United States
Environmental Protection
Agency
Research and Development
Air and Energy Engineering
Research Laboratory
Research Triangle Park NC 27711
EPA/600/S8-85/023 Nov. 198
185^^
SER& Project Summary
Flue Gas Desulfurization
Information System (FGDIS)
Data Base User's Manual
Michael T. Melia
This document is a user's manual and
reference book/primer for Flue Gas
Desulfurization Information System
(FGDIS) users and recipients of the
quarterly Utility FGD Survey. Part I is
the interactive computer procedures for
the FGDIS; it addresses the use of and
terminology related to the use of the
computerized data base. Part II is the
FGDIS terminology; it addresses FGD
technology as it relates to this com-
puterized data base. The primary thrust
of Part II concerns equipment/compo-
nent classifications: major equipment
items and construction materials are
broken down into primary, secondary,
and tertiary categories referred to as
generic type, specific type, and trade/
common name (or common design).
These are supported by an appendix
that describes the use of the problem/
solution codes. A glossary defines
common scrubber and boiler-related
FGD terms, including definitions of data
field titles in FGDIS that may be unclear
to new FGDIS users or individuals
somewhat detached from the system.
The Utility FGD Survey, a major
product of the FGDIS, is available
through the Research Reports Center
of the Electric Power Research Institute
(EPRI), Palo Alto, CA (415/965-4081).
The Survey includes a significant por-
tion of the information collected within
the FGDIS; however, important data
(e.g., dependability, cost, specific de-
sign) are not included and can only be
obtained through access of the FGDIS.
This Project Summary was developed
by EPA's Air and Energy Engineering
Research Laboratory, Research Triangle
Park, NC, to announce key findings of
the research project that is fully docu-
mented in a separate report of the same
title (see Project Report ordering infor-
mation at back).
Introduction
Utilities in the U.S., operating or plan-
ning to install flue gas desulfurization
(FGD) systems, are contacted regularly
throughout each year to provide data that
constitute the basis for the Utility FGD
Survey.
The quarterly Survey is generated by a
computerized data system known as the
Flue Gas Desulfurization Information
System (FGDIS). Figure 1 (see pages 4
and 5), a structure diagram of the FGDIS,
shows the informational areas addressed
in the system and some representative
data items contained in each. The design
data contained in the system encompass
the entire emission control system and
the power generating unit to which it is
applied. Performance data for operational
FGD systems include monthly depend-
ability parameters, along with service
time and problem/solution descriptions.
In addition to generating the Survey,
the FGDIS is available for remote terminal
access. Because the Survey is available
through purchase from the National
Technical Information Service (NTIS)
(after June 1983, it may be purchased
from Electric Power Research Institute
(EPRI)), the data base is the most immedi-
ate method for examining the data ac-
quired under the survey program. Access
to the FGDIS also enables users to obtain
data that are too specific for inclusion in
the Survey. Information concerning ac-
cess to the FGDIS can be obtained from
Walter Finch, NTIS, 5285 Port Royal Road,
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Springfield, VA 22161, (703) 487-4808,
or Norman Kaplan, USEPA, Air and
Energy Engineering Research Laboratory,
Mail Drop 61, Research Triangle Park, NC
27711, (919) 541 -2556. Custom searches
of the FGDIS data can also be arranged.
Part I: Interactive Computer
Procedures for the FGDIS
This manual is a guide to the use of the
FGDIS, a collection of data base files
stored at EPA's National Computer Center
(NCC) in Research Triangle Park, NC.
These files are accessed and their data
are manipulated using SYSTEM 2000®, a
general data base management system
developed by INTEL Corporation and
supported by NCC's Univac 1100 hard-
ware.
The FGDIS is a collection of data files
pertaining to the design, performance
(S02 and dependability), and cost of FGD
systems. The data stored as logical entries
(elements), linked by a common structure
consisting of various levels of repeating
groups (or levels of information). Figure 1
shows the FGDIS structure, along with
some key data items. A given FGD system
may have as many as 574 design data
entries (14 of which are cost-related) and
74 monthly performance data items.
(NOTE: The FGDIS can address any FGD
system design; not all data entry fields are
applicable to every FGD system.)
To access the FGDIS, a user must be
able to log into the Univac system at NCC.
This requires a telephone and coupler
modem, unless using a terminal that is
wired directly to the system (e.g., the
onsite terminals at NCC). The terminal
also must be compatible with the Univac
1100 system. Any terminal, hard copy, or
cathode ray tube (CRT) that emulates a
Teletype at 30 or 120 bits per second can
be supported. The terminal, however,
must use the ASCII character set and be
set in the half-duplex mode (one-way
telecommunication between terminal and
computer).
Compatible terminals include: (1)
Anderson Jacobson 63x, 83x; (2) Hazel-
tine 1000, 2000 (CRT); (3) Hewlett-Pack-
ard 2622A; (4) Sperry Univac DCT 500,
1000, Uniscope 100 (DCT 1000s and
Uniscope 100s can be supported only
over dedicated circuits in synchronous
mode); (5) Tektronix 401 x, 4051; (6)
Teletype 33, 35, 37, 38 (ASR/KSR); and
(7) Texas Instruments 7xx, 770/2. They
do not include all available compatible
terminals, nor do they represent recom-
mended terminals. More than 100 manu-
facturers produce hardcopy and CRT
terminals, and as long as a terminal can
emulate a teletype, it can be supported.
