-------
                                                                 UG-2.3-35
2.3.10  Section J -  Particulate  Size Distribution Data - Form 6
Card Columns      Data Element

  CARD J01   (REQUIRED CARD)*

    1-10       Data Identification
    14
    15
    16
    17-23
    24-25
    26-31
    32-33
    34-39
                             Encoding Instructions
                      Enter test series,  test subseries,
                      and test run numbers as on Card 101
Measurement Instru-   Enter the same integer as  on Card
ment/Method Number    101, Column 14.
Stokes/Aerodynamic/
Impaction Diameter
Blank

Particle Size Data
(Upper Boundary
Diameter)
Blank

Particle Size Data
(1st Stage Boundary
Diameter)
 Blank

 Particle Size Data
 (2nd Stage Boundary
 Diameter)
Enter the integer 0 for "Stokes" par-
ticle diameter, 1 for "aerodynamic"
particle diameter, 2 for "impaction"
particle diameter.

Leave blank*

Enter the upper boundary particle
diameter as a decimal number in units
of pn. The decimal point is specified.
This value, which depends on the aero-
sol and the sampling train, is usually
estimated (or chosen arbitrarily).

Leave blank.

Enter the particle boundary diameter
value as a decimal number in units
of U,m. This and  the remaining boundary
diameters should be entered in order
of decreasing particle diameter. The
decimal point  is specified. The num-
ber of digits  reported should repre-
sent the precision of the measurement.

Leave blank.

Same as  1st stage.
*  At  least  for the  first run of each measurement instrument/method.
                                                                 June  1978

-------
                                                                 UG-2.3-36
Card Columns      Data Element

  CAED J01 (continued)

    40-41      Blank
                             Encoding Instructions
    42-47



    48-49

    50-55



    56-57

    58-63



    64-65

    66-71



    72-73

    74-79



    80
Particle Size Data
(3rd Stage Boundary
Diameter)

Blank

Particle Size Data
(4th Stage Boundary
Diameter)

Blank

Particle Size Data
(5th Stage Boundary
Diameter)

Blank

Particle Size Data
(6th Stage Boundary
Diameter)

Blank
                      Leave blank.
Same as 1st stage.
Leave blank.
Same as 1st stage.
Leave blank.
Same as 1st stage.
Leave blank.
Same as 1st stage,
Leave blank.
Particle Size Data    Same as 1st stage.
(7th Stage Boundary
Diameter)

Calibrated or Cal-    Enter the integer 1 for "calibrated"
culated               boundary diameters, 0 for "calculated"
                      boundary diameters.
  CARDS J02  and  J03    (REQUIRED CARDS)*

    14-16      Blank                 Leave blank.
    17-23
    24-25
Particle Size Data    Same as 1st stage (if needed).
(Next Stage Boundary
Diameter)
Blank
Leave blank.
   At least  for  the  first run of each measurement instrument/method.
                                                                 June 1978

-------
                                                                 UG-2.3-37
Card Columns      Data Element

  CARDS J02 and JOS (continued)
                             Encoding Instructions
    26-31



    32-33

    34-39



    40-41

    42-47



    48-49

    50-55



    56-57

    58-63



    64-65

    66-71



     72-73

     74-79



     80

   CARD JO4

     14
 Particle Size Data     Same  as  1st  stage  (if needed).
 (Next Stage Boundary
 Diameter)
 Blank
Leave blank*
 Particle Size Data    Same as  1st stage  (if needed).
 (Next Stage Boundary
 Diameter)
 Blank

 Particle Size Data
 (Next Stage Boundary
 Diameter)

 Blank
Leave blank*

Same as 1st stage (if needed).



Leave blank.
 Particle Size Data    Same as 1st stage (if needed).
 (Next Stage Boundary
 Diameter)
 Blank
Leave blank.
 Particle Size Data    Same as 1st stage (if needed).
 (Next Stage Boundary
 Diameter)
 Blank
 Leave blank.
 Particle Size Data    Same as 1st stage (if needed)•
 (Next  Stage Boundary
 Diameter)
  Blank
 Leave blank*
  Particle Size Data    Same  as  1st  stage  (if needed).
  (Next Stage Boundary
  Diameter)
  Blank

(REQUIRED CARD)

  Measurement Instru-
  ment/Method Number
 Leave blank.
 Enter the same integer as on 101 and
 J01, card Column 14.
                             June 1978

-------
                                                                 UG-2.3-38
Card Columns     j)ata Element

  CASD J04 (continued)

    15         Mass/Number
    16

    17-23
    24

    25-31


    32

    33-39


    40

    41-47


    48

    49-55
Blank

Mass/Number Concen-
tration- 1st Stage
Blank

Mass/Number
tration-2nd

Blank

Mass/Number
tration-3rd

Blank

Mass/Number
t ration-4th

Blank

Mass/Number
tration-5th
Coneen-
Stage
Coneen-
Stage
Concen-
Stage
Coneen-
Stage
                             Encoding Instructions
Enter the integer 1 if the instrument/
method measures mass and enter 0 if
the instrument/method measures number*

Leave blank.

Enter the particle concentration in
scientific notation. The decimal point
is specified in the second column
of the field. The sign of the exponent
(either -*• or -) should be entered
in the fifth column and the exponent
as an integer (right-justified) in
the last two columns. This and sub-
sequent concentration values should
be entered in order of decreasing
particle diameter. Mass concentration
should be expressed in units of UK/
             1
dry normal m . Number concentration
should be expressed in units of number/
cm . The mass concentration for each
stage is calculated by dividing the
mass by the total volume (in dry nor-
mal m-*) sampled by the instrument.

Leave blank.

