
. RECIPIENT'S ACCESSION NO,
6. REPORT DATE
June 1978
8. PERFORMING ORGANIZATION CODE
8. PERFORMING ORGANIZATION REPORT NO.
10. PROGRAM ELEMENT NO.
EHE624A
11. CONTRACTA3RANT NO.
68-02-2641
13. TYPE OF REPORT AND.PERIOO COVERED
User Guidej 1-5/78
14. SPONSORING AGENCY COOt
EPA/600 /13
is. SUPPLEMENTARY NOTES jfiRL-RTP project officer is Gary L. Johnson, Mail Drop 63. 919/
541-2745. This Guide replaces EPA-600/2-76-172 in its entirety.
is. ABSTRACT The j^p^ jg y^ extensive user guide to the Fine Particle Emissions Infor-
mation System (FPEIS), a computerized database on primary fine particle emissions
TECHNICAL REPORT DATA
(Please read Instructions on the reverse before completing)
:o the atmosphere from stationary point sources. The FPEIS is a component of the
Environmental Assessment Data Systems (EADS) which is designed to aid research-
ers in environmental assessment and fine particle control technology development
activities. The FPEIS will contain source test data including particle size distribu-
tions; chemical, physical, and bioassay testing results performed on particulate
samples; design and typical operating data on particle control systems applied; pro-
cess descriptions of the sources; and descriptions of the sampling equipment and
techniques employed. The FPEIS, a successor to the MRI Fine Particle Inventory
developed in 1971, report gives detailed instructions for encoding FPEIS datasets,
along with a copy of the FPEIS data input form, ft discusses procedures which will
provide users with access to the FPEIS either by direct computer request for author-
ized National Computer Center (NCC) accounts or by written request to the EPA
project officer. It gives a list of standard data inquiry and retrieval requests, with
instructions for their use.
7.
KEY WORDS AND DOCUMENT ANALYSIS
a. DESCRIPTORS
Air Pollution Environmental
Instructions Biology
Dust
Data Storage
Sampling
Size Determination
1S. DISTRIBUTION STATEMENT
Unlimited
b.lDENTIFIERS/OPEN ENDED TERMS
Air Pollution Control
Stationary Sources
User Guide
Fine Particle Emissions
Information System
Fine Particulate
19. SECURITY CLASS (This Rtportf
Unclassified
20. SECURITY CLASS (Thb page)
Unclassified
c. COSATi Field/Group
13B
06F
11G
09B,05B
14B
21. NO. OF PAGES
301
22. PRICE
EPA Form 2220-1 (9-73)
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