Access to the NCC system is available
to 300- and 1200-baud (baud is a variable
unit of data transmission speed, usually
equal to 1 bit per second) users through a
nationwide telephone communications
system (TYMNET) that offers local dialing
numbers in more than 100 cities; WATS
service is available to those for whom
local numbers are not available.
Actual charges for on-line access de-
pend on the type of retrieval commands
used. A simple command to print a report
may cost only $10; whereas, a more
sophisticated statistical analysis of the
data base may cost $150. Users are
charged only for the computer resources
used, not actual on-line computer connect
time. There is no charge for obtaining an
account number.
The user's manual shows in detail NCC
access (computer log-on/log-off), Sys-
tem 2000 execution/termination, imme-
diate access features, the report writer
Table 1. Available Report Writer Programs
Report Writer
Program
(canned program) feature, and output
control.
The immediate access feature describe;
the execution of extensive cross refer
encing possibilities, with examples. I
includes formatting options and systerr
functions (e.g., addition, subtraction
multiplication, division, averaging, stan
dard deviation, and maximum/minimurr
value).
The report writer feature illustrate;
System 2000's ability to prepare standan
report programs that may be used (it
conjunction with the immediate access
feature) to exclude or include specifii
subsets within the FGDIS files.
Also included in Part I are nine appen
dices. Appendix A, which lists the nim
report writer programs prepared to date
contains an abstract illustrating the usi
of the program, a sample run strean
(what the user would type in), a sampl
output, and other suggested uses/com
ments. Table 1 lists the available repor
writer programs, along with brief descrip
tions.
Description
TOTPRO Breaks down the various FGD processes with respect to system status (oper,
tional, under construction, contract awarded, planned) as well as salable v
throwaway product designs.
TO TMW Breaks down the status of the various FGD systems in the data base. Included
each classification is the total number of systems and the total megawatt value
terms of both total controlled capacity (gross) and equivalent scrubbed capaci
(percent of gas scrubbed).
COLIST Displays company name, unit name and number, unit location, initial start-i
date, status, and regulatory class. The list is displayed alphabetically by compel
and unit.
PERAVG Displays the four dependability parameters (availability, reliability, operabiln
utilization) as well as capacity factors, boiler hours, FGD system operating houi
and hours for the time period and unitfs) specified.
ABSTCT Generates a brief abstract for units specified in addition to unit megawatt ratin
location, boiler and FGD system type, FGD process utilized, etc.
IDS Displays the identification number for each unit in the FGDIS. Included a
company and unit names and unit numbers.
FNOTES Lists footnotes contained in the data base for the unitfs) and element(s)
question. The output provides the element number to which the footnote pertain
ECON Displays reported capital and annual costs, and adjusted costs.
PEDATA Briefly describes FGD-related problems, solutions, and/or comments for
specific period.
REMOVE Displays removal performance data for SOz, paniculate, andNOt at a specific u,
for a designated period. Opacity readings and SOi analysis parameters e
included.
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Table 2 shows examples of run streams
and sample outputs of two report writer
programs, PERAVG and ABSTCT. The
nine appendices are described briefly in
Table 3.
Part II. FGDIS Terminology
This section discusses terminology
used in the FGDIS, in both tabular and
graphic form.
Part II covers 12 major equipment/
component classifications for FGD sys-
tems, as categorized in the FGDIS: (1)
scrubbers/absorbers; (2) mist elimina-
tors; (3) reheaters; (4) solids dewatering
devices; (5) sludge processors; (6) sludge
disposal sites; (7) reagent preparation
equipment; (8) pumps; (9) valves; (10)
dampers; (11) construction material; and
(12) fans.
Each section shows a breakdown in
three categories: generic type, specific
type, and trade/common name (or com-
mon design). Exceptions to this categor-
ization are valves (addressed only as
generic and specific) and fans (classified
separately).
The sixth group, sludge disposal sites,
is used as an example. Table 4 gives a
breakdown of generic, specific, and
common design types of sludge disposal
sites. Figure 2 presents typical graphic
representations of one of these generic
types, the pond.
Each item in Table 4 is described in a
short paragraph. Similar brief descrip-
tions are given in the text throughout Part
II.
Table 2. Sample Run Stream and Output for PERA VG and ABSTCT
Run Stream:
@Add FGDIS. PERA VG
Output:
>Generate PERA VG WH C1 EQ 46 and C3401 EQ 8201 * 8206:
-479- lowest selected record common to all reports is 3440.