Same as 1st stage.
          Leave blank*
Same as  1st stage.
          Leave blank.
 Same  as  1st  stage.
          Leave blank.
 Same  as  1st  stage.
    56
 Blank
          Leave blank.
                                                                  June 1978

-------
                                                                 UG-2.3-39
Card Columns      Data Element              Encoding  Instructions

  CARD J04 (continued)

    57-63      Mass/Number Coneen-   Same as 1st stage.
               tration-6th Stage

    64         Blank                 Leave blank.

    65-71      Mass/Number Concen-   Same as 1st stage.
               tration-7th Stage

    72         Blank                 Leave blank.

    73-79      Mass/Number Concen-   Same as 1st stage.
               tration-8th Stage

    80         Blank                 Leave blank.

  CARDS JOS and J06   (REQUIRED CARDS)

    14-16      Blank                 Leave blank.

    17-23      Mass/Number Concen-   Same as 1st stage (if needed).
               tration-Next Stage

    24         Blank                 Leave blank.

    25-31      Mass/Number Concen-   Same as 1st stage (if needed).
               tration-Next Stage

    32         Blank                 Leave blank.

    33-39      Mass/Number Concen-   Same as 1st stage (if needed).
               tration-Next Stage

    40         Blank                 Leave  blank.

    41-47      Mass/Number Concen-   Same  as 1st stage (if needed).
               tration-Next Stage

    48        Blank                 Leave blank.

    49-55     Mass/Number Concen-   Same as  1st stage  (if  needed).
                tration-Next  Stage

     56         Blank                Leave blank.
     57-63      Mass/Number Concen-   Same as 1st stage (if needed).
                tration-Next Stage
                                                                   June 1978

-------
                                                                  UG-2.3f40
Card Columns      Data Element

  CARDS JOS and J06 (continued)

    64         Blank

    65-71      Mass/Number Concen-
               tration-Next Stage

    72         Blank

    73-79      Mass/Number Concen-
               tration-Next Stage

    80         Blank
       Encoding Instructions
Leave blank.
Same as 1st stage (if needed).
Leave blank*
Same as 1st stage (if needed),
Leave blank*
                                                                 June 1978

-------
   J - PARTICULAR SIZE DISTRIBUTION DATA
Test Serin
No.
1









<


k
\
Sub-
feriei
No.







2
Run
No.



10
2

Cord
No.
n
J
J
J
12
0
0
0
13
1
2
3
Cord
No.
^7
j
j
j
12
0
0
0
13
4
5
6
r
14
1


r
14
|


I"
IS
1


r
t5
f


—Measurement Insrrurr
— Stakes/ Aerod/"01"
I«|l7






IS
?


19
o


20
•
•
•
21
o


22
0


23



— Measurement Insfrum
—Mass/No. (1 or 0)
4-
M



17
3


ii
19
•9
•
•


20
ff


21
1-


22
c


n
£


•enr/Merhod No. |
c/lmpoction Diomefer (0, 1 , or 2)
I
J4



23



26
/


27
?

21
•
•
[•
29
7


X
1


31 Hi
OF

r
•nt/ Method No.
+
94



25
Z.


26
•
•
•
27
|


21
-------
                                                                 UG-3.0-1










                             SECTION 3







                      OFF-LINE REQUEST PROCEDURES




                             Contents




Number                         Item                             Page




List of Figures	 UG-3.0-2




3.0     Introduction	•	UG-3.0-3




3.1     Submittal of New Data	UG-3.1-1




3.2     Data Retrieval Using  System Request Commands • • • • • UG-3.2-1




3.3     Special Data Retrieval Requests*  ••••••••••• UG-3.3-1




3.4     FPEIS User Support	UG-3.4-1
                                                                 June 1978
-------
                                                                UG-3.0-2









                             SECTION 3







                          LIST OF FIGURES




Number                          Title                           Page




3.1-1     Sample FPEIS Data Submittal Acknowledgement Memo. •  UG-3.1-4




3*1-2     Sample FPEIS Data Submit tal Error Memo	UG-3.1-5




3*1-3     FPEIS Quality Assurance Program  ••«••••••.  UG-3.1-6
                                                                June 1978
-------
                                                                UG-3.0-3





3.0  Introduction



The purpose of this section and the  section to follow is to provide users



with instructions for submitting new data  for entry to the FFEIS and for



retrieving existing data from the FPEIS. In particular* Section 3 addresses



such procedures for those users who  do not have direct access to the EPA



National Computer Center at Research Triangle Park, North Carolina* Section



4 will discuss direct interactions with  the computer*





It is likely that many users of the  FPEIS  will have neither the time nor



the inclination to pursue the direct access methods described in Section
      •


4. Since federal regulations do not  permit the  sale of computer services



by government data centers like the  NCC, most users will not be authorized



to access the NCC unless they are under EPA  contract* For  this reason,  proce-



dures have been established which will enable  those  "off-line" users  to



retrieve information by written or telephone request  instead*





It should be noted that there is no charge for "off-line" data retrieval;



however, EPA makes no guarantee regarding the completeness of the data or



the promptness of  the response* In all likelihood, simple data requests



will be processed  quickly, but  the staff  response will depend upon their



current work  load  and on the complexity of the request* Special data re-



quests which  require computer program development will take longer* Reques-



ters will be  appraised  of  any  expected delays*
                                                                 June 1978
-------
                                                                 UG-3.1-1



3.1  Subniittal of New Data

All new source testing data for the FPEIS should be sent to the EPA project

officer, IERL/RTP, for input to the data base* These data must be encoded

on the FPEIS Data Input Forms in accordance with the data input instruc-

tions described previously, and punched on computer cards where directed*

The user shall also send a cover letter identifying each test series,  sub-

series, and run in the data set submitted*


Remember;  Unique Test Series Numbers will be assigned to each series  by

the FPEIS data base administrator from a master  file  listing*


Data for input to the FPEIS data base should be  sent  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


When the data  set has been received by IERL/RTP, a letter of acknowledge-

ment will be  sent to the  submitter (see Figure 3*1-1)* The letter will also

identify the unique Test  Series Number(s) assigned to his data set*


In some instances, however,  the Test Series Number(s) may be preassigned

to a  submitter prior  to the  encoding of the data* Usually a block (or range)

of Test Series Numbers will  be preassigned to a submitter when several po-

tential test  series have  been Identified from one submitter*
                                                                 June  1978
-------
                                                                  UG-3.1-2






