oEFA
United States
Environmental Protection
Agency
Office of Air Quality
Planning and Standards
Research Triangle Park, NC 27711
EMB Report No. 87- MIN - 04 D
March 1988
Air
Municipal Waste Combustion
Characterization Test Program
HCI Continuous Monitoring Study
Emission Test Report
Marion County
Solid Waste-to-Energy Facility
Ogden Martin Systems of Marion, Inc.
Brooks, Oregon
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EMISSION TEST REPORT
HC1 MONITORING FOR
CHARACTERIZATION TEST PROGRAM
MARION COUNTY SOLID WASTE-TO-ENERGY FACILITY, INC.
OGDEN MARTIN SYSTEMS OF MARION
BROOKS, OREGON
ESED Project No. 86/19a
EPA Contract No. 68-02-4336
Work Assignment No. 11
Prepared for:
Clyde E. Riley, Task Manager
Emission Measurement Branch
Emission Standards and Engineering Division
U. S. Environmental Protection Agency
Research Triangle Park, North Carolina 27711
Prepared by:
Phillip Juneau
J. Ron Jernigan, P.E.
Scott Shanklin
Entropy Environmentalists, Inc.
Post Office Box 12291
Research Triangle Park, North Carolina 277H
March 25, 1988
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TABLE OF CONTENTS
1.0 Introduction 1-1
1.1 Background 1-1
1.2 Purpose and Objectives 1-1
1.3 Brief Process Description 1-2
1.4 Schedule 1-4
1.5 Organization 1-4
2.0 Summary and Discussion of Results 2-1
2.1 Test Condition 1 - Baseline 2-1
2.2 Test Condition 2 - Baseline 2-1
2.3 Test Condition 3A - Low Excess Air 2-2
2.4 Test Condition 3B - High Excess Air 2-2
2.5 Test Condition 4 - Low Overfire/Underfire Air Distribution 2-2
2.6 Test Condition 5 - High Overfire/Underfire Air Distribution 2-2
2.7 Test Condition 6A - Low Load and Normal Excess Air 2-2
2.8 Test Condition 6B - Low Load and High Excess Air 2-3
2.9 Test Condition 7A - Low Load and Low Excess Air 2-3
2.10 Test Condition 8 - Low Load and Low Overfire/Underfire
Air Distribution 2-4
2.11 Test Condition 9 - Low Load and High Overfire/Underfire 2-4
Air Distribution 2-4
2.12 Test Condition 10 - Low Quench Reactor Outlet
Temperature (260°F) 2-4
2.13 Test Condition 11A - High Quench Reactor Outlet
Temperature (330°F) 2-4
2.14 Test Condition 11B - High Quench Reactor Outlet
Temperature (360°F) 2-4
2.15 Test Condition 12 - Unit Shutdown 2-5
2.16 Test Condition 13 - Unit Startup 2-5
3.0 Process Description and Operation 3-1
3.1 Process Description 3~1
3.2 Control Equipment 3-1
3.3 Combustion Parameters Varied During Testing 3~3
3.4 Control Device Parameters Varied During Testing 3~5
3.5 Process and Control System Conditions Recorded During Testing 3~5
3.6 Startup and Shutdown Operation Descriptions 3"5
4.0 HC1 Continuous Emission Monitoring System Descriptions 4-1
4.1 Bodenseewerk Spectran Model 677 IR HC1 Monitoring System 4-1
4.2 Lear Siegler, Inc. (LSI) Model TGM 555 HC1 Analyzer/
Compur Model 4330 Dilution System 4-2
4.3 Thermo Electron Model 15 HC1 Analyzer/Model 200 Dilution System... 4-3
5.0 Description of the HC1 CEM Sampling Program by Sampling Location 5-1
5.1 Dry Scrubber Inlet - Thermo Electron HC1 Monitoring System 5-1
5.2 Dry Scrubber Midpoint - LSI/Compur HC1 Monitoring System 5-1
5.3 Baghouse Outlet - Bodenseewerk HC1 Monitoring System 5-8
5.4 Data Acquisition System 5~8
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TABLE OF CONTENTS (continued)
6.0 Quality Assurance 6-1
6.1 HC1 Sampling System Inspection 6-1
6.2 Calibration Drift Calculations 6-1
6.3 Wet Chemical Sampling for Accuracy Determination 6-1
Appendix A. Sample Calculations
Appendix B. Test Program One-Minute Data Printouts
Appendix C. Daily Calibration Sheets
Appendix D. Daily System Check Lists
Appendix E. Quality Assurance Data
Appendix F. HC1 Calibration Cylinder Gases
Appendix G. Bodenseewerk Operation Procedures
Appendix H. Thermo Electron Operation Procedures
Appendix I. LSI Operation Procedures
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ACKNOWLEDGMENTS
Entropy wishes to thank the EPA Quality Assurance Division (QAD) of the
Environmental Monitoring Support Laboratory (EMSL) for providing the HCL
continuous monitoring equipment for the characterization test. QAD is
evaluating HC1 monitoring systems in another EPA study. We would also like to
thank Thermo Environmental Instruments, Lear Siegler Instruments, Compur, and
Bodenseewerk/KVB for providing the HC1 analyzers, and especially Bodenseewerk
for sending an engineer from Germany to change operating ranges on their
analyzer -
The cooperation of the Ogden Martin Systems, Marion County personnel was
greatly appreciated during the test program.
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1.0 INTRODUCTION
1.1 BACKGROUND
Concurrent with this characterization test program, the U. S. Environmental
Protection Agency (EPA) was finalizing a report to Congress, as required by
Section 102 of the reauthorized Resource Conservation and Recovery Act (RCRA)
on the risks associated with municipal waste combustor (MWC) emissions and con-
trol technologies to minimize those emissions. The report to Congress repre-
sents a joint effort between the Office of Air Quality Planning and Standards
(OAQPS), the Office of Solid Waste (OSW). and the Office of Research and
Development (ORD). The four classes of air pollutants included in this study
are: (1) criteria pollutants, (2) organics (including polychlorinated dibenzo—
p-dioxins [PCDD] and polychlorinated dibenzofurens [PCDF]), (3) metals, and (k)
acid gases.
Under terms of a 1986 settlement agreement to a petition from the Natural
Resources Defense Council (NRDC) and the State of New York, the EPA had, in
part, agreed to publish in the Federal Register a decision on whether to
further regulate MWC's under Section 112 of the Clean Air Act. Accordingly, on
July 7, 1987, the EPA published in the Federal Register (52 FR 25399) an
advanced notice of proposed rulemaking for new and modified MWC's under Section
lll(b) of the Clean Air Act and the development of guidelines for existing
MWC's under Section lll(d).
The Emissions Standards and Engineering Division of OAQPS is responsible
for reviewing the existing data base on MWC emissions, identifying gaps in the
existing data base, and generating additional information to fill those data
gaps to support any regulatory development that is deemed necessary. The data
gathered through this test program and other emissions testing will supplement
this data base.
1.2 PURPOSE AND OBJECTIVES
A parametric test program has been designed to supplement the spray
dryer/fabric filter (SD/FF) data base for mass burning (MB) MWC facilities.
Existing data were collected during pilot scale studies at Quebec City in the
NITEP study (see NITEP: Pilot Plant Evaluation Program, Quebec City, Quality
Assurance Report, CSC 110.J683-2; prepared for the Air Resources Branch,
Ontario Ministry of the Environment, 880 Bay Street, Toronto, Ontario, M5S 1Z8;
prepared by Concord Scientific Corporation, 2 Tippett Road, Toronto, Ontario,
M3H 2V2; November 1986). Additional data were required because the unit tested
was a pilot scale unit and the testing did not evaluate the effect of
combustion variation on control system performance.
The principal objectives of the parametric test program were:
(a) Evaluate control efficiency of an SD/FF control device for selected
air emissions from a mass burn MWC operated within its normal
operations envelope, including startup and shutdown conditions.
(b) Establish variability of SD/FF control efficiency for selected air
emissions over a range of spray dryer outlet temperatures and
sorbent injection rates.
(c) Identify combustor design or operating parameters that can be
monitored and controlled to minimize selected emissions of concern.
1-1
-------
The parametric test program will be conducted in two phases: the char-
acterization test program and the performance test program. This test report
describes the HC1 monitoring conducted during the characterization test
program.
The overall objective of the characterization test program at the Marion
County facility was to evaluate the performance of the combustor and the
emissions control system over the range of permitted operation. The
evaluation was conducted primarily with continuous emission monitors
(CEMS's).
Specific objectives were:
(a) Determine the baseline combustion parameters (combustion
efficiency; concentrations of CO, C02, 0_, SO-, N0x, THC, and
HC1; and furnace temperature) when the steam load, excess air,
and air distribution were set at normal or design conditions.
(b) Determine the baseline performance of the flue gas cleaning
system for SO_/HC1 removal when the temperature and chemical
ratio were set to normal or design conditions.
(c) While maintaining CO emissions below 150 ppm, determine the
effects of load, excess air, and air distribution on CO
emissions during baseline control system operation.
(d) Determine emission control system SOp/HCl removal efficiency
at off-design temperatures during baseline furnace operating
conditions and under conditions where the excess air, steam
load, and air distribution were varied.
Entropy conducted continuous emission monitoring for HC1 at the inlet to
the spray dryer, at a midpoint between the spray dryer and the baghouse, and at
the outlet of the baghouse. Radian Corporation simultaneously conducted manual
sampling for HC1 at these three locations throughout the test program. Radian
also performed continuous emission monitoring of S0_, NO , 0,,, CO, CO , and THC
at the inlet and outlet locations and SO , CO-, and 0 a? the midpoint location
throughout the test program. During the startup and shutdown periods, Radian
conducted PCDD/PCDF sampling in conjunction with the manual HC1 sampling at the
spray dryer inlet and at the stack outlet location. The one-minute continuous
monitoring emission data generated by Entropy and Radian were correlated to the
process data taken each 15 minutes. The manual sampling data were in the form
of test run averages.
1.3 BRIEF PROCESS DESCRIPTION
Figure 1-1 presents a process diagram for one of the two identical
incinerator systems at the Marion County facility. Unit No. 1 was tesueu
during this program. Unit No. 1 is a reciprocating grate, mass-burn type
incinerator with a waterwall boiler that produces superheated steam. The n
gas passes from the incinerator into convection, superheater, and economizer
sections before acid gases and particulate emissions are controlled by a dry
scrubber and baghouse emissions control system.
was tested
•ype
The flue
1-2
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lo Alm
f ulnie*
Omni li lloirloi/ |
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The refuse is typical residential and commercial solid waste. No sorting
or shredding is performed prior to incineration. The refuse is brought to
the enclosed tipping area by truck and is unloaded into the receiving pit. A
manually-operated overhead crane transfers the refuse from the receiving pit
to the incinerator charging chute. A Martin inclined grate and ash discharge
system is used at the Marion County facility.
1.4 SCHEDULE
The test began with the arrival of the Entropy and Radian test crews on
May 27, 198?- The test crews departed the test site on June 26, 1987. The
calendar shown in Figure 1-2 depicts the schedule of tests conducted at the
test site.
1.5 ORGANIZATION
Due to the many interests in the test program, the communication scheme
shown in Figure 1-3 was followed. Mr. Pete Schindler of the Office of Air
Quality Planning and Standards (OAQPS) and Mr. James Kilgroe and Dr. Ted Brna
of the Air & Energy Engineering Research Laboratory (AEERL) participated as
program coordinators. Mr. Steve Schliesser of Midwest Research Institute
(MRI) assisted the program coordinators in monitoring the process
operations. The test program coordinators were responsible for coordinating
the overall test program with the plant officials and the Oregon DEQ, and for
assuring that the process and control equipment operating conditions were
suitable for testing. Mr. Gene Riley of OAQPS was the EPA Task Manager, and
was responsible for coordinating the efforts of the test crews and the
Quality Assurance Officer.
Mr. J. Ron Jernigan was the overall Project Coordinator for the HC1
monitoring conducted by Entropy. Mr. Phillip Juneau served as the HC1 Test
Team Leader and was responsible for field testing and on-site QA/QC
activities, and Mr. Scott Shanklin was responsible for the installation,
set-up and check out of the HC1 CEM systems prior to the test program.