Kansas City Power & Light
La Cygne
1
Net Generating Capacity with FGD - 820
Gross Generating Capacity - 874
% Scrubbed- 100
Date
8201
8202
8203
8204
8205
8206
Capacity
Factor
33.4
24.0
33.3
20.5
0.0
13.0
Period
Hours
744
672
744
720
744
720
Boiler
Hours
511
348
441
282
00
197
FGD
Hours
483
367
449
278
0
206
Availability
92.5
96.4
95.8
98.9
100.0
97.5
Operability
91.3
90.6
93.8
94.7
***
53.9
Reliability
89.7
93.5
93.2
97.3
***
91.7
Utilization
64.9
58.3
60.4
38.6
0.0
28.7
Average 20.7
NOTE: *'s indicate that the value does not exist.
96.8
92.9
93.1
41.8
Run Stream:
>@Add FGDIS.ABSTCT
Output:
>Generate ABSTCT where C1 EQ 157:
-479- Lowest Selected Record Common to all Reports is 4000 -
Big Rivers Electric
Green
2
MW-Gross; 242
MW-Net with FGD; 222
MW-ESC; 242
Unit 2 of Big Rivers Electric's Green Station is located in Sebree, Kentucky. The dry bottom pulverized Coal (3.75% S, 9750
Btu/lb) fired boiler supplies 1,000,000 acfm to a cold side ESP followed by two American air filter lime spray towers which
remove 90% of the SO* The cleaned gas passes through a chevron mist eliminator and exist a Sauerisen 72 lined stack after it is
heated by a steam coil reheat er. The sludge from the closed water loop system is POZ-O- TEC stabilized. Operations commenced
in November 1980.
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General
Data
10)
Boiler-Stack
(100)
Fuel
(200)
Paniculate
Matter
Control
(300)
FGD
Genera/
Data
(800)
ESP
(600)
FGD
Design
Information
(900)
Fabric
Filter
(500)
Paniculate
Matter
Scrubber
(700)
Spare
Component
Index
(3100)
Economics
Data
(3300)
Spare
Capacity
Index
(3000)
Pilot
Plant
(3200)
Quenchers/
Presaturators
(1000)
Mist
Eliminators
(1200)
J_
Fans
(1400)
Ductwork
(1600)
Tanks
(1800)
_L
I Solids^]
Concentration/
De water ing I
#000; I
Absorbers
(1100)
Fteheaters
(1300)
Dampers
(1500)
Reagent
Preparation
Equipment
(1700)
_L
ProcessI
Control and \
Instrumentation
(2600)
JL.
Chemicals
(2800)
Pumps
(1900)
End
Product
(2100)
Water
Balance
(2700)
Recoverable
Product
(2200)
Sludge
(2300)
1 1
Treatment
(2400)
Disposal
(2500)
Figure 1. Structure diagram of FGDIS.
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I
Removal
Performance
(3900)
1
Literal
Information
(4000)
Problems
Solutions
Comments
(3460)
Problem
Area
(3480)
Table 3. User's Manual Appendices
Appendix Title
Description
A Report Writer Programs
B File Creation/File Manipulation
C TYMNET Diagnostic Messages
D SYSTEM 2000 Diagnostic Messages
E NTIS Application Form
F FGDIS Dump Program
G NCC Cost of Services
H Problem/Solution Access Codes
I Glossary of FGD Systems/FGDIS-
Ftelated Definitions
Specialized programs designed to generate
formatted reports in conjunction with the
FGDIS.
Creation and editing of data files within
Univac 1100.
System-supplied messages associated with
log-on problems.
System-supplied messages encountered
during SYSTEM 2000® sessions.
Procedure for obtaining access to on-line
data bases at the USE PA's National Com-
puter Center (NCC).
Procedure for obtaining complete data
dumps on individual units within the FGDIS.
Explanation of NCC charges for use of
Univac 1100.
Two-character codes used for quick retrieval
of comments and problems reported on
utility FGD systems.
Terms associated with utility FGD systems
and the FGDIS.
Table 4. Sludge Disposal Sites
Generic Specific
Pond
Landfill
Diked
Incised
Existing basin
Side hill
Cross valley
Heaped fill
Side-hill fill
Valley fill
Deep-mine fill
Common Designs
Above grade
Below grade
Abandoned surface mine
Abandoned quarry
Impoundment dam
Stacking
Gypsum stack
Upstream method
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Diked
Incised
Cross Valley
Figure 2. Examples of pond types included in FGDIS.
Side Hill
. GOVERNMBff PRINTING OfFKE:1985/646-l 16/20715
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Michael T. Melia is with PEI Associates, Inc.. Cincinnati, OH 45246.
Norman Kaplan is the EPA Project Officer (see below).
The complete report, entitled "Flue Gas Desulfurization Information System
(FGDIS) Data Base User's Manual," (Order No. PB 86-104 122/AS; Cost:
$22.95, subject to change) will be available only from:
National Technical Information Service
5285 Port Royal Road
Springfield, VA 22161
Telephone: 703-487-4650
The EPA Project Officer can be contacted at:
Air and Energy Engineering Research Laboratory
U.S. Environmental Protection Agency
Research Triangle Park, NC27711
United States
Environmental Protection
Agency
Center for Environmental Research
Information
Cincinnati OH 45268
Official Business
Penalty for Private Use $300
EPA/600/S8-85/023
0000329 PS
U S £NVIR PROTECTION AGENCY
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