The user is requested to exhibit care in the preparing of the data forms




in order to minimize the encoding of errors* Furthermore, all punched  cards




submitted must be verified prior to submitting them. While it is not ex-




pected that all data sets submitted will be error free, those which have




been encoded sloppily or not verified will be returned to the submitter




for correction (see Figure 3.1-2). In most cases, though, the corrections




will be implemented by the FPEIS Support Staff, subject to verification




by the encoder*






Figure 3*1-3 shows the principal steps in the FPEIS quality assurance  (Q&)




program for new data* Data are received and acknowledged by the FPEIS  Data




Base Administrator at Research Triangle Park* The data are then loaded into




a special edit file in the NCC UNIVAC 1100 computer. The edit checking of




the data are done by the FPEIS Support Staff (Midwest Research Institute).




The Support Staff will work directly with the data submitter to implement




any necessary changes to the test series* Ultimate approval for the data




are the responsibility of the submitter. No data will be entered into  the




data base until the submitter is satisfied with the data as shown  on the




EDIT report* The EDIT program} which produces the EDIT report for  user




review, takes the data submitted and adds automatically all repeating  data,




blank cards, etc*, in addition to checking for proper encoding and formatting




of data. The EDIT report produces a list of all the data submitted in  SERIES




report format (see Section 6*2 for example) and a list of all of the card




images in the data set*







                                                               June 1978
-------
                                                                 UG-3.1-3








After the data have been approved by the user  for  final verification, the




FPEIS UPDATE program will be used to load  the  data into the data base* Once




loaded, the data will be printed in  a SERIES report and sent to the user




for his records* Then, and only then, will the test series be available




for public access*
                                                                 June 1978
-------
                                                                 UG-3.1-4
Dr. John A. Doe
Ozone National Laboratory
1234 Anystreet Drive
Hometown, PA  12345

Dear Dr. Doe:

This letter is to acknowledge our receipt of source testing data for the
Fine Particle Emissions Information System (FPEIS) from you.  The data forms
have been examined and have been found to be acceptable for input to the
FPEIS database.

In a short time, we will return to you a print-out containing the data
which you have submitted for your review and comment.  The test series
numbers which have been assigned to your data are: 61, 62, 63, and 64.

Thank you very much for your support of the FPEIS.  Please feel free to
call me if you have any questions.

Sincerely,
FPEIS Project Officer
Special  Studies Staff
     Figure 3.1-!•   Sample FPEIS Data Submittal Acknowledgment Memo.
                                                               June  1978
-------
                                                                 UG-3.1-5
Dr. John A.  Doe
Ozone National Laboratory
1234 Anystreet Drive
Hometown, PA  12345

Dear Dr. Doe:

This letter is to acknowledge our receipt of source testing data
from you for the Fine Particle Emissions Information System (FPEIS).
The data forms have been examined and several omissions of key data were
noted.  We are  returning the data forms to you for correction.  The
omitted data items have been noted on the data forms.

If you have any questions regarding the data forms, please feel free
to call me.  Thank you very much for your support of the FPEIS.

Sincerely,
FPEIS Project Officer
Special Studies Staff
         Figure 3.1-2.  Sample FPEIS Data Submittal Error Memo.
                                                                June 1978
-------
                                                              UG-3.1-6
                                CFPEIS\
                                Data     }
                          User submits data
                          to IERL for entry
                         Test Series Numbers
                       Assigned & reviewe by
                       Support Staff initiated
                         Send EDIT Report to
                        User for verification
Support Staff
 implements
 corrections
No
   Have all errors J
     been found? J
                                        EDIT
                                       Report
                                    Yes
                      Send EDIT Report to User
                       for final verification
                                 I
                                        EDIT
                                       Report
Support Staff
 implements
final changes
 No
 / Is  the data set
1   ready to be
 V     loaded?
                                    Yes
                           Load data into
                           FPEIS Data Base
                        Send SERIES Report to
                        User for his records
                                       SERIES
                                       Report
                           C    End     J
         Figure 3.1-3.  FPEIS Quality Assurance Program
                                                            June 1978
-------
                                                                 UG-3.2-1


3*2  Data Retrieval Using System Request Commands

The simplest method of retrieving data  for an off-line user is to request

one of the System Request Commands (SRC's).  Section  5 contains a catalog

of System Request Commands which may be utilized to  retrieve FPEIS data

in a specified manner* Each request command  is  described separately and

has its own requirements for data input or  qualification by the user* To

simplify their use, the SRC's have been numbered sequentially* In this way,

the user needs only to identify the conmand number in order to request a

certain procedure, and to supply any required qualification data*


FPEIS SRC's may be requested by off-line users by telephone or  in writing.

The  requester  should  supply all information in accordance with  the  require-

ments of the System Request Command and send the completed request  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
 Users should send separate requests  for different runs even if the same

 command is being used repeatedly*  For  example, if a user wishes to inter-

 rogate the data base according to  a  specific  access criteria, any change

 to that criteria must be shown in  a  separate  request* Receipt of the  re-

 quest will be acknowledged to the  requester in writing. If there are  any



                                                                 June 1978
-------
                                                                 UG-3.2-2








errors in the request or some information is missing, the requester will




be contacted to clarify the problem* When the request has been processed,




the output will be sent to the requester for verification.
                                                                June  1978
-------
                                                                 UG-3.3-1







3,3  Special Data Retrieval Requests




It is recognized at the outset that the System Request Commands  are not




likely to be diverse enough to satisfy all user needs  for data.  For this




reason, a special data retrieval request category was  established* There




is no specific form to be used for special requests; there is merely  a




set of general guidelines to follow in preparing the request. These guide-




lines are as follows:







     1.  Be explicit:  Be thoroughly familiar with the FPEIS data base




     structure. Identify each data base element to be  sorted and/or  re-




     trieved by name. Should additional work on the request be  required,




     consultation with the requester will be initiated, and, upon comple-




     tion, the printout will be returned to the requester for verifica-




     tion.