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JUNE 1Q87
SUNDAY
7
OFF
14
PERFORM
SAMPLING SYSTEM
MAINTENANCE
21
SHUTDOWN TEST
28
MONDAY
1
SETUP:
MAY 27 TO JUNE 1
8
TEST
CONDITION NO. 4
15
TEST CONDITION
NO. 10
CONTROL DEVICE
260 DEGREES
22
BEGIN
STARTUP TEST
29
TUESDAY
2
PERFORM
EXTERNAL AUDIT
9
TEST
CONDITION NO. 5
16
TEST CONDITION
N0.11a = 330DEG.
N0.11b = 360DEG.
23
END
STARTUP TEST
30
WEDNESDAY
3
PERFORM
EXTERNAL AUDIT
10
TEST CONDITION
NO. 6a/6b
17
HC1 SAMPLING
METHOD
COMPARISON
24
REMOVE
EQUIPMENT AND
PACK
THURSDAY
4
TEST
CONDITION NO. 1
BASELINE
1 1
TEST CONDITION
N0.7a
18
DAT A REDUCTION
25
PACK DAY
FRIDAY
5
TEST
CONDITION NO. 2
BASELINE
12
TEST CONDITION
NOS.8&9
19
DAT A REDUCTION/
SAMPLING SYSTEM
MAINTENANCE
26
SATURDAY
6
TEST CONDITION
NO. 3a/3b
13
OFF
20
PREPARE FOR
SHUTDOWN TEST
27
FIGURE 1-2. TEST SCHEDULE
3514
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MARION COUNTY PARAMETRIC CHARACTERIZATION TEST PROGRAM
Proposed Contractor Effort
Contractor Scope of
Radian Conduct field test prograa
Ml Perform process monitoring
Ogden Projects Compliance field testing
Entropy Develop OAQPS QA plan
Conduct HC1 monitoring
Funcing Source
OAQPS/AEERL
OAQPS
Ogden Projects
OAQPS
Government Pcrsonel On Test Site
EPA, AEERL-
Jaoes Kilgroe
Ted Sma
EPA, OAQPS- Pete Schindler
Sene Riley
ODEQ- Wendv Sims
Marion County Para
Proposed Manage
•trie Characterization Test Program
ent Protocol for Decision Making
Aovisor runcnons
Ray Klicius
SOD NcCaig
I?A Project uoorainators
Ted Brna
Peter Schindler
James KHoroe
MRl
Process Honitoring
Steve Scnllesser "
OAQPS Coordinator
Peter Schindler
AEER1 uaoroinator
Ted Brna
OAOPS Tast Manager
&ene Ri ley
Ogoen Martin Cooroinators
Jeffrey Hahn
David Sussaan
Fred Enoelharflt
ugoen Martin
Program Cooroinator
Jeffrey Hahn
ugoen Martin
Test Crew
Henrv Von Dewfanoel
Entropy QA Plan
Bill Defcees
Scott Steinsberoer
Radian
Test Crew
E«1ss1on Testing
Winton Kellv
tntropy
Test Crew
HC1 Testing
Ron Jerniaan
AEERl - Air and Energy Engineering Research Laboratory
OAQPS - Office of Air Quality Planning and Standards
ODEQ - Oregon Deoament of Environmental Quality
MRI - Midwest Research Institute
Figure 1-3. Organizational Scheme
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2.0 SUMMARY AND DISCUSSION OF RESULTS
The mean HC1 monitoring results for Test Conditions 1-13 are presented in
Table 2.1. The HC1 concentrations at the inlet sampling location were measured
on a wet basis and converted to a dry basis using Method 4 data provided by
Radian. The monitoring results for each test condition were corrected for
calibration drift using the pretest and post-test calibration gas injection
results according to the procedure in Reference Method 6C. Sample calculations
are included in Appendix A. Table 2.2 is a summary of the moisture and flow
rate data that was provided by Radian Corporation for Test Conditions 1-11B
(excerpted from "Characterization Test Program Emission Test Report," prepared
for U. S. Environmental Protection Agency, OAQPS, Emission Measurement Branch,
Report No. EMB 87-MIN-04A). The HC1 monitoring results that were printed by
the data acquisition system during the testing are included in Appendix B. The
daily calibration results are contained in Appendix C.
For Test Conditions 1-11B, the HC1 removal efficiency was calculated from
the inlet to the midpoint location and from the inlet to the outlet location
(see Table 2.3). These removal efficiencies were calculated on a mass basis
using the flow rate data from Radian's manual testing.
2.1 TEST CONDITION 1 - BASELINE
The results for Test Condition 1 are summarized in Table 2.4 and are
presented on a trend graph in Figure 2-1. The mean HC1 concentration values
were 560, l6l, and 56 ppm HC1 at the inlet, midpoint, and outlet locations,
respectively. The mean HC1 removal efficiencies were 64 percent at the
midpoint and 86 percent at the outlet. A trend graph of the removal
efficiencies during Test Condition 1 is presented in Figure 2-2.
During the pretest calibrations, the compressed air supply to the HC1
analyzers was temporarily lost. Consequently, the midpoint HC1 analyzer could
not be calibrated prior to the start of Test Condition 1. The slow response
time of the LSI analyzer would have caused a further delay if another
calibration had been requested. The analyzer had been calibrated on the
previous day, and calibration gases were injected after the test. The midpoint
calibration drift from the previous day to the post-test calibration was 6.5%
of span, well within the 20% drift limit established in the Quality Assurance
Project Plan.
At the outlet location, the HC1 readings exceeded the span of the analyzer
(100 ppm HC1) for a total of approximately 2 minutes. This correlated with
high S0_ spikes (> 600 ppm) at the inlet measured by Radian.
2.2 TEST CONDITION 2 - BASELINE
The results for Test Condition 2 are summarized in Table 2-5 and are
presented on a trend graph in Figure 2-3- The mean HC1 concentration values
were 579, 138, and 24 ppm HC1 at the inlet, midpoint, and outlet locations,
respectively. The mean HC1 removal efficiencies were 70 percent at the
midpoint and 95 percent at the outlet. The calibration drift results were
within the 20% drift limit for all of the HC1 analyzers.
2-1
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2.3 TEST CONDITION 3A - LOW EXCESS AIR
The results for Test Condition 3A are summarized in Table 2-6 and are
presented on a trend graph in Figure 2-4. The mean HC1 concentration
measurements were 542, 163, and 42 ppm HC1 at the inlet, midpoint, and outlet
locations, respectively. The mean HC1 removal efficiencies were 61 percent
at the midpoint and 90 percent at the outlet.
The midpoint results are based on only 45 minutes of data collected at
the end of the test condition. Due to a drop in the voltage to the heated
sample line, water vapor in the sample gas condensed in the sample line. The
condensate was removed and the line was dried before the end of the test.
The calibration checks were conducted before Test Condition 3A and after
Condition 3B to allow HC1 monitoring between the two test conditions.
2.4 TEST CONDITION 3B - HIGH EXCESS AIR
The results for Test Condition 3B are summarized in Table 2.7 and are
presented on a trend graph in Figure 2-5- The mean HC1 concentration results
were 559, 113, and 29 ppm HC1 at the inlet, midpoint, and outlet locations,
respectively. The mean HC1 removal efficiencies were 76 percent at the
midpoint and 93 percent at the outlet. The calibration checks were conducted
before Condition 3A and after Condition 3B to allow HC1 monitoring between
the two test conditions.
2.5 TEST CONDITION 4 - LOW OVERFIRE/UNDERFIRE AIR DISTRIBUTION
The results for Test Condition 4 are summarized in Table 2.8 and are
presented on a trend graph in Figure 2-6. The mean HC1 concentration results
were 557, 109, and 7 ppm HC1 at the inlet, midpoint, and outlet locations,
respectively. The mean HC1 removal efficiencies were 78 percent at the
analyzer and 98 percent at the outlet.
The first 10 minutes of data from the outlet HC1 analyzer were invalid
because a gas cell calibration had just been completed and the sampling
system was being conditioned with sample gas.
2.6 TEST CONDITION 5 - HIGH OVERFIRE/UNDERFIRE AIR DISTRIBUTION
The results for Test Condition 5 are summarized in Table 2.9 and are
presented on a trend graph in Figure 2-7. The mean HC1 concentration results
were 637, 82, and 31 ppm HC1 at the inlet, midpoint, and outlet locations,
respectively. The mean HC1 removal efficiencies were 85 percent at the
midpoint and 94 percent at the outlet.
2.7 TEST CONDITION 6A - LOW LOAD AND NORMAL EXCESS AIR
The results for Test Condition 6A are summarized in Table 2 10 and are
presented on a trend graph in Figure 2-8. The mean HC1 concentration results
were 596, 163. and 49 ppm HC1 at the inlet, midpoint, and outlet locations
respectively. The mean HC1 removal efficiencies were 74 percent at the
midpoint and 91 percent at the outlet.
2-2
-------
The HC1 concentration measurements at the outlet location exceeded the
span of the analyzer (100 ppm HC1) for a total of approximately 8 minutes.
The longest of the off-scale periods lasted approximately 4 minutes.
The midpoint HC1 monitoring data for the first 90 minutes of test
condition 6A were invalid because the analyzer was reading off-scale. The
off-scale readings were probably caused by a spike in the HC1 concentration
just before the start of the run. The analyzer readings were within scale 75
minutes into the run, but the instrument was allowed to stabilize for an
additional 15 minutes.
Calibration checks were conducted before Condition 6A and after Condition
6B to allow HC1 monitoring between the two test conditions.
2.8 TEST CONDITION 6B- LOW LOAD AND HIGH EXCESS AIR
The results for Test Condition 6B are summarized in Table 2.11 and are
presented on a trend graph in Figure 2-9- The mean HC1 concentration results
were 380, 47, and 13 ppm HC1 at the inlet, midpoint, and outlet locations,
respectively. The mean HC1 removal efficiencies were 85 percent at the
midpoint and 95 percent at the outlet.
The data from 16:55 until 17:10 were omitted because the plant lost its
compressed air supply and had to bypass the baghouse. Also, the loss of
compressed air affected the operation of the inlet and midpoint dilution
probes. At 17:30 the plant again lost compressed air and the test (Condition
6B) was terminated.
Calibration checks were conducted before Condition 6A and after Condition
6B to allow HC1 monitoring between the two test conditions.
2.9 TEST CONDITION 7A - LOW LOAD AND LOW EXCESS AIR
The results for test condition 7A are summarized in Table 2.12 and are
presented on a trend graph in Figure 2-10. The mean HC1 concentration
results were 630, 176, and 50 ppm HC1 at the inlet, midpoint, and outlet
locations, respectively. The mean HC1 removal efficiencies were 67 percent
at the midpoint and 90 percent at the outlet.
The HC1 concentration measurements at the outlet location exceeded the
span of the analyzer (100 ppm HC1) for a total of 13 minutes. The longest of
the off-scale periods lasted 7 minutes.
2.10 TEST CONDITION 8 - LOW LOAD AND LOW OVERFIRE/UNDERFIRE AIR DISTRIBUTION
The results for Test Condition 8 are summarized in Table 2.13 and are
presented on a trend graph in Figure 2-11. The mean HC1 concentration
results were 465, 137, and 25 ppm HC1 at the inlet, midpoint, and outlet
locations, respectively. The mean HC1 removal efficiencies were 64 percent
at the midpoint and 93 percent at the outlet.
During the pretest calibrations for Test Condition 8, a significant
change in the dilution ratio was noted for the midpoint dilution probe. The
midpoint HC1 monitoring system did not provide data during the first 90
minutes of the test condition because it was being recalibrated.
2-3
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2.11 TEST CONDITION 9 - LOW LOAD AND HIGH OVERFIRE/UNDERFIRE AIR
DISTRIBUTION
The results for Test Condition 9 are summarized in Table 2.14 and are
presented in a trend graph in Figure 2-12. The mean HC1 concentration
results were 510, 134, and 12 ppm HC1 at the inlet, midpoint, and outlet
locations, respectively. The mean HC1 removal efficiencies were 70 percent
at the midpoint and 97 percent at the outlet.