     2.  Plan the request:  Be sure that the access criteria applies to




     the proper type of data element. Remember that only key values may




     be retrieved directly and that nonkey values must be qualified for




     data access  (see Section 6.4). Specify all needed qualifications and




     identify all input data for comparative evaluation.







     3.  Define  the  output:  Determine how you wish the  data to be dis-




     played on output. Identify how data  elements  are  to be ordered. Spec-




     ify column headings.  Define any  calculations  to be  performed on the




     accessed data.







                                                                  June 1978
-------
                                                                 UG-3.3-2








The completed definition of the request should be sent to  the  FPEIS proj-




ect officer at IERL-RTP. The user should be sure to include  his  telephone




number with the request. If there are any problems encountered with the




request, the user will be contacted by telephone to resolve  the  problem.







When the request has been received, a letter of acknowledgment will be




sent to the requester. The letter will include a preliminary estimate of




the length of time required to process the request. As emphasized previ-




ously, the length of time needed to process a special request  will depend




upon the complexity of the request. The simpler the request, the faster




it can be processed.







If no problems are encountered that require consultation with  the requester




the results will be sent to the requester when the processing  is completed.




The requester should review the output to verify that it satisfies the re-




quest. If it does not, the printout should be returned with  corrections to




IERL for reworking. If the printout is satisfactory,  the requester should




notify the FPEIS project officer of his acceptance.
                                                                June 1978
-------
                                                                 UG-3.4-1



3.4  FPEIS User Support

IERL/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 development

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  software specifi-

cations, 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
                                                                  June 1978
-------
                                                               UG-4.0-1
                            SECTION 4


                     ON-LINE REQUEST PROCEDURES

                             CONTENTS

Number                          Item                         Page

List of Figures     	uG-4.0-2

List of Tables      	uc-4.0-2

4.0     Introduction	UG-4.0-3

4.1     NCC User Qualifications and Services  Registra-
        tion	  ..  UG-4.1-1

     4.1.1  Registration Procedures .......*...  UG-4.1-2

     4.1.2  User ID and Password* ............  UG-4.1-6

4*2     Interactive Terminal Operation* •••••••••  UG-4.2-1

     4.2.1  Initiating a Demand Processing Session. •  • •  UG-4.2-7

     4.2*2  Terminating a Demand Processing Session ...  UG-4.2-10

     4.2.3  Accessing the FPEIS Data Base	UG-4.2-U

4.3     Remote Batch Terminal Operation .........  UG-4.3-1

     4*3*1  Initiating a Remote Batch Processing
            Session ••••••••••••••••••• UG-4.3-4

      4*3*2  Terminating a Remote Batch Processing
            Session	• •  UG-4.3-6

 4.4     FPEIS User Support	UG-4.4-1
                                                                 June 1978
-------
                                                               UG-4.0-2
Number
                             SECTION 4
                           LIST OF FIGURES
Title
4.1-1     Application Form for NGC  Services	UG-4.1.1-3




4.3-1     Request for Batch Terminal  Support Form.  ...  UG-4.3-3
                             SECTION 4







                           LIST OF TABLES




Number                          Title                        page




4.2-1     Remote Interface Control Statements. • • • • .  UG-4.2-5




4.2-2     NCC Demand Access Telephone Numbers* • • • . .  UG-4.2,1-3




4.3-1     NCC Remote Batch Access Telephone Numbers. . .  UG-4.3.1-2
                                                               June 1978
-------
                                                                 UG-4.0-3

4.0  Introduction

The phrase "on-line request"  in the title of this section implies that the

user intends to establish direct  communication with the FPEIS data base

through some type of terminal-to-computer link* The procedure described in

this section may be used by a qualified user of EPA's National Computer

Genter to access the FPEIS directly through an interactive data communica-

tions (demand) terminal or a  remote job entry terminal* The specific qual-

ifications for NCC user access is discussed in Section 4.1.


On-line users of the FPEIS are presumed to have a reasonably working knowl-

edge  of UNIVAC 1100 series computers and, in some cases, of SYSTEM 2000

natural language. Special data retrieval procedures, called System Request

Commands, or SRC's, have been developed to minimize  the  data processing

knowledge required to use the FPEIS.  The SRC's are discussed in Sections

4.2, 4.3, and 5. Any user unsure of his  familiarity  with the UNIVAC or

SYSTEM 2000 is urged to request  information through  the  off-line procedures

described previously in Section  3.


On-line users are granted READ-ONLY access to the FPEIS  data base. No up-

dating of data are permitted. New data must be submitted through the  EPA

project officer. In the READ-ONLY mode,  the user may retrieve  for  sorting

and evaluation any data stored in the system. The user may take advantage

of the wide array of features offered by SYSTEM 2000 for data  sorting and

retrieval. For reference  purposes, the FPEIS data base definition  is  given

in Section 6.3,  and  lists of key and nonkey data elements are  given in Sec-

tion 6.4.
                                                                 June 1978
-------
                                                                 UG-4.1-1


4.1  NCC User Qualifications  and Services Registration

Qualified users are defined as  those who have valid accounts with the National

Computer Center at Research Triangle Park, North Carolina* In most cases,

NOG users are either EPA personnel or contractors who are under EPA con-

tract. The NCC is not available to public subscribers* Federal regulations

prohibit the marketing of computer time by government data centers which

may be in competition with commercial computer services vendors. Thus, it

is not usually possible for FPEIS users who are not under EPA contract to

obtain account numbers in order to access the NCC directly* Exceptions to

this may be found with user access through interagency agreements or grants*

The qualifications of a potential NGG user are determined by EPA's Management

Information and Data Systems  Division*


Any questions regarding the qualification of a user  should be addressed

to:

     MIDSD TSSMS Office
     U*S. Environmental Protection Agency
     National Computer Center (MD-34B)
     Research Triangle Park,  North Carolina   27711

or by telephone to  919/541-3629 (FTS:   629-3629).
                                                                 June 1978
-------
                                                                 UG-4.1-2



 4.1.1  Registration Procedures

 All users of the NCC UNIVAC 1100 must be registered for accounting  and

 security purposes. Application for NCC services is made by submitting a

 completed EPA Form 2800-3 (Figure 4.1-1) to the appropriate ADP coordina-

 tor for approval and signature. Each EPA office or laboratory which uses

 the NCC or other computing facilities has a designated person (or persons)

 who serves as the ADP coordinator. All procedural matters pertaining to

 the use of the NCC should be directed to the ADP coordinator. Effective

 Thursday, June 1, 1978, the MIDSD Time Sharing Services Management  Sys-

 tem (TSSMS) Office was relocated to the National Computer Center. Requests

 for EPA user account modifications processed through the ADP coordinators

 to authorize new accounts or add new users to existing accounts, normally

 submitted using the EPA Form 2800-3, should then be forwarded to the fol-

 lowing address:

     MIDSD TSSMS OFFICE
     Environmental Protection Agency
     National Computer Center (MD-34B)
     Research Triangle Park, North Carolina  27711


 In instances where a user organization requires immediate access to com-

 puter facilities, temporary authorization can be achieved by telephone

 contact with the TSSMS Office. Effective June 1, 1978, requests for tem-

 porary authorization should be directed to 919/541-3629 (FTS:   629-3629).

Upon receiving temporary authorization, a completed Form 2800-3 must be

 forwarded to the TSSMS Office. The temporary authorization obtained by

telephone is valid for a 2-week period pending receipt of the Form  2800-3
                                                                June 1978
-------
                                                                 UG-4.1-3


for processing permanent authorization* Requests for cancellation of specific

users authorized under a given account or changes in user address/telephone

numbers will be processed by telephone using the TSSMS telephone number

listed above.


Non-EPA users (e.g., contractors,  grantees, etc.) should submit all required

forms to their EPA project officer,  who in turn will forward the information

to the ADF coordinator. Account authorizations/modifications for Interagency

Agreement User Accounts (non-EPA users) should be forwarded for approval to:

     W. G. Allen, Computer Specialist
     Environmental Protection Agency
     National Computer Center (MD-34)
     Research Triangle Park, North Carolina  27711


Upon approval of Interagency requests,  the TSSMS Office will complete im-

plementation of the authorization and notify the respective project manager.

Any questions concerning the above should be directed  to the TSSMS Office

at 919/541-3641 (FTS:  629-3641). Please  note  that,  in regard  to EPA Form

2800-3, the organization titles and codes and  the EPA  DIPS organization titles

and codes, and the program element titles and  codes are  assigned by the Office

of Planning and Programming. The account  number will be  assigned to the user

by MIDSD  and must appear on all transactions attempted with  the NCC UNIVAC

1100.
                                                                 June 1978
-------
                                                     UG-4.1-4
EDP SERVICES REGISTRATION
(Fh-ase Print or Type)
SERVICE (Chuck one)
D TIME SHARING
P, TECHNICAL
LJ ASSISTANCE
D OTHER
SUPPLIER (Specify) SOI
1


JRCEOF FUNDS
3 US. EPA
QREIMBURSIBLE
D SPONSORED
MIDSD USE ONLY
DATE RECEIVED 	 ~"
PROJECT
CODE
ENVIRONMENTAL
SYSTEM IDENTIFI-
CATION NUMBER
PROJECT TITLE (Limit: 60 characters, Including spaces)
PROJECT DESCRIPTION
ORGANIZATION
PROGRAM ELEMENT TITLE
ORGANIZATION CODE -
PROGRAM ELEMENT CODE ~
DOLLAR AMOUNT DATE TO BEGIN
PROJECT MANAGER

MAIL CODE (or room)
DURATION SYS
NAME (Last, First, M.I.)
TEM _ DAILY"""
Q RETRIEVAL ONLY STORAGE
D FULL ACCESS
PHONE (Include area code)
OFFICE OR LOCATION
ADDRESS (Street or P.O. Box)
USER {NAME (Last, First, M.I
MAIL CODE (or room)
ADDRESS (Street or P.O. Box)
USER NAME (Lait, F.rn, M.

MAIL CODE (or room)
)
CITY

STATE ZIP CODE
PHONE (Include area code)
OFFICE OR LOCATION

.)
CITY

STATE ZIP CODE
PHONE (Include area Code)
OFFICE OR LOCATION
ADDRESS (Street or P.O. Box)
TO:
U.S. Environmental Protection Agency
Director, Management Information and
Data Systems Division (PM 218)
Washington, D.C. 20460
CITY
ORIGINATED BY
CONCURRENCE (Funding)
CONCURRENCE (Other)
STATE ZIP CODE
DATE
DATE
DATE
MIDSD USE ONLY
POSTED

UPDATED
PRC
IOFED
DISTANCE
CODE
MAI
M [
P C
C [
DISTANCE
CODE
MAI
p r
p L
C [
F C
DISTANCE
CODE
«EF|R. LOGON" 1
INITIALS
LING LIST CODE '
D S Q
D T Q
DKi n
ITHJ
REFER- LOGON "
ENCE «-"»ON
INITIALS
LING LIST CODE
D SQ
J T Q
3 N Q
REFER- LOQOM
ENCE I-««ON
INITIALS
MAILING LIST CODE
P D . TQ
c D uQ
F D NQ
MAILING LIST KEY^ — ~~
M — Mf
P — PR
C - CC
F - FE
S - ST
u — ur<
N - SY

\NAGEMENT PANEL
OPERTY
NTRACTOR
DERAL NON-EPA
ATE OR LOCAL GOVT
RMINAL CONTACT
IIVERSITY
STEM NEWS
(continued on A**!
Figure 4.1-1.  Application Form for NCC  Services.
-------
                                          UG-4.1-5
PLEASE PRINT OR TYPE
(Additional liner*)
OSER!NAME  First- M-'-
MAIL CODE (or room) OFFICE
ADDRESS (Street or P.O. Box)
USER) NAME (Last, First. M.I.
MAIL CODE (or room) OFFICE
ADDRESS (Street or P.O. Box)
U-gR NAME (Last. First. M.I.)