.o.
2.12 TEST CONDITION 10 - LOW QUENCH REACTOR OUTLET TEMPERATURE (260 F)
The results for Test Condition 10 are summarized in Table 2.15 and are
presented in a trend graph in Figure 2-13. The mean HC1 concentration
results were 699, 132, and 14 ppm HC1 at the inlet, midpoint, and outlet
locations, respectively. The mean HC1 removal efficiencies from the inlet to
the midpoint and from the inlet to the outlet locations were 79# and 98#,
respectively. The removal efficiencies were also calculated for the one-
minute averages and are shown in Figure 2-14.
2.13 TEST CONDITION 11A - HIGH QUENCH REACTOR OUTLET TEMPERATURE (330°F)
The results for Test Condition 11A are summarized in Table 2.16 and are
presented in a trend graph in Figure 2-15- The mean HC1 concentration
results were 635, 218, and 105 ppm HC1 at the inlet, midpoint, and outlet
locations, respectively. The mean HC1 removal efficiency from the inlet to
the midpoint and from the inlet to the outlet were 57 percent and 79 percent,
respectively. The removal efficiency trend graphs are presented in Figure
2-16.
From 11:28 until 12:37 the computer data acquisition system stopped
recording data due to a problem in the time-sharing software. The data for
this period were transcribed from strip charts and entered into the computer
summaries manually.
The calibration checks were conducted before Condition 11A and after
Condition 11B to allow HC1 monitoring between the two test conditions.
12.14 TEST CONDITION 11B - HIGH QUENCH REACTOR OUTLET TEMPERATURE (360°F)
The results for Test Condition 11B are summarized in Table 2.17 and are
presented in a trend graph in Figure 2-16. The mean HC1 concentration results
were 685, 224, and 139 ppm HC1 at the inlet, midpoint, and outlet locations,
respectively. The mean HC1 removal efficiencies from the inlet to the
midpoint and from the inlet to the outlet location were 62 percent and 76
percent, respectively. The removal efficiency trend graphs are presented in
Figure 2-18.
The outlet HC1 readings exceeded the span of the analyzer (250 ppm HC1)
for a total of 9 minutes during Test Condition 11B. The longest of the off-
scale periods lasted for 7 minutes.
The calibration checks were conducted before Condition 11A and after
Condition 11B to allow HC1 monitoring between the two test conditions.
2-4
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12.15 TEST CONDITION 12 - UNIT SHUTDOWN
The results for Test Condition 12 are summarized in Table 2.18 and are
presented in a trend graph in Figure 2-19- The inlet concentrations are
presented on a wet basis because a constant moisture correction could not be
applied.
The midpoint results for Condition 12 were invalid because a loss of power
to the heated sample line just prior to the test caused condensation in the
sample stream.
12.16 TEST CONDITION 13 - UNIT STARTUP
The results of Test Condition 13 are summarized in Table 2.19 and are
presented in a trend graph in Figure 2-20. The inlet concentrations are
presented on a wet basis because a constant moisture correction could not be
applied.
The midpoint results for Test Condition 13 indicated HC1 concentrations
that were between 0 ppm HC1 and half of the outlet concentration, although the
calibrations through the dilution probe indicated acceptable analyzer
performance. The invalid results were probably caused by a leak in the
sampling system upstream from the dilution probe.
2-5
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TABLE 2.1.
SUMMARY OF HCL MONITORING DATA
CHARACTERIZATION TEST PROGRAM
MARION COUNTY SOLID WASTE-TO-ENERGY FACILITY
JUNE 1987
Test
1
2
3A
3B
4
5
6A
6B
7A
8
9
10
11A
11B
Condition
- Baseline
- Baseline
- Low Excess Air
- High Excess Air
- Low Overfire/Underfire Air
- High Overfire/Underfire Air
- Low Load and Normal Excess Air
- Low Load and High Excess Air
- Low Load and Low Excess Air
- Low Load and Low Overfire/Underfire Air
- Low Load and High Overfire/Underfire Air
- Low Quench Reactor Outlet Temp. (260°F)
- High Quench Reactor Outlet Temp. (330°F)
- High Quench Reactor Outlet Temp. (360°F)
Inlet
ppm HC1
(dry)
560
579
542
559
557
637
596
380
630
465
510
699
635
685
Midpoint
ppm HC1
(dry)
161
138
163
113
109
82
163
47
176
137
134
132
218
224
Outlet
ppm HC1
(dry)
56
24
42
29
7
31
49
13
50
25
12
14
105
139
2-6
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TABLE 2.2
SUMMARY OF MOISTURE AND FLOWRATE DATA
PROVIDED BY RADIAN CORPORATION
CHARACTERIZATION TEST PROGRAM
MARION COUNTY SOLID WASTE-TO-ENERGY FACILITY
JUNE 1987
Inlet
Test Condition Moisture
(% H20)
1 -
2 -
3A -
3B -
4 -
5 -
6A -
6B -
7A -
8 -
9 -
10 -
11A-
11B-
Baseline
Baseline
Low Excess Air
High Excess Air
Low Overfire/Underfire Air
High Overfire/Underfire Air
Low Load
Low Load and High Excess Air
Low Load and Low Excess Air
Low Load and Low Overfire/Underfire Air
Low Load and High Overfire/Underfire Air
Low Quench Reactor Outlet Temp. (260°F)
High Quench Reactor Outlet Temp. (330°F)
High Quench Reactor Outlet Temp. (360°F)
12.7
13-2
14.6
14. 61
13-7
13-0
13-9
9-9
14.3
12.5
12.7
15. o1
13-7
15.7
Inlet
Flow
(dscfm)
30390
31910
25830
33940
31760
31110
28220
31700
23250
28270
26730
30410
30200
32770
Midpoint
Flow
(dscfm)
37660
40030
32840
40680
35700
36870
28390
38300
27380
28640
30390
34180
37500
38450
Outlet
Flow
(dscfm)
43080
40110
32460
45330
39570
40290
30250
41710
29070
30920
35670
37160
38970
39230
Test run invalid - assumed value.
2-7
-------
TABLE 2.3.
HC1 REMOVAL EFFICIENCY SUMMARY
CHARACTERIZATION TEST PROGRAM
MARION COUNTY SOLID WASTE-TO-ENERGY FACILITY
JUNE 1987
Test
1 -
2 -
3A -
3B -
4 -
5 -
6A -
6B -
7A -
8 -
9 -
10 -
11A-
11B-
Percent
Removal
Condition at Midpoint
Baseline
Baseline
Low Excess Air
High Excess Air
Low Overfire/Underfire Air
High Overfire/Underfire Air
Low Load and Normal Excess Air
Low Load and Low Excess Air
Low Load and Low Excess Air
Low Load and Low Overfire/Underfire Air
Low Load and High Overfire/Underfire Air
Low Quench Reactor
Outlet Temperature (262°F)
High Quench Reactor
Outlet Temperature (330°F)
High Quench Reactor
/-\,,4-1^4- T.-X™,,,, — ~4 ~ /">£r\°n\
64%
10%
61%
76%
78%
85%
7^%
85%
67%
64%
70%
79%
57%
62%
Percent
Removal
at Outlet
86%
95%
90%
93%
98%
94%
91%
95%
90%
93%
97%
98%
79%
76%
2-8
-------
TABLE 2.4
HC1 MONITORING RESULTS - TEST CONDITION 1
MARION COUNTY SOLID WASTE-TO-ENERGY FACILITY
JUNE 1987
BASELINE
Inlet
ppm HC1
Hour Time (dry)
1 13:00-14:00
2 14:00-15:00
3 15:00-16:00
3 -Hour Average
Highest 1 -Minute Average
Average
Lowest 1 -Minute
583
540
558
560
681
445
Midpoint
ppm HC1
(dry)
1461
1731
1631
161
20?
90
Percent
Removal
of HC1
692
60%
64%
64%
19
Outlet
ppm HC1
(dry)
39
742
55
56
97
Percent
Removal
of HC1
91%
81%
86%
86%
The HC1 analyzers at the midpoint location could not be calibrated before
the test run because of a temporary loss of compressed air. A post test
calibration was conducted and the calibration drift from the previous day's
calibration and the post test calibration was 6.5% of span.
•>
"The HCL readings exceeded the span of the outlet HC1 analyzer (100 ppm HC1)
for approximately 2 minutes.
2-9
-------
K)
I
to
'to
D
-0
O
a.
CL
240
220
200
183
160
140
120
100
80
60 -
40 -
20 -
0
,
s
13:00
Figure 2-1
HC1 Monitoring Data - Run 1 6/4/87
Marion County Waste-to-Energy Facility
*• «
i » ' ••
i \i \
**;V' ?,;
> "' i i'i
'! i i *i
i i
i ) '
i 'i i
OUTLET
INLET X 10
13:30
14:00
14:30
TIME
15:00
/<
11
• 11
\ ; \:\
Ml u
15:30
l I
il
-------
o
X
0
o
0)
c
V
o
V
a.
100
13:00
Figure 2-2
HC1 Removal Efficiency - Run 1
Marion County Waste—to—Energy Facility
15:30
-------
TABLE 2.5
HC1 MONITORING RESULTS - TEST CONDITION 2
MARION COUNTY SOLID WASTE-TO-ENERGY FACILITY
JUNE 1987
BASELINE
Inlet
ppm HC1
Hour Time (dry)
1 11:00-12:00
2 12:00-13:00
3 13:00-14:00
3 -Hour Average
Highest 1 -Minute Average
Lowest 1-Minute Average
613
588
535
579
776
451
Midpoint
ppm HC1
(dry)
163
131
118
138
234
85
Percent Outlet
Removal ppm HC1
of HC1 (dry)
67% 32
72% 25
12% 13
70% 24
50
9
Percent
Removal
of HC1
93%
35%
97%
95%
2-12
-------
ho
I
g
o
X
Q_
Q_
260
240
220
200
180
160
120
100
0
•A
11:00
Figure 2-3
HC1 Monitoring Data - Run 2 6/5/87
Marion County Waste—to—Energy Facility
' M
>
"i
11
1 '«
»i
''_ • , MIDPOINT
i " '
,
'
'
'.!
INLET X 10
11:30
12:00
12:30
TIME
,", •' '.
i\ i
» i
V I
13:00
13:30
:\
-------
TABLE 2.6
HC1 MONITORING RESULTS - TEST CONDITION 3A
MARION COUNTY SOLID WASTE-TO-ENERGY FACILITY
JUNE 1987
LOW EXCESS AIR
Hour Time
1 10:00-11:00
2 11:00-12:00
3 12:00-13:00
3-Hour Average
Highest 1-Minute Average
Lowest 1-Minute Average
Inlet
ppm HC1
(dry)
505
591
530
542
855
369
Midpoint
ppm HC1
(dry)
___!
1
163
163
NA
NA
Percent
Removal
of HC1
61%
61%
Outlet
ppm HC1
(dry)
44
40
43
42
63
26
Percent
Removal
of HC1
89%
91%
90%
90%
Midpoint HC1 monitor out of service due to condensation in the sample line.
Note: Calibrations of HC1 analyzers were conducted before Test Condition 3A
and after Test Condition 3B to allow HC1 monitoring between the two
test conditions.
2-14
-------
ho
I
-------
TABLE 2.7
HC1 MONITORING RESULTS - TEST CONDITION 3B
MARION COUNTY SOLID WASTE-TO-ENERGY FACILITY
JUNE 1987
HIGH EXCESS AIR
Hour Time
1 14:30-15:30
2 15:30-16:30
3 16:30-17:30
3 -Hour Average
Highest 1-Minute Average
Lowest 1-Minute Average
Inlet
ppm HC1
(dry)
565
600
513
559
745
420
Midpoint
ppm HC1
(dry)
106
137
97
113
169
38
Percent
Removal
of HC1
16%
73%
11%
16%
Outlet
ppm HC1
(dry)
28
40
21
29
51
8
Percent
Removal
of HC1
93%
91%
95%
93%
Note: Calibrations of HC1 analyzers were conducted before Test Condition 3A
and after Test Condition 3B to allow HC1 monitoring between the two
test conditions.
2-16
-------
i
i—i
—i
.2
'«
D
jQ
o
Q.