MAIL CODE (Of room) OFFICE
ADDRESS (Street or P.O. Box)
• _R|NAME (Last. First, M.I.)
MAIL CODE (or room) OFFICE
ADDRESS (Street or P.O. Box)
U$EB|NAME (Lastl Firstl M'L>
MAIL. CODE (or room) OFFICf
ADDRESS (Street or P.O. Box)
-— TTTNAME (Last. First. M.I.)
JBEHJ
MAIL. CODE (or room) OFFIC
SODRESS (Street or P.O. ur>xj
-• INA./IE (La«. Fim, M.I.)
MAIL. CODE (or room) OFFIC
ADORES^ (Street or P.O. Box
-• _|NAME (Last, First. M.I.
-JiA7l7cODE (or room) OFFIC
•jrJjORESS (Street or P.O. Box)
1
'HONE (include area code)
OR LOCATION
CITY •

iTATE

ZIP CODE
PHONE (Include area code)
OR LOCATION
CITY

STATE

ZIP CODE
PHONE (include area code)
OR LOCATION
CITY

STATE

ZIP CODE
PHONE (Include area code)
OR LOCATION
CITY

STATE

ZIP CODE
PHONE (Include area code)
I OR LOCATION
CITY ~~~ '

STATE
PHONE (1
E OR LOCATION
CITY

STATE

ZIP CODE


ZIP CODE

E OR LOCATION


STATE


PHONE (Include area code)
E OR LOCATION
CITY
STATE
•A Fe.™ 2800-3 {R.v. 2-77) (R.v.rie)

ZIP CODE
DISTANCE
:ODE
REFER- I
ENCE
NITIALS
.OGON
MAILING LIST CODE
M n s D
p n TQ
c D u D
F D NQ
DISTANCE
CODE
REFER-
ENCE
INITIALS
LOGON
MAILING LIST CODE
M D S D
P D TQ
DISTANCE
CODE
REFER-
ENCE
INITIALS
LOGON
MAILING LIST CODE
P D T D
c Q u O
F D N Q
DISTANCE
CODE
REFER-
ENCE
INITIALS
LOGON
MAILING LIST CODE
M D s D
p D T n
C Q U D
F D N D
DISTANCE
CODE
REFER-
ENCE
INITIALS
LOGON
MAILING LIST CODE
c D u D
F n ND
DISTANCE
CODE
REFER-
ENCE
INITIALS
LOGON
MAILING LIST CODE
M n s n
c S u S
F D N n
DISTANCE
CODE
MAI
M [
c I
DISTANCE
CODE
MA
M
c
F
REFER-
ENCE
INITIALS
LOGON
LING LIST CODE
D s n
D T D
3 N G
REFER-
ENCE
INITIALS
LOGON
LING LIST CODE
ID S D
D T D
D N n 1

Figure 4.1-1.  (Concluded)
                                          June 1978
-------
                                                                 UG-4.1-6








4.1.2  User ID and Password




The NCC UNIVAC 1100 has a comprehensive, multi-level security system which




is designed to prohibit unauthorized use of  the computer. A feature of this




security system is the Time Sharing  Services Management System (TSSMS) which




requires that all users be identified by a unique USERID and PASSWORD before




access to the computer is granted. The USERID/PASSWORD must appear on all




demand and batch job requests. This  will be discussed in detail later in




Sections 4.2 and 4.3, respectively.







The USERID/PASSWORD is assigned  to each individual user of the NCC by




MIDSD. Requests for a USERID/PASSWORD should be submitted to the appropriate




ADP coordinator (through the EPA project officer, if necessary) for approval




and signature.
                                                                June 1978
-------
                                                                 UG-4.2-1








4.2  Interactive Terminal  Operation




Demand processing,  or interactive terminal operation, is defined as a mode




of operation in which processing is  dependent on manual interface with the




central processor during processing* Basically, it is a conversational mode




of operation requiring a demand and  response type of activity. Conversational




operation via a remote terminal causes  the Executive System, a demand proces-




sor, or an active program  to immediately react and respond* Demand processing




terminals are generally thought of as being remote from the computer site




and as having a printer or a cathode-ray tube and keyboard. An example of




a demand terminal is the teletype-writer keyboard and printer.







The distinction between batch-mode  processing and demand  processing lies




in the frequent interaction with  the user that occurs during demand process-




ing. The terminal user is  considered to be  in conversation with  the Execu-




tive System, special demand function,  user  programs,  or the batch  functions




of the Executive System on a unit basis.







Tasks executed by the demand terminal user normally  have  frequent  but  short




bursts of computation. To process a substantial  amount  of computation may




require a long period of time. Access to computation is a percentage of




the total computing  facility and is scheduled in small  increments  of time




at frequent  intervals to provide immediate responses. This action  gives  the




appearance of total  system control to the user and the impression  of being




the only user currently running. The more a user is required to interact




with  a demand program the shorter the bursts of computation required to



                                                                 June 1978
-------
                                                                 UG-4.2-2








service a given request. The bursts of computation are  time-shared within




the Executive System to provide an apparent  immediate response, with the




program placed in a dormant mode during idle periods awaiting response from




the user*






While a demand program is in a dormant mode, it may be  necessary to swap




the program from main storage* Normally* this transfer  happens only when




main storage is full and another program currently on mass storage has work




to do.






The demand terminal has three distinct modes of operation. They are described




below:







     .  Terminal Inactive Mode




        The initial mode of the terminal following the  sign-on procedure*




        The terminal will return to this mode at the completion of the




        other two modes*




        Demand Run Mode




        This mode is achieved by submitting  a 
-------
                                                                 UG-4.2-3








     •   Batch Mode




        The demand terminal may be switched from demand mode to batch mode




        for input or output.




        The "B"  sub-option on the @RUN control statement (<§RUN,/B) will place




        the terminal in batch input mode* Input will not be solicited as




        in demand run mode* The terminal will be returned to the terminal




        inactive mode following a ©FIN control statement* Another ©RUN con-




        trol  statement will be accepted while in the remote batch run whether




        it contains a  'B* option or not* Output files generated by the batch




        run,  as  well as those SYM'd (via @SYM) to the terminal can be displayed




        at the  terminal by entering the statement, ©@SEND* The terminal is




        returned to the inactive mode when the output process of the file




        is complete*







Interactive  (or demand) processing with the NCC UNIVAC  1100 is supported




for a variety of low-speed data conmunications terminals* Generally speak-




ing, most 30 character/second  (CPS) terminals which have ASCII character




sets will be able to  access  the NCC* The NCC does not  support any terminals




which operate at 10 CPS or  15.5 CPS. Also, the NCC does not  support IBM 2741




or similar EBCDIC code set  terminals.







A partial list of terminals supported  by  the NCC for demand processing  include




the following:
                                                                 June 1978
-------
                                                                 UG-4.2-4
     Anderson-Jacobson Models 630 and 840
     General Electric TermlNet 300 or equivalent
     UNIVAC UNISCOPE 100
     UNIVAC DOT 500 or equivalent
     Texas Instruments Silent 700 series
     Hazeltine (most models)
     LA36 DEGwriter II
If you are uncertain about the compatability of a particular terminal with

the NCC UNIVAC 1100, you should contact the following:

     NGC User Services
     919/541-3649
     FTS:  629-3649


All UNIVAC supported demand terminals use a common interface (device rou-

tines providing the user interface with unit record peripherals)  for input

and output processing* This provides several controls and features to all

demand terminals in a uniform manner* Control of remote  symbionts is regu-

lated by control statements prefixed with a double master space (®9). These

control statements do not require the input solicitation* They may be

entered after an output interrupt (break-key) or any other time the terminal

operator finds the need* The control statements are given in Table 4*2-1*


For more details on demand processing, the user should refer to the National

Computer Center User Reference Manual, Vol. V,  Section 2, This manual may

be obtained from NGG User Services at the telephone numbers  listed above*


The remainder of this section will address demand processing as it applies

to the FPEIS.


                                                                 June 1978
-------
                                                                  UG-4.2-5
              TABLE 4.2-1.  REMOTE INTERFACE CONTROL  STATEMENTS
Statement
     Mode
               Description
@§X TIOC
-------
                                                                  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
r
ID
»-«
vO
00
                                                                                                                                 Oi
                                                                                                                                 •
                                                                                                                                 V
                                                                                                                                 to
-------
   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
(D
PARTICULAIE PHYSICAL PROPERTIES	

         DENSITY-   1.000 C/CM3   (ASSUMED )  RESISTIVITY-  E+ OHM-CM  (

         OTHER PHYSICAL PROPERTIES:
§
in
vO
vj
00
-------
      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
<£>
^j
00
Ul
•
l-»


s:
-------
  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
I
(D
NO
-J
00
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

a
o
1
Ul
•
I-1
en
-------
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

C
o
1
Ul
•
t-«
OS
-------
      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-
I
vO
-J
oo
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:
                                                                                                                                          l/i
-------
  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
I
n>

H*
«o
*J
00
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

s
1
01
•
!-•
fcv^
00
-------
 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
I
ID

l-»
vO

00
                                                                                                                                       Ul
                                                                                                                                       I

                                                                                                                                       I-*

                                                                                                                                       CO
-------
                                                                 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
-------
                                                                 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
-------
                                                                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
-------
                                                            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
-------
                                                                UG-5.3-3
5.3.1  Demand Processing Procedure




(To be added at a later  date.)
                                                                 June 1978
-------
                                                                 UG-5.3-4
5»3.2  Batch Processing Procedure




(To be added at a later date*)
                                                               June 1978
-------
                                                                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
-------
                                                           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
-------
                                                                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
-------
                                                                 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
-------
                                                                  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
IEBI HIT. ItaMRk In
A - SOURCE DE
Test Series
No.
I .





*

1
D)
E=
y®



IAL PROTECTION AGENCY
•fbPwt, ».(.. 27711
SCRIPTION

7


8



»),o


Card
No.
.1,2
A1P_
Card
No.
n
A
12
0
,3
1

13
2
Cord
No.
n
A
12
0
.3
3
Card
No.
"
«
»
PO|4
Card
No.
M
A
11
a
13

14
'
14


14


15


15


15

II
•4»
1

M
5

15

SCC
16

FINE PARTICLE EMISSIONS INFORMATION SYSTEM
DATA INPUT FORMS Forn
[For*
1 (Source Category)
4"
SCC
16

17

IV
18

Source
16

17

Zip
16

Rt
16

17

18


18

feren
^
"
20

21 22] 23

24

25

26

27

28

29

30

31
32

SCC 11 (Type of Operation)
33

34

35

(Operating Mode Claw)
19

20

,2I_ 22

a

24

25

26

27

28

29

30

31

32

33

14

35

36

37

38

39

«|4,
n
42

43

44

45

46

47

48

49

SCC III (Feed Material Class)
50

51

52

53

54
55

56

571 SB


59

60

61

62

63

64

65

66

1 9/77
Completed by





Test Series
Start Dote
Mo
67

61

Da
69

70

Yr
71

72

Site Name
31

37

38

39

4(1

Name
19


19

ce
,9
!
20


20

21 22


23

24

25

26

27
28

29

UTM Coords
X
21 22


20

2,|22

23

24

Y
25

26

27

28

29

30

3,

32

33

34

35

36

37

38

39

40

4T

42

4)

44

4!