0.
Figure 2-5
HC1 Monitoring Data - Run 3B 6/6/87
Marion County Waste—to—Energy Facility
14:30
17:00
-------
TABLE 2.8
HC1 MONITORING RESULTS - TEST CONDITION 4
MARION COUNTY SOLID WASTE-TO-ENERGY FACILITY
JUNE 1987
LOW OVERFIRE/UNDERFIRE AIR DISTRIBUTION
Inlet
ppm HC1
Hour Time (dry)
1 13:00-14:00
2 14:00-15:00
3 15=00-16:00
3-Hour Average
Highest 1 -Minute Average
Lowest 1 -Minute Average
548
565
558
557
707
412
Midpoint
ppm HC1
(dry)
116
107
103
109
165
93
Percent Outlet
Removal ppm HC1
of HC1 (dry)
76% 81
79% 7
79% 7
78% 7
12
6
Percent
Removal
of HC1
98%
98%
98%
98%
The first 10 minutes of data from the outlet HC1 analyzer were invalid
because a gas cell calibration had just been completed and the sampling sys-
tem was being conditioned with sample gas.
2-18
-------
K)
I
tn
'(O
o
jQ
o
X
CL
CL
170
160
150
140
130
120
110
100
90
80
70
60
50
40
30
20
10
0
13:00
Figure 2-6
HC1 Monitoring Data - Run 4
Marion County Waste—to—Energy Facility
6/8/87
i1,
I I
I I
A !:
,",;",
MIDPOINT
i i
i i\i
11
i/
, i\ ,
V ' < '
\< I'
;, ^
' V \('
I I
VI
'/ V I V \'
I /
^ \>
••'•, M I
\ ' V ,x I
^ v \/
INLET X 10
OUTLET
13:30
14:00
14:30
TIME
15:00
15:30
-------
TABLE 2.9
HC1 MONITORING RESULTS - TEST CONDITION 5
MARION COUNTY SOLID WASTE-TO-ENERGY FACILITY
JUNE 1987
HIGH OVERFIRE/UNDERFIRE AIR DISTRIBUTION
Hour Time
1 10:00-11:00
2 11:00-12:00
3 12:00-13:00
3-Hour Average
Highest 1-Minute Average
Lowest 1-Minute Average
Inlet
ppm HC1
(dry)
664
630
618
637
790
540
Midpoint
ppm HC1
(dry)
85
82
78
82
104
70
Percent
Removal
of HC1
85
85%
85%
85%
Outlet
ppm HC1
(dry)
23
34
37
31
46
13
Percent
Removal
of HC1
96%
93%
92%
9^%
2-20
-------
ho
K)
CO
'co
o
O
X
QL
DL
120
110
100
90
80
70
60 -
50 -
40 -
30 -
20 -
10 -
0
Figure 2-7
HC1 Monitoring Data - Run 5
Marion County Waste—to—Energy Facility
6/9/87
INLET X 10
OUTLET
10:00
10:30
11:00
11:30
TIME
minimi
12:00
12:30
-------
TABLE 2.10
HC1 MONITORING RESULTS - TEST CONDITION 6A
MARION COUNTY SOLID WASTE-TO-ENERGY FACILITY
JUNE 1987
LOW LOAD AND NORMAL EXCESS AIR
Hour Time
1 10:00-11:00
2 11:00-12:00
3 12:00-13:00
3-Hour Average
Highest 1 -Minute Average
Lowest 1-Minute Average
Inlet
ppm HC1
(dry)
532
594
661
596
762
460
Midpoint
ppm HC1
(dry)
__1
156
169
163
225
116
Percent
Removal
of HC1
74%
74%
74%
Outlet
ppm HC1
(dry)
31
532
632
49
107
16
Percent
Removal
of HC1
94%
90%
90%
91%
The midpoint HC1 monitoring data for the first 90 minutes of Test Condition
6A were invalid bacause the analyzer was reading off-scale. The off-scale
readings were probably caused by a spike in the HC1 concentration just
before the start of the run.
The HC1 concentration measurements at the outlet location exceeded the
span of the analyzer (100 ppm HC1) for a total of approximately 8 minutes.
The longest of the off-scale periods lasted approximately 4 minutes.
NOTE: Calibration checks were conducted before Condition 6A and after
Condition 6B to allow HC1 monitoring between the two test conditions.
2-22
-------
ho
I
ho
Lo
OT
"to
O
_O
0
Q.
O_
240 -
220 -
200 -
180 -
160 -
140 -
120 -
40 -
20 -
Figure 2-8
HC1 Monitoring Data - Run 6A
Marion County Waste—to-Energy Facility
6/10/87
i \
i \
i \
MIDPOINT
M i*
I < I
''
.-.
' ••'
"
\ >,
.
1 , 1 I I
OUTLET
"""""I"""""""!
10:00 10:30
11:00
11:30
TIME
12:00
12:30
-------
TABLE 2.11
HC1 MONITORING RESULTS - TEST CONDITION 6B
MARION COUNTY SOLID WASTE-TO-ENERGY FACILITY
JUNE 1987
LOW LOAD AND HIGH EXCESS AIR
Hour
1
2
3
Time
15:00-16:00
leioo-ieiss1
17: 10-17 :302
135-Mimite Average
Highest
Lowest 1
1-Minute Average
-Minute Average
Inlet
ppm HC1
(dry)
371
363
456
380
548
309
Midpoint
ppm HC1
(dry)
53
37
61
47
111
20
Percent
Removal
of HC1
83%
88%
84%
85%
Outlet
ppm HC1
(dry)
14
13
8
13
28
6
Percent
Removal
of HC1
95%
95%
98%
95%
The data from 16:55 until 17:10 were omitted because the plant lost its
compressed air supply and had to bypass the baghouse. Also, the loss of
compressed air affected the operation of the inlet and midpoint dilution
probes.
2
At 17:30 the plant again lost compressed air and the test (Condition 6B)
was terminated.
NOTE: Calibration checks were conducted before Condition 6A and after
Condition 6B to allow HC1 monitoring between the two test conditions,
2-24
-------
I
NJ
Ln
Figure 2-9
HC1 Monitoring Data - Run 6B 6/10/87
jiT
D
o
X
Q.
CL
120 -i
110 -
100 -
90 -
80 -
70 -
60 -
50 -
40 -
30 -
20 -
10 -
i
h
1 , s
[ ', \ MIDPOINT 1 _ \ A
i * 1 fl i ' '
x' 1 .' 1
\," !' ,. '-'"' ' '•
M \ l', ' \ ',,' 1 ' ',
I.1 ' . .' \ , H ' v 1
II |l ' 1 .1 1 ' > 1
i ' i ,' , 1 1 i ' 1 1 A ^ l '
1 * ' ' ' ' ' ' ' ' ' A ' ' ' I /\ A A "
V \lC, A/*'' ... * ' \
. . 1 / 1 1 v
<, H \ 1 -' •
•' '.•''• ' 1 1
OUTLET ' ' " " '•-"•••" -•••""" ' •'•• •"•• •-•.••'
15:00 15:15 15:30 15:45 16:00 16:15 16:30 16:45 17:00 17:15
TIME
-------
TABLE 2.12
HC1 MONITORING RESULTS - TEST CONDITION ?A
MARION COUNTY SOLID WASTE-TO-ENERGY FACILITY
JUNE 1987
LOW LOAD AND LOW EXCESS AIR
Hour Time
1 14:00-15:00
2 15:00-16:00
3 16:00-17:00
3 -Hour Average
Highest 1 -Minute Average
Lowest 1 -Minute Average
Inlet
ppm HC1
(dry)
562
693
636
630
860
450
Midpoint
ppm HC1
(dry)
173
171
184
176
253
51
Percent
Removal
of HC1
6k%
71%
66%
61%
Outlet
ppm HC1
(dry)
691
29
511
50
107
7
Percent
Removal
of HC1
85%
95%
90%
90%
The HC1 concentration measurements at the outlet location exceeded the
span of the analyzer (100 ppm HC1) for a total of 13 minutes. The longest
of the off-scale periods lasted 7 minutes.
2-26
-------
Figure 2-10
HC1 Monitoring Data - Run 7A
Marion County Waste-to-Energy Facility
6/11/87
OT
°co
D
JD
a
Q_
CL
14:00
-------
TABLE 2.13
HC1 MONITORING RESULTS - TEST CONDITION 8
MARION COUNTY SOLID WASTE-TO-ENERGY FACILITY
JUNE 1987
LOW LOAD AND LOW OVERFIRE/UNDERFIRE AIR DISTRIBUTION
Inlet
ppm HC1
Hour Time (dry)
1 10:00-11:00 483
2 11:00-12:00 471
3 12:00-13:00 440
3 -Hour Average 465
Highest 1 -Minute Average 609
Lowest 1 -Minute Average 359
Midpoint
ppm HC1
(dry)
...1
1671
106
137
176
73
Percent Outlet
Removal ppm HC1
of HC1 (dry)
35
57% 25
71% 15
64% 25
46
10
Percent
Removal
of HC1
91%
93%
96%
93%
During the pretest calibrations for Test Condition 8, a significant change
in the dilution ratio was noted for the midpoint dilution probe. The mid-
point HC1 monitoring system did not provide data during the first 90 minutes
of the test condition because it was being recalibrated.
2-28
-------
I
t"0
Figure 2-11
HC1 Monitoring Data - Run 8 6/12/87
200 -i
190 -
180 -
170 -
160 -
150 -
140 -
V 130 -
vt
o 120 -
^ 110 -
^ 100 -
g 90 -
> 80 -
8: 70 -
60 -
50 -
40 -
30 -
20 -
10 -
0 -
10
ivivii iv/i i v/v/U M yy VVVJOLvT — \.\J L_Md yy 1 v*v* III yy
A ; MIDPOINT
,' ', " '"«
v V \: \
\__ _,*
\/' \ i \ ft H
, 1 ( MM
1 1 \ /V 1 I ' t
, 1 . 1 | 11 ( _
x\ l^,'1 \ '''
\ 1 * ,' v
V' (/
I /
/ — »^\ A /V-» A liNLt_l A 1 U . A /s /v^-\ A >-v /\
^/ ^\AA//V^/VXV/\A^ v/ x.rvs /x j^^^^-
!' ,/\:'\ ..•-•, ; . /•-... -''\ ^V/ ^^^
OUTLET " ••-..--..•"-'' •••"• - •-••• • •"-•"•
00 10:30 11:00 11:30 12:00 12:30
TIME
-------
TABLE 2.14
HC1 MONITORING RESULTS - TEST CONDITION 9
MARION COUNTY SOLID WASTE-TO-ENERGY FACILITY
JUNE 1987
LOW LOAD AND HIGH OVERFIRE/UNDERFIRE AIR DISTRIBUTION
Hour Time
1
2
3
4
3-
iighe
.jOwes
14:30-15:30
15:30-16:30
16:30-17:30
17:30-18:00
5 -Hour Average
st 1-Minute Average
t 1-Minute Average
Inlet
ppm HC1
(dry)
481
510
498
593
510
675
403
Midpoint
ppm HC1
(dry)
118
129
138
171
134
215
103
Percent
Removal
of HC1
72%
71%
68%
67%
70%
Outlet
ppm HC1
(dry)
11
10
13
15
12
18
8
Percent
Removal
of HC1
97%
97%
97%
97%
97%
2-30
-------
I
UJ
Figure 2-12
HC1 Monitoring Data - Run 9 6/12/87
'In'
'to
D
O
X
Q_
Q.
ryryr\ ITIWIIWII xsv/u 1 I Ljr VfUOLOI.VJL.Iidyy lUWIMLy
^_^. \J
200 -
180 -
160 -
140 -
120 -
100 -
80 -
60 -
40 -
20 -
' v
i1 V
,\;
i r, 1
h 1,1
11 ,1 ,1 ' >'
,* ' > i 1 M ,'«,''
* " ' ' | 1 r ' < / 1 1 ' '
M ' ' ! ' I ' I V ' i " -'
MIDPOINT ,^,'V-, ,N A;\,r\/\ fi ;\ /t / y V '' V v
V'« „ .- ,'\ „ ,-> ,'V \/'v' '' ''' '' V\ i' '"A' '' '-' '
* ' \ ^ ' v i 'A ^ i w ' n " "
• \ ,^ (> i >, \ ,\ ('
-------
TABLE 2.15
HC1 MONITORING RESULTS - TEST CONDITION 10
MARION COUNTY SOLID WASTE-TO-ENERGY FACILITY
JUNE 1987
LOW QUENCH REACTOR OUTLET TEMPERATURE (260°F)
Hour Time
1 12:30-13:30
2 13:30-14:30
3 14:30-15:30
4 15:30-16:00
3-5~Hour Average
Highest 1 -Minute Average
Lowest 1 -Minute Average
Inlet
ppm HC1
(dry)
629
690
778
701
699
959
522
Midpoint
ppm HC1
(dry)
130
141
132
114
132
184
98
Percent
Removal
of HC1
11%
11%
81%
82%
79%
Outlet
ppm HC1
(dry)
19
20
6
5
14
35
4
Percent
Removal
of HC1
96%
96%
99%
99%
98%
2-32
-------
I
Lo
CO
D
_Q
b
TJ
O
Q-
Q_
190
180
170
160
150
140
130
120
110
100
90
80
70
60
50
40
30
20
10
0
Figure 2-13
HC1 Monitoring Data - Run 10
Marion County Waste—to—Energy Facility
6/15/87
v
•I' I
' \
ll
'I
I I
I I
I I
I I
I I
1 I
i I '
I «
1 i i
, MIDPOINT
i»
t
l<
I I
K
'i
i i
, , i i i
, i i ' \
i/ i '
i i
11
1 ','
i \'
OUTLET
1 1 1 1 1 1 1 1
12:30 13:00 13:30 14:00 14:30
,
—i 1 1 r
15:00 15:30
TIME
-------
100
Figure 2-14
HC1 Removal Efficiency - Run 10
Marion County Waste—to-Energy Facility
OUTLET
90 -
ho
I
Lo
-P-
o
n:
«*-
o
"5
E
o>
DC
•*->
c
o
0>
CL
80 -
70 -
60 -
50
—I
13:00
—I—
13:30
T
T
1
15:00
12:30
14:00 14:30
TIME
I
15:30
-------
TABLE 2.16
HC1 MONITORING RESULTS - TEST CONDITION 11A
MARION COUNTY SOLID WASTE-TO-ENERGY FACILITY
JUNE 1987
HIGH QUENCH REACTOR OUTLET TEMPERATURE (330°F)
Hour
Time
Inlet Midpoint Percent Outlet Percent
ppm HC1 ppm HC1 Removal ppm HC1 Removal
(dry) (dry) of HC1 (dry) of HC1
1 10:00-11:00
2 11:00-12:001
3 12: 00-13 lOO1
3-Hour Average
Highest 1 -Minute Average
Lowest 1-Minute Average
599
608
698
635
819
486
196
199
257
218
292
167
59%
59%
54%
57%
77
72
165
105
293
52
83%
85%
69%
79%
From 11:28 until 12:37 the computer data acquisition system stopped record-
ing data due to a problem in the time-sharing software. The data for this
period were transcribed from strip charts and entered into the computer
summaries manually.
NOTE: The calibration checks were conducted before Condition 11A and after
Condition 11B to allow HC1 monitoring between the two test conditions,
2-35
-------
I
OJ
Figure 2-15
HC1 Monitoring Data - Run 11A 6/16/87
vJUU —
280 -
260 -
240 -
220 -^
^ 200 -
.52
'en
o 180 -
* 160 -
o 140 -
x
> 120 -
0.
o- 100 -
80 -
60 -
40 -
20 -
—
10:
/\
i \
f/ ^ * A .
/ ^ • \>
• \i
/<• i
" /
iii %
in
f i "
, , MIDPOINT , A/; ;\l ' . i
1 /••' S f>jW-'>J\ /-""•'• V' v /\. -,., N
'• v n / V ' v • ; . .. . .
' -\ / V\/ / '-. \ '
\ i\ ' < : • • •
v ' .-. .•: ' '. •
OUTLET, , ;
' V -. ; "' / V ' •' '•••' '-' ....... :' »
-v x^^y ^
INLET X 10
00 10:30 11:00 11:30 12:00 12:30
TIME
-------
K>
I
oo
o
I
o
o
0)
a:
+j
0)
100
90 -
80 -
70 -
60 -
50 -
40
10:00
Figure 2-16
HC1 Removal Efficiency - Run 11A
Marion County Waste-to-Energy Facility
-------
TABLE 2.1?
HC1 MONITORING RESULTS - TEST CONDITION 11B
MARION COUNTY SOLID WASTE-TO-ENERGY FACILITY
JUNE 1987
HIGH QUENCH REACTOR OUTLET TEMPERATURE (360°F)
Hour Time
1 14:30-15:30
2 15:30-16:30
3 16:30-17:30
3 -Hour Average
Highest 1-Minute Average
Lowest 1-Minute Average
Inlet
ppm HC1
(dry)
640
567
848
685
1370
390
Midpoint Percent
ppm HC1 Removal
(dry) of HC1
215 61%
181 62%
276 62%
224 62%
316
142
Outlet
ppm HC1
(dry)
120
99
1971
139
251
66
Percent
Removal
of HC1
78%
79%
72%
76%
The outlet HC1 readings exceeded the span of the analyzer (250 ppm HC1) for
a total of 9 minutes during Test Condition 11B. The longest of the off-
scale periods lasted for 7 minutes.
NOTE: The calibration checks were conducted before Condition 11A and after
Condition 11B to allow HC1 monitoring between the two test conditions.
2-38
-------
to
I
OJ
O
X
Q-
CL
350
300 -
250 -
200 -
150 -
100 -
50 -
0
Figure 2-1?
HC1 Monitoring Data - Run 11B 6/16/87
Marion County Waste—to—Energy Facility
MIDPOINT
»\
OUTLET
INLET X
\>
14:30 15:00 15:30
V
16:00 16:30 17:00
TIME
-------
I
-p-
O
O
X
O
O
0>
a:
c
a>
o
100
90 -
80 -
70 -
60 -
50 -
40
14:30
Figure 2-18
HC1 Removal Efficiency - Run 11B
Marion County Waste—to—Energy Facility
17:00
-------
TABLE 2.18
HC1 MONITORING RESULTS - TEST CONDITION 12
MARION COUNTY SOLID WASTE-TO-ENERGY FACILITY
JUNE 1987
UNIT SHUTDOWN
Hour
1
2
3
4
Highest
Lowest 1
Time
11:00-12:00
12:00-13:00
13:00-14:00
14:00-15:00
1 -Minute Average
-Minute Average
INLET
ppm HC1
(wet)
460
4?1
150
35
595
14
OUTLET
ppm HC1
(dry)
40
35
13
5
57
2
NOTE: Inlet concentrations were measured on a wet basis; they were not cor-
rected to a dry basis due to fluctuations in the moisture content.
2-41
-------
600
o
I
Q.
Q_
500 -
400 -
300 -
200 -
100 -
0
Figure 2-19
HC1 Monitoring Data - Run 12 6/21/87
Marion County Waste—to —Energy Facility
INLET (WET BASIS)
OUTLET (DRY BASIS)
11:00 11:30 12:00 12:30 13:00 13:30 14:00 14:30 15:00
TIME
-------
TABLE 2.19
HC1 MONITORING RESULTS - TEST CONDITION 13
MARION COUNTY SOLID WASTE-TO-ENERGY FACILITY
JUNE 1987
UNIT STARTUP
Hour
1
2
3
4
Highest
Lowest
Time
23:25-00:25
00:25-01:25
01:25-02:25
02:25-03:25
1 -Minute Average
1-Minute Average
INLET
ppm HC1
(wet)
121
342
377
428
753
8
OUTLET
ppm HC1
(dry)
28
37
22
25
97
2
NOTE: Inlet concentrations were measured on a wet basis; they were not cor-
rected to a dry basis due to fluctuations in the moisture content.
2-43
-------
ro
I
800
700 -
600 -
500 -
a
> 400 -
a.
Q.
300 -
200 -
100 -
0
Figure 2-20
HC1 Monitoring Data - Run 13 6/22/87
Marion County Waste-to—Energy Facility
INLET (WET BASIS)
f
OUTLET (DRY BASIS)
1 - 1 - 1 - 1 -- 1 - 1 - 1 -
23:00 23:30 00:00 00:30 01:00 01:30 02:00 02:30 03:00
TIME
-------
3.0 PROCESS DESCRIPTION AND OPERATION
3.1 PROCESS DESCRIPTION
Ogden Martin operates two mass-burn waterwall furnaces at the Marion
County Solid Waste-to-Energy facility. Each unit has a design capacity of
250 Mg/day (275 tpd) of municipal solid waste. The furnaces are equipped
with Martin reverse reciprocating grates. The combustion chambers are
refractory-lined to a level of 9 meters (30 ft) above the stoker.
Refuse is trucked to the facility and dumped into an enclosed receiving
pit. It is subsequently transferred to each furnace by overhead cranes. The
solid waste passes downward through the feed chute and is pushed onto the
stoker grate by a hydraulically operated ram feeder. The system is designed
to operate at 90 percent excess air. Underfire air is supplied via five air
plenums and controlled by the pressure drop across the grate bars. Overfire
combustion air, 25 to 30 percent of the total air, is injected through rows
of nozzles above the stoker at the front and rear walls of the furnace at
pressures exceeding 4980 Pa (20 in. W.C.). The combustion chamber is
designed to sustain a flue gas temperature of 980 C (1800 F) for 2 seconds
when solid waste is present on the stoker, including start-up and shutdown.
To ensure that these time and temperature specifications are maintained, each
of the two furnaces is equipped with a natural gas auxiliary burner located
above the combustion chamber refractory lining. The individual capacity of
each burner is 13 Mw (45 million Btu/hr).
The boiler system is a multi-pass design with a gas-tight membrane
waterwall design. From the combustion chamber, the flue gas flows downward
through an open radiation pass before entering the evaporator tubes in the
two-drum, boiler convection section. Superheater and economizer sections
follow, each in its own pass. Each combustion unit generates a maximum
continuous steam output of 30,000 kg/hr (66,000 Ib/hr) at a pressure of
4520 kP (655 psig) and a temperature of 370 C (700 F). The steam is
delivered to a 13.1 Mw (45 million Btu/hr) turbine generator. The
electricity produced flows into the Portland General Electric Company (PGE)
grid.
Bottom ash and grate siftings are discharged into a water-quenched
residue system. The ash disposal system includes vibrating conveyors and
belt conveyors, which transport the residue to an enclosed storage area where
it is eventually trucked to a sanitary landfill for final disposal. Ash from
the air pollution control equipment is collected separately and conveyed to
the ash removal system to be handled and disposed together with the bottom
ash.
3.2 CONTROL EQUIPMENT
The air pollution control system at the Marion County Solid Waste-to-
Energy facility consists of a dry scrubber, a dry venturi scrubber, and a
baghouse. Design data for the air pollution control system are listed in
Table 3.1.
The flue gases leave the boiler economizer section at temperatures
between 197°C to 270 C (390°F to 515°F) and enter the bottom of the dry
scrubber vessel through a cyclonic inlet where removal of the oversized
particles is achieved. Gas flow rates vary between 1740 nT/min (61,440 scfm)
3-1
-------
TABLE 3.1. AIR POLLUTION CONTROL SYSTEM DESIGN SPECIFICATIONS
Item
Design Specifications
Effective Removal
Particulate Matter
Outlet Emissions, mg/dscm
HC1, percent removal
SO-, percent removal
Dry Scrubber
Quench Water, m /min
Lime feed rate, kg/hr
Flue gas flow rate
Inlet, m /min
HC1, inlet, ppmv, dry
SOp, inlet, ppmv. dry
Particulates, inlet,
mg/scm @ 20°C
Outlet temperature, C
69
90
70
.05 - .0?
57 (normal), 193 (max.)
1740 @ 225°C
1885 @ 270°C
234 (normal), 700 (max.)
130 (normal), 385 (max.)