46

47

484,505,
52

53

54

55

56

57

56

59

60

Street
41

42
43

44

4!

46

47

48

49

30

SI

52

53

54

55

56

57

58

59

60

61

62

63

64

63

64

67

68

69

70

71

72

Finish
Mo
73J74
1.
73

74

Date
Da
75

1
76 1

Yr
77

78

UTM
Zone
79 10


75 ft
]
City
61

62

63

64

65

66

67

61

69

70

71

72

73

74

75

Tested By
»J31

32

33

34

35

36

37

38

39

4C

41

42

43

44

4]

46

47

48

49

SO

51

52

53l54|55


56

57

SB

59

60

6,

62

63

64

65

66

67

61

69

70

71

72

73

74

75


s.
24

25

26

27

18

29

30

31

32

33

34

35

16 37


18

39

40

41

42

43

44

4}

46

47

48

49

st

1.

52

53

54

55

56

57

58

59

69

61

61

61

64

65

66

67

68

69

70

Tlj
7273
|

74

75
n

n


'6

77

78


r
State
79 BO


'6

77

•B

79 M

1
ta
1
n

*

7* N

» - TEST SERIES REMARKS
T«t S«in
No.
i

2


3







1














K






C<
M
M
B
B
B
B
B
B
B
e
B
B
3rd
,2

-3
0 1
0
0
0
0
0
0
0
0
1
2
3
4
5
o
7
8
9
0

j*











15










Remarks in Text
16










17










11










19










20









21










22










23










24










25










26










27










28










29










30










31
32

!
















33










34

35

















36










37




38















39










4oj4l











42



















43










44










45










46










47










48










49










50










51










52










53











54










55










56










57.










58










59










40










61










62










63










64










65










66










67










68










69










70










71










72










73










M










75










'6










77










t










79










»










                                                                                                                                                                                    s
-------
      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
        9/77
Form Completed by
Teit Series
No.









\















Cord
No.
C
0

Cord
No.
II
C
12
0
Cord
No.
II
C
"\
0
Cord
No.
II 12
C 0
13
2

»
3

n
4
(


M



15
1
!<


J
Mil*
T
-Devii* No. (1.2 or 3)
Device Coteoorx


-



Commercial Name
±
17
"1
18

Device
't

17

18
It

Wl2l

Descr
„
1
Device
16

>?! 11


20

ipt
—
2l| 231.24 ! 25 26 27 2»|
MT" "T
'on
22 23 24 25l26j27|28|
J_ 1 1
Descr
19

20
1
prion (continued)
21

22| 2l| 24 15 26 27 28
- | . .

-] l±rfr











Device Clou


| Manufacturer
J?l3o[3l732"f33[jT35 14
T] 1 1 r "
37

M

3f

Id

4I

42

43

44

45146

47

41

49

50




37

31

39 1*0
1
^42


43

44

a

46

47

41

49

SO


2930313213343536

37

31

39

40

41

42

43

44
4i
j
46

47

41

49

»








fsT

52
53

54

55

56


51

52

52

54

35

M


51

52

53
54

55

56


~:
»

57


I'
58
.
it
L
58

["
I"


_
59

T — "
C
1 W 01
(t
60

61
era
F
1"
«
1

60

61
•ric Type
I8
63
63


62

63

i:
64
M


64


65
I
li



L-- r —
-4 —









6t

4*

70

71

72

73

74

75


M

67

6>

m

7B

71

72

73

74 75







rt

It

*

i»
ID


»

77M
5
M
1
U

6ft

67

6>

69

70

71

7273


74

75b*
r
w

i*

»

M

           CONTROL DEVICE(S) DESIGN PARAMETERS
Teit Series
No.
1






























n








Card
No.
il
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
"'
to
3
^
C
12
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
u
0
0
0
0
13
5
5
5
5
5
5
5
5
5
S
5
5
S
5
5
i
5
5
5
5
f
14





















1*



















"S .
3*
u

17




-
- f •


—
--



1











-Device No. (1.2 or 3',
Specif lent ion*
IB


:










,l9i»J2l 2!
: ; 1
"
—
—

i ~~- i
] 23 24
125
1 '
J— i—
+
	



T_T_r^__


—







j
f-J i
4-*-'





-
f-
i
1
i
1





24J27
2IJ29
i"1 r
[-





j — i- -






, J

^





i














4-


























30 111

^r
U-
•-T-
















4




J_
















32
















" I1
33



















34



















35


















•!
_ L
16






37






i










— '
— i













38





y>





1




















40













I









41














42















1 J
J
)
4--I

43




















44




















4




















tt



















4



















I
Value
41




















49



501 51
1
I

1

















































52




















53 54J55




















1






































56

57

1




































51




















59




















69




















41




















62




















63




















64




















65




















66




















67





















6*




















•»




















JO




















n




















ft




















n




















H




















W




















r*




















n>




















*




















n




















R




















f
(D

f«
\D

00
                                 ?
-------
5
r
n
B
F
r
)
^
Q§>


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 •




























.
.
•
•








• ;
» 1
•
« 1




•
•
.
•
•
•





•
•
•
•
•
•
•
•
•
•
•
•
•
•




























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
.
•
•
.
•
.
•
•
•
•
•
>
•
«
•
•
•
•
•
.
•
•
•
•
•
•
•
•
•
•
•
•
•
•
53

54 55














































































56























































(D
57

58

59
•
60

61

62

/ig/rr,3)
®
±
57


































sals?
.

•1

.
•
•
.
•
•
•
•
•
.
•
.
•
.
.
•
.
•
.
»
.
•
.
•
•
•
•
•
•
•
•
































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
-------
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
-------
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
-------
        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
-------











§
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>
-------
                                                               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)
-------