2.2 - 2.5
125
Dry Venturi
Tesisorb feed rate, kg/hr
Fabric Filter
Cleaning System
A/C Ratio
Reverse air
1.69:1 (gross)
3-31:1 (net)
3-2
-------
at 197°C (390°F) and 1885 m3/min (66,560 scfm) at 270°C (515°F). Slaked
pebble lime slurry is injected through an array of two-fluid nozzles near the
bottom of the reactor vessel. The quench water feed rate is approximately
0.05 to 0.07 nrVmin (12.8 to 18.2 gpm) and is regulated accordingQto theQ
inlet flue gas temperature. A constant design temperature of 150 C (300 F)
is maintained at the outlet of the dry scrubber. The lime concentration in
the slurry is adjusted to compensate for changes in the acid gas concentra-
tion, and the dry lime feed rate will vary between 57 and 193 kg/hr (125-^25
Ib/hr). The stoichiometric ratio of lime/HCl is maintained at approximately
2.5 to ensure that upset peaks are sufficiently controlled.
A low pressure drop dry venturi is located between the dry scrubber and
the baghouse. Tesisorb is injected into the venturi at a rate of 24 kg/hr
(53 Ib/hr). Flue gas particles that are smaller than 2 microns impact the
3 micron to 20 micron Tesisorb particulates and are captured in this process,
thus reducing the pressure drop in the baghouse. The unspent reagent in the
filter cake also acts as a further neutralization mechanism for acid gas
collection.
An Amerthem™ fabric filter is located downstream of the dry venturi for
particulate matter collection. Each unit consists of six compartments with
120 bags each. The fabric filter has a gross air-to-cloth ratio of 1.69:1
(net 2.31:1). The filter bags are made of a fiberglass material suitable for
flue gas temperatures up to 268 C (515 F)• Particulate matter emissions are
required to be controlled to a level of 69 ng/dscm (0.03 gr/dscf) at 12% C0_.
3.3 COMBUSTION PARAMETERS VARIED DURING TESTING
Several combustion parameters were varied during the program. The basic
parameters that were varied are:
1. steam load, refuse feed rate,
2. excess air, and
3- air distribution, i.e., varying the amounts of underfire and
overfire air flows.
The control devices were operated in the normal mode during these changes
in process conditions. The limits to which "high" or "low" varied were
limited by the permit conditions issued by Oregon DEQ and by the amount of
superheated steam required by the turbine. The actual process settings for
each condition were recorded by Radian and can be found in Radian's final
test reports.* Table 3-2 lists the process conditions that were varied
during the test program.
*Characterization Test Program Emission Test Report and Shutdown/Startup Test
Program Emission Test Report, prepared for U. S. Environmental Protection
Agency, OAQPS, Emission Measurement Branch, by Radian Corporation, Report
Nos. EMB 87-MIN-04A and EMB 87-MIN-O^B, respectively.
3-3
-------
TABLE 3.2. SUMMARY OF PROCESS TEST CONDITIONS FOR
MARION COUNTY FIELD TEST PROGRAM
Date
6/4/87
6/5/87
6/6/87
6/6/87
6/8/87
6/9/87
6/10/87
6/10/87
6/11/87
6/12/87
6/12/87
6/15/87
6/16/87
6/16/87
6/21/87
6/22-23/87
Condition
Number
1
2
3a
3b
4
5
6a
6b
7a
8
9
10
lla
lib
12
13
Process Variable
Baseline
Baseline
Low Excess Air
High Excess Air
Low Overfire/Underfire Air Distribution
High Overfire/Underfire Air Distribution
Low Load - Normal Excess Air
Low Load - High Excess Air
Low Load - Low Excess Air
Low Load - Low Overfire/Underfire Air
Distribution
Low Load - High Overfire/Underfire Air
Distribution
Low Quench Reactor Outlet Temperature
(260°F)
High Quench Reactor Outlet Temperature
(330°F)
High Quench Reactor Outlet Temperature
(360°F)
Unit Shut Down
Unit Start Up
3-4
-------
3.4 CONTROL DEVICE PARAMETERS VARIED DURING TESTING
Only one control device parameter was independently varied: the rate at
which lime slurry is added to the quench reactor. The outlet temperature of
the quench reactor is dependent on the feed rate of the lime slurry.
The lime slurry is made up in large batches and is therefore consistent
in concentration throughout the test periods. The slurry was fed to the
reactor at varying rates, which altered the stoichiometric ratio of lime to
HC1 and SO-. Since the lime is in a water slurry solution, adding additional
lime requires additional water. The additional water has a cooling effect on
the gas streams.
Three different lime slurry injection rates were used. Normal operating
temperature for the control device is approximately 300 F. The rate at which
the lime slurry is fed was varied to give the following conditions.
1. Low temp 260 F - higher lime rate
2. Higher temp 330 F - lower lime rate
3. Higher temp 360 F - lower lime rate
3.5 PROCESS AND CONTROL SYSTEM CONDITIONS RECORDED DURING TESTING
The process and control system conditions were recorded during each test
condition by personnel from EPA and MRI. Table 3-3 lists various process
parameters of interest for this testing program. These data were recorded at
a minimum of once every 15 minutes. Radian personnel digitized the plant's
strip chart records to provide more data availability.
3.6 STARTUP AND SHUTDOWN OPERATION DESCRIPTIONS
Sampling for emissions at all locations was conducted during the shutdown
period and the subsequent startup period. In addition to the CEM and manual
HC1 testing conducted during the process and control device characterization,
sampling for PCDD/PCDF at the inlet to the spray dryer and at the stack
outlet was combined with the manual HC1 sampling at these locations. The
shutdown procedure is described as follows in material provided by the EPA:
When the decision to shut down has been made, refuse feeding
from the crane is stopped. When the refuse level in the feed
chute is lowered, the chute seal door is closed (to prevent
backfires in the feed still in the chute). When the refuse burns
out on the grate, the shutdown is over. During this process the
feed rate is slowed, and gas supplemented fuel is added. When
the refuse is out, the gas rate is reduced to bring down the
furnace temperature slowly. The time interval to extinguish the
refuse fire is about one hour.
For testing purposes, the start of the shutdown period occurs when the
cranes cease loading the incinerator hopper with refuse. The shutdown is
complete when the garbage completely burns out on the grate.
3-5
-------
TABLE 3.3. PROCESS DATA TO BE MONITORED AND RECORDED
I. CONTROL ROOM PROCESS DATA
PARAMETER
Combustion air flow
Combustion air temperature
Steam flow
Steam temperature
Steam pressure
Furnace temperatures
- Middle of furnace 1st pass
Top of furnace 1st pass
Economizer outlet
Quench reactor outlet
Baghouse outlet
- I.D. fan outlet
Overfire air pressures
- Front
Upper rear
Lower rear
Dry Venturi AP
Baghouse AP
Baghouse cleaning cycle
Stack opacity
Lime totalizer
Lime slurry specific gravity
UNITS
103 Ib/hr
Ib/hr
psig
in. W.C.
in. W.C.
in. W.C.
min
percent
Ibs
II.
FIELD MEASUREMENTS
PARAMETER
Tesisorb feed rate
Quench reactor inlet pressure
Quench reactor outlet pressure
3-6
-------
The startup procedure is described as follows in material provided by the
EPA:
The startup begins using natural gas to preheat the system. The
baghouse is bypassed until an inlet flue gas temperature of 285 F is
reached. The baghouse is then put on line and preheated for 3 hours.
Tesisorb is being added during that time.
Refuse feed is then started. The rate is increased in a ramped
manner. After 3/4 to 1 hour, the natural gas is turned off. The refuse
bed is still building in the grate. Approximately three hours is
required for startup to steady state.
Start-up testing was conducted from the start of refuse feed until a
steady flow of refuse was established on the grate.
3-7
-------
4.0 HC1 CONTINUOUS EMISSION MONITORING SYSTEM DESCRIPTIONS
The following discussions briefly outline the operational principles of the
monitoring equipment to be employed to quantify the HC1 concentrations at three
locations within the Unit No. 1 flue gas handling system.
It should be noted that the Bodenseewerk Spectran Model 677 IR and the
Compur Model 4150 ZGSM are both instruments of German manufacture. Entropy is
currently evaluating these instruments in another study for the EPA, and has
therefore amassed state-of-the art information on their operational parameters
and principles. This information is presented in the descriptions that follow,
but it should be noted that operational characteristics of these instruments
are simply not yet established as they have been for S0_, NO , etc. CEM
systems, whose operation has been extensively studied in this country.
4.1 BODENSEEWERK SPECTRAN MODEL 677 IR HC1 MONITORING SYSTEM
The Bodenseewerk system was used at the outlet monitoring location.
The Bodenseewerk 677 HC1 analyzer employs the gas filter correlation (GFC)
technique with the multiple optical path cell and sampling system maintained at
an elevated temperature of l80°C (356°F). HC1 concentrations are recorded on a
dry basis within a system range of either 0-100 ppm, or 0-250 ppm. The vendor
claims the detection limit of this instrument is 2 ppm.
GFC spectroscopy is based upon comparison of the absorption of a selected
wavelength within the infrared (IR) absorption spectrum by the measured gas to
that of other gases also present in the sample being analyzed. The technique
is implemented by using a high concentration sample of the measured gas, i.e.,
HC1, as a filter for the infrared radiation transmitted through the analyzer.
The correlation wheel consists of two hemispherical cells, one filled with HC1
and the other with N_. Integral with the correlation wheel is the chopper
pattern necessary to produce the high frequency chop necessary for the infrared
detector.
Radiation from an IR source enters a multiple optical path sample cell and
is passed through the gas filter, alternating between HC1 and N_ due to
rotation of the filter wheel. The radiation then passes through a narrow
bandpass interference filter. The IR radiation then exits the sample cell and
is measured by the IR detector.
The HC1 gas filter acts to produce a reference beam which cannot be further
attenuated by HC1 in the sample cell. The N? side of the filter wheel is
transparent to the IR radiation and therefore produces a measure beam which can
be absorbed by HC1 in the cell. The chopped detector signal is modulated by
the alteration between the two gas filters with an amplitude related to the
concentration of HC1 in the sample cell. Other gases do not cause modulation
of the detector signal, since they absorb the reference and measure beams
equally.
Molecular interaction between HC1 and water vapor in the sample gas
increases the absorption of IR as water vapor content increases. This
phenomenon is used to compensate for the dilution effect of water vapor in the
sample gas. The Bodenseewerk 677 analyzer was configured at the factory for
applications with approximately 15 percent moisture content.
4-1
-------
The sample gas is drawn from the effluent via a heated sample pump at a
rate of approximately 11 liters/minute. A coarse, fritted filter is located
at the probe tip for filtering particulate. A second heated fritted filter
is located at the probe outlet to remove finer particulate matter. The
sample gas is heated to approximately 180 C (356 F); the temperature of the
gas is maintained throughout the transport system and the sample cell until
the gas is exhausted from the analyzer.
The Model 677 analyzer employs zero air and an internal sealed gas cell
for zero and upscale calibration checks. The monitoring system is also
capable of accepting calibration gases; the gas injection point is located at
the probe.
The concentration measurements in units of ppm (dry) are displayed on a
front panel meter, and are also recorded by a built-in strip chart recorder.
A 0-10 (or 4-20 mA) volt output is also provided for an external data
recording device.
4.2 LEAR SIEGLER, INC. (LSI) MODEL TGM 555 HC1 ANALYZER/COMPUR MODEL 4330
DILUTION SYSTEM
The Compur Model 4150 HC1 analyzer was to be used at the midpoint
location, but could not be made operational at the start of the test
program. The LSI Model TGM 555 HC1 analyzer was substituted for the Compur
Analyzer, although the Compur Model 4330 Dilution System was still used to
provide gas sample. Compur service representatives were unable to resolve
the problems with the Compur Model 4150 before the end of the test program.
The LSI TGM 555 analyzer is an automated wet-chemical colorimetric
analyzer. The analyzer measures the HC1 concentration in the gas sample on a
dry basis by monitoring the amount of color change produced in the analyzer's
reagent system. The instrument operates within a range of 0-50 ppm, and the
vendor claims the detection limit for this analyzer to be 0.5 ppm.
The sample gas is continuously drawn into the analyzer via an internal
vacuum pump, and passes through a vertical glass gas/liquid contact absorber
coil. The absorbing solution is drawn from its reservoir by a peristaltic
pump and is transported concurrently downward with the gas sample through the
absorber coil to absorb the HC1 within the gas. A two-stage liquid/air
separator removes the scrubbed sample gas, which is exhausted. The chemical
reaction of the HC1 present in the gas sample with the absorbing solution
produces a color change in the absorbing solution. The reacted reagent
continues along the transport system.
Unreacted reagent is pumped first through the reference cell of the dual
beam colorimeter. The reacted (or colored) solution flows through the sample
cell. The colorimeter measures the light absorption of the reagent before
and after the reaction with the HC1 gas. Transmission of light through the
flow cells is measured by a matched set of photodetectors at a particular
wavelength. The intensity of the color is directly proportional to the
concentration of the HC1.
4-2
-------
The electrical signal generated in the colorimeter is amplified and fed
to a front panel digital display, where it is read as a percentage of full
scale (50 ppm, dry). A 0-1 volt output is also provided for a data recorder.
The 3-5 liter reagent reservoirs that are stored outside the unit hold a
nominal 6-day supply.
Compur developed a dilution probe to be used in conjunction with the
Model 4150 analyzer in order to sample stack emissions. The dilution probe
is an extractive sampling device that produces constant sample gas dilutions
at selected ratios varying from 10:1 to 100:1. (The operating range of the
Compur monitoring system will be decided upon in the field after the optimum
dilution ratio is chosen, and then verified using an independent analyzer and
calibration gases.) The dilution probe is electrically heated to 200 C
(392 F) and is constructed of corrosion resistant materials.
An air jet pump within the probe acts as an in-stack dilution device by
aspirating the flue gas sample through an orifice and diluting the gas sample
with dry regulating air. By reducing the pressure downstream of the orifice
using the aspirator air, a constant flow of flue gas sample is drawn through
the orifice and mixed with the aspirator air. The orifice operates within
the critical region, whereby the influence of pressure fluctuations at the
sampling point which tend to affect the flow of sample gas and thereby to
change the dilution rate is strongly reduced.
Calibration of the system is performed by the injection of calibration
gas through a transport tube to the probe, at a point upstream of the
critical orifice. Thus, the calibration gas is conditioned in the same
manner as the flue gas sample, i.e., filtered, diluted, and transported.
4.3 THERMO ELECTRON MODEL 15 HC1 ANALYZER/MODEL 200 DILUTION SYSTEM
The Thermo Electron system was used at the inlet monitoring location.
The Thermo Electron (TECO) Model 15 Gas Filter Correlation (GFC) HC1
analyzer is an analytical instrument for continuous, real time measurement of
HC1 on a wet basis.
GFC spectroscopy is based upon comparison of the absorption of a selected
wavelength within the infrared (IR) absorption spectrum by the measured gas
to that of other gases also present in the sample being analyzed. The
technique is implemented by using a high concentration sample of the measured
gas, e.g., HC1, as a filter for the infrared radiation transmitted through
the analyzer. The correlation wheel consists of two hemispherical cells, one
filled with HC1 and the other with N_. Integral with the correlation wheel
is the chopper pattern necessary to produce the high frequency chop necessary
for the infrared detector.
Radiation from an IR source is chopped and then passed through the gas
filter, alternating between HC1 and N_ due to rotation of the filter wheel.
The radiation then passes through a narrow bandpass interference filter and
enters a multiple optical pass cell where absorption by the sample gas
occurs. The IR radiation then exits the sample cell and is measured by the
IR detector.
4-3
-------
The HC1 gas filter acts to produce a reference beam which cannot be
further attenuated by HC1 in the sample cell. The N2 side of the filter
wheel is transparent to the IR radiation and therefore produces a measure
beam which can be absorbed by HC1 in the cell. The chopped detector s±sn*±
is modulated by the alteration between the two gas filters with an amplitude
related to the concentration of HC1 in the sample cell. Other gases do not
cause modulation of the detector signal, since they absorb the reference and
measure beams equally. Thus, the GFC system responds specifically to HUL.
With the improved rejection of interference afforded by the GFC
technique, the sensitivity of the analyzer is increased by using multiple
pass optics in the sample cell, which leads to a large path length, and thus
an improved sensitivity, in a small physical space. This allows full scale
sensitivity down to 1 ppm.
Because infrared absorption is a non-linear measurement technique, the
instrument electronics transfer the basic analyzer signal into a linear
output. The exact calibration curve is stored in the computer's memory and
is used to linearize the instrument output over all the ranges. The micro-
computer is used to process signals from both a pressure and temperature
transducer to make corrections to the instrument output, resulting in HC1
concentration measurements that are unaffected by changes in the temperature
or pressure of the sample gas.
The analyzer has 10 selectable operating ranges from 0-5 ppm up to 0-5000
ppm HC1. The analyzer will be operated on the 0-100 ppm full scale range.
The vendor claims that the detection limit for this instrument is 0.1 ppm.
The Model 200 dilution system is comprised of the following components:
(1) In-situ dilution probe with sample orifice,
(2) Transport tubing, and
(3) M200 Stack Probe Control Unit.
The dilution probe is designed to extract a small amount of sample
continuously through a fine filter. The sample flow rate is precisely
controlled to within 2% by a glass critical orifice of low coefficient of
expansion. By reducing the pressure after the fine filter with a precision
aspirator to create a vacuum of 0.46 bar in the volume downstream of the
critical orifice, a constant flow of flue gas sample is drawn through the
orifice, thoroughly mixed with the aspirator air, and then transported
through the sample line to the appropriate analyzer.
The sampling system is designed to permit step-wise dilution ratios of
12:1 to 350:1 within the probe by a single selected orifice.
All calibration is performed by introducing calibration gas through the
calibration line to a point within the probe upstream of the first fine
filter in the probe dilution orifice. In this way. the calibration gas
follows all of the sample conditioning steps taken by the flue gas sample.
The lines transporting flue gas sample and calibration gas are Teflon,
while the dilution air and vacuum lines are polyethylene.
The dilution air and calibration gas flow controls are contained within
the M200 control unit.
4-4
-------
5-0 DESCRIPTION OF THE HC1 CEM SAMPLING PROGRAM BY SAMPLING LOCATION
Three independent HC1 continuous emission monitoring systems were used by
Entropy to measure HC1 emissions continuously from (1) the scrubber inlet,
(2) scrubber midpoint, and (3) baghouse outlet (see Figures 5~1 snd 5~2). A
brief description of each HC1 CEM system by sampling location is outlined in
the sections that follow.
5.1 SCRUBBER INLET - THERMO ELECTRON HC1 MONITORING SYSTEM
The Thermo Electron (TECO) Model 15 HC1 analyzer (0-50 ppm range) with
dilution probe (normal dilution ratio 45 to 1) was used to measure HC1
emissions at the scrubber inlet location (see Figures 5~3 and 5~4). The TECO
analyzer was calibrated using HC1 cylinder gases before and after each test
condition. Zero and span HC1 calibration gases were injected through the
dilution probe system. The dilution ratio was verified prior to the test
program by flowing a CO gas through the dilution system and recording the
response of a calibrated CO analyzer. The TECO analyzer output signal was be
recorded by a computer data acquisition system (DAS) (see Section 5-4).
Since the TECO system measures HC1 on a wet basis, the results were
corrected to a dry basis using Method 4 results provided by Radian.
5.2 DRY SCRUBBER MIDPOINT - LSI/COMPUR HC1 MONITORING SYSTEM
The LSI Model TGM 555 HC1 analyzer with a Compur Model 4330 dilution
probe (dilution ratio 40 to 1) was used to quantify the HC1 emissions from
the scrubber outlet (midpoint) location (see Figures 5~3 and 5~5)• Before
the test program began, it was known that the scrubber outlet location, which
is upstream of the baghouse, would be a difficult area to sample due to the
high particulate matter concentration which consists mostly of lime. This
particulate matter could quickly cake and possibly plug a sampling probe
filter. Additionally, the particulate cake could react with the gas stream
and continue to remove HC1 and other gases which would indicate lower than
actual HC1 concentrations. Accordingly, Radian proposed to employ a cyclone
type particulate removal system to avoid this problem (see Figure 5~6).
Sample gas flowed from the manifold, through a heated sample line, to a
sealed stainless steel flanged attached to the end of the Compur dilution
probe. At the conclusion of each test day, the flange was removed from the
end of the probe and the fritted filter and heated sample line were cleaned.
During the cleaning after each test, a heavy layer of particulate matter was
observed on the fritted filter. A portion of the particulate matter also
passed through the fritted filter and collected on the critical orifice
inside the dilution probe, changing the dilution ratio. The changes in the
dilution ratio were documented with the calibration drift tests, since the
calibration gas was diluted through the probe.
The LSI HC1 analyzer was challenged with HC1 calibration gases before and
after each test condition, except for test conditions 1, 3A, 3B, 4, and 5.
The number of calibration gas injections was reduced to conserve the limited
quantity of calibration gases for the control device testing. All calibration
5-1
-------
OGDEN MARTIN
TRAILER
BREECHING
BODENSEEWERK
HC1
SAMPLING
PROBE
BA6HOUSE
BAGHOUSE
VENTURI
COMPUR
HCI
SAMPLING
PROBE
VENTURI
PARTICIPATE
REMOVAL
SYSTEM
(SEE FIG 5-6)
— SAMPLING
PROBE
NO. 1 UNIT
NO. 2 UNIT
BOILER HOUSE
FIGURE 5-1. LOCATION OF TESTING TRAILERS AND SAMPLE LINES.
5-2
3514
-------
r
TRAILER
BA6HOUSE
OUTLET
1001 HEATED
TEFLON TUBING
BOOENSEEWERK
PROBE
SINTERED FILTER
"E- 4 CAL GAS INLET
BODENSEEWERK
ANALYZER
L
SCRUBBER
OUTLET
COMPUR DILUTION
PROBE
HEATED SAMPLE LINE
TO PARTICULATE
REMOVAL SYSTEM
(SEE FIG. 5-6)
1251 UNHEATED
TEFLON TUBING
V— 4 CAL GAS INLET
LSI
ANALYZER
DATA
ACQUISITION
SYSTEM
BOILER
OUTLET
1251 UNHEATED
TEFLON TUBING
I
TECO DILUTION
PROBE
SINTERED FILTER
CAL GAS INLET
TECO
ANALYZER
TRAILER
FIGURE 5-2. FIELD EVALUATION SET-UP.
3514
-------
TO BAGHOUSE
TOP VIEW
t
CYCLONE AND
ACID GAS SCRUBBER
PARTICIPATE
REMOVAL
SYSTEM
(SEE FIG. 5-6.)
DIRECTION
OF
GAS FLOW
FIGURE 5-3. TOP VIEW OF BOILER OUTLET AND MIDPOINT SAMPLING LOCATIONS.
5-4
3514
-------
28'6"
13'11"
PORT B
ELEVATION
ABOVE GRADE
— 39' 10'
PLATFORM
HCL MONITORING PORT
OBJECTION OF
GAS FLOV
SIDE VIEW
PORT A
TO CYCLONE AND |
ACID GAS SCRUBBER '
FIGURE 5-4. SIDE VEV OF BOILER OUTLET SAMPLWG LOCATION AT MARION COUNTY
5-5
3514
-------
i i
FROM CYCLONE AND
i i ACID GAS SCRUBBER
28'6'
"25'
PORT B
ELEVATION
ABOVE GRADE
— 39'10"
DIRECTION OF
GAS FLOV
•4'3-DIA.
HCL MONITORING PORT
SIDE VIEW
PORT A
FIGURE 5-5. SIDE VEV OF MIDPOWT SAMPLWG LOCATION AT MARION COUNTY
5-6
351
-------
COMPUR
HEATED (200 'O
DILUTION PROBE
RADIAN
CEMS
MANUAL -4-
HCI SAMPLE
TRAIN
&ASS HOLDER
PARTICIPATE
FILTER
GLASS
MANIFOLD
v
6LASS
CYCLONES
I
%
HEATED
SAMPLE
PROBE
TEMPERATURE
CONTROLLER
HEATING
ELEMENT
FIGURE 5-6. RADIAN PARTICULATE REMOVAL SYSTEM.
5-7
3514
-------
gases were injected through the Compur dilution probe, and the dilution ratio
was checked by flowing a high range CO calibration gas (916 ppm CO) through
the dilution probe to a calibrated CO analyzer-
5.3 BAGHOUSE OUTLET - BODENSEEWERK HC1 MONITORING SYSTEM
The Bodenseewerk Model 6?7 IR HC1 analyzer was operated to measure HC1
concentrations at the baghouse outlet location (see Figures 5-2 and 5-7) .
The calibration of the Bodenseewerk HC1 analyzer was checked before and after
each test condition using zero gas and an internal calibration cell. In
addition, calibration gases were injected through the sampling system after
all test conditions except conditions 6A, 6B, and 7A. The calibration of the
Bodenseewerk analyzer remained stable throughout the test program, and it was
not necessary to adjust the span of the analyzer. The results provided by
the internal calibration cell were comparable to the results of the
calibration gas injections. The number of calibration gas injections was
limited due to the quantity of HC1 gases available for the program.
The range of the Bodenseewerk HC1 analyzer was changed from 0-100 to
0-250 ppm HC1 after Test Condition 10.
5.4 DATA ACQUISITION SYSTEM
The data acquisition system (DAS) developed by Entropy uses a Compaq
Portable Personal Computer with a 20 MB hard disk and an internal 12-bit
analog-to-digital converter with a 16 channel multiplexer. Surge supressors
are provided to minimize data loss in the event of electrical disturbances.
In addition to providing an instantaneous display of analyzer responses, the
DAS can average data, calculate emission rates, and document analyzer
calibrations. The test results and calibrations are stored on the hard disk
and printed on an Epson dot matrix printer. Strip chart recorders are
employed as a backup system. The HC1 emissions from the three HC1 analyzer
locations are recorded in 1-, 15-minute, and 60-minute averages.
Each day, the stored data generated by Entropy's testing was provided to
Radian on a floppy disk. Radian assumed major responsibility for computer
generation of all data during the test program, including the moisture
corrections for the (HC1) CEMS data generated by Entropy.
5-8
-------
BOOENSEEWERK
HCL PROBE
FI6URE 5-7. LOCATION OF SAMPLING PROBE IN THE BREECHIN6 TO THE STACK
3514
5-9
-------
6.0 QUALITY ASSURANCE
The goals of the quality assurance activities were to quantify data
accuracy and precision and to maximize data capture. Presently, there are no
EPA test methods for operating HC1 monitoring systems or for conducting wet-
chemical sampling for HC1. Only recently have relatively stable HC1
calibration gases become available, and a limited number of these gases were
available to Entropy at the start of the program. At all three sampling
locations the calibration gases were introduced at the probe outlet, and
flowed through the sampling systems. Daily calibration summary sheets are
contained in Appendix C.
6.1 HC1 SAMPLING SYSTEM INSPECTION
At the start of each test day, an inspection of each component of the HC1
sampling systems was conducted. The daily check lists are contained in
Appendix D. Due to a build up of particulate matter in the midpoint sampling
system, the fritted filters on the Compur dilution probe and the heated sample
line were cleaned daily.
6.2 CALIBRATION DRIFT CALCULATIONS
The zero and span calibration drift was calculated for each HC1 monitoring
system on a daily basis. The results of the calibration drift checks are
presented in Table 6.1. All of the results were less than the 20% of span
drift limit specified in the Quality Assurance Program Plan.
6.3 WET CHEMICAL SAMPLING FOR ACCURACY DETERMINATION
Before the HC1 test program began, triplicate impinger sampling for HC1
was conducted by Entropy at the spray dryer inlet and baghouse outlet
locations. The testing consisted of three 30-minute runs at the inlet and the
outlet locations using a modified Method 6 train without the IPA impinger
using 0.1 N NaOH as the reagent. The impinger samples were analyzed by
mercuric nitrate titrations according to EPA Method 325-3 (Methods for
Chemical Analysis of Water and Waste, EPA 600/4-79-020). The results (see
Table 6.2) indicate mean differences of 12.2% and 3-1% for the spray dryer
inlet and the baghouse outlet locations, respectively.
After test condition 11B, wet chemical sampling was conducted by Radian at
the spray dryer inlet location using two sample trains: one using distilled
water and another using 0.1 N NaOH. Table 6.3 presents the results of the
three one-hour test runs. The mean differences were 0.2% and 6.1% for the
NaOH and H_0 trains, respectively.
The data from the wet chemical test comparisons are included in Appendix E
6-1
-------
TABLE 6.1. CALIBRATION DRIFT TEST RESULTS
MARION COUNTY WASTE-TO-ENERGY FACILITY
JUNE 1987
INLET
Test Zero Span
Condition (% Span) (% Span)
1 1.6
2 2.1
3 A/B 1.7
4 2.0
5 0.9
6 A/B 1.6
7A 1.9
8/9 1.9
10 0.9
11 A/B 2.0
12 1.2
13 0.9
1.7
2.6
1.4
2.1
0.8
1.5
2.2
2.8
0.9
1.5
1.9
0.5
MIDPOINT
Zero Span
(% Span) (% Span)
0.8
-1.0
2.7
0.7
-1.5
-5-3
2.8
0-3
-1.8
0.0
__ _1
-6.5
-2.8
-2.9
-4.6
17.5
-14.7
-2.9
-8.6
6.8
11.0
—
—
OUTLET
Zero Span
(% Span) (% Span)
-1.1
-1.4
-1.5
-0.8
-l.l
-1.0
1.5
-2.5
-0.7
0.2
-0.3
-0.4
4.4
6.8
5-3
11.0
9.0
0.5
3-6
0.9
6.4
3-2
2.4
3-1
Post test calibration was not conducted.
6-2
-------
TABLE 6.2.
HC1 MONITORING AND IMPINGER RESULTS
MARION COUNTY SOLID WASTE-TO-ENERGY FACILITY
JUNE 1987
Location
Impinger
Run Results (ppm, )
dry
HC1 Monitor
Results (ppm, )
Difference
(ppm, )
dry
Spray Dryer Inlet 1
(6/2/87) 2
3
Average
587
514
545
549
653
568
609
616
+66
+72
+64
67
% Difference = 12.2%
Baghouse Outlet 1
(6/1/87) 2
3
Average
19
15
16.3
19
15
16.5
16.8
0.0
0.0
1.5
0.5
% Difference =3.1%
6-3
-------
TABLE 6.3-
HC1 MONITORING AND IMPINGER RESULTS
MARION COUNTY SOLID WASTE-TO-ENERGY FACILITY
JUNE 1987
Location
Spray Dryer Inlet
(6/17/87)
Run
1
2
3
HCL Monitor
(ppmdry}
728
590
602
AVERAGE 640
NaOH Train
(ppm, )
VKt^ dry'
725
568
623
639
H-O Train
(ppm, )
dry
700
575
603
HC1 Monitor vs. NaOH Train: % Difference = 0.2%
HC1 Monitor vs. H20 Train: % Difference =6.1%
6-4
-------
Appendix A.
Sample Calculations
-------
SAMPLE CALCULATIONS
I. Calibration Corrections
From EPA Method 6C:
C
C = (C - C )
gas o
C - C
m o
where:
C = Effluent gas concentration (corrected)
gas
C = Average gas concentration indicated by gas analyzer
C = Average of initial and final calibration resonses for zero gas
C = Average of initial and final calibration responses for upscale
m
calibration gas
C = Actual concentration of upscale calibration gas
ma
For Test Condition 1 (Inlet Location) from 13:00 to 14:00:
c = (522.5 - 18. 5) (490)7(504.0 - 18.5)
s = 508.7 ppm HC1 (wet basis)
II. Moisture Corrections
For Test Condition 1 (Inlet Location) from 13:00-14:00:
moisture content = 12.J% HO
HC1 concentration = 508.7 ppm (wet basis)
Proportion of water vapor, by volume (B ):
ws
B = % H_0/100
ws 2
Dry basis HC1 concentration (C ) from wet basis concentration (C )
o w
C = C /(1-B )
o w ws
From Test Condition 1 (Inlet) from 13:00-14:00:
B = 12.7/100
LJC
WS = 0.127
C = 508.?/(l - 0.127)
0 = 582.7 ppm HC1 (dry basis)
A-l
-------
III. Percent Reduction
PR = 1-1
COUT VOUT
CIN VIN
x 100
where:
PR = percent reduction of HC1
CIN = concentration of HC1 at the inlet (dry basis)
VIN = volumetric flow rate at the inlet (DSCFM)
C_. = concentration of HC1 at the outlet (dry basis)
V = volumetric flow rate at the outlet (DSCFM)
For Test Condition 1 from 13:00 to 14:00
39(43080)
PR = 1 -
583(30390)
= 91% (see Table 2.4)
x 100
A-2
-------
Appendix B.
Test Program One-Minute Data Printouts
-------
SUMMARY OF HC1 MONITORING DATA
RUN: 1 (Baseline Conditions)
SOURCE: Ogden Martin Systems - Characterization Test
TEST DATE: 6/4/B7
GAS VALUE INITIAL CAL
***TECO (INLET)***
0.0 ppm HC1
490.0 ppm HC1
***LSI (MIDPOINT)***
0.0 ppm HC1
65.0 ppm HC1
***BODEN. (OUTLET)***
0.0 ppm HC1
65.0 ppm HC1
HOUR TIME
1 13:00-14:00
2 14:00-15:00
3 15:00 - 16:00
2.0
4B0.0
NA
NA
-0.5
64.5
UNCORRECTED
INLET
(wet)
^ •->'•"» cr
«-J*_X. . uJ
485.2
501.0
FINAL CAL
35.0
528. 0
1 .9
49.5
-1. 1
69.4
RESULTS
MIDPOINT
(dry)
108. B
128. B
121.3
***RESULTE CORRECTED FOR CALIBRATION BIAS AND
HOUR TIME
1 13:00 - 14:00
2 14:00 - 15:00
3 15:00 - 16:00
3-HDUR AVERAGE:
Highest 1 Min. Avg.:
Lowest 1 Min. Avg.:
INLET
(dry)
5B2.7
539.5 '
557.8
560.0
681.4
445.0
MIDPOINT
(dry)
146.0
173.3
163.0
160.8
207.4
90.4
MEAN CAL
18.5
504.0
1.9
49.5
-0.B
67.0
OUTLET
(dry)
39.8
76.8
56 . 6
DRIFT***
OUTLET
(dry)
39.0
74.5
55. 1
56.2
97. 1
18.6
NOTE: Inlet concentrations were measured on a wet basis and
corrected to a dry basis using Method 4 results.
Moisture = 12.7 7.
B-l
-------
Ogden Martin Systems - HC1 Monitori
ng
06-04-1987
CHAN 1 CHAN 2
TECO Compur
TIME
08: 56
08:57
08 : 58
08:59
09: 00
AVERAGE
09:00
09:01
09:02
09: 03
09: 04
09: 05
09: 06
09:07
09 : 08
09: 09
09: 10
09: 1 1
09: 12
09 : 1 3
09: 14
09: 15
O
0 AVERAGE
^ 09: 15
09: 16
09: 17
09: 18
09: 19
09: 20
09:21
09:22
09:23
09:24
09:25
09:26
09:27
09:28
09:29
09 : 30
AVERAGE
09i30
09:31
09i32
09:33
09:34
09:35
09:36
09:37
PpmHCl pomHCl
-8.6
0 . 8
-4.6
-2.6
-6.2
VALUES FOR
-4.3
-2.6
-1 .2
1 .3
6. 0
6.2
0.7
4.0
O. 2
0. 7
9. 0
7. 0
16.3
2.9
7.7
4. 7
VALUES FOR
._ /4 . 2y
8. 6
-0. B
-2. 7
-5.8
-4.5
T cr
•_• . _J
2. 9
3.5
3.8
2.6
-3.8
-2.4
1.6
1.0
-2. 1
VALUES FOR
0. 4
T "T
6.5
-5.2
-5. 1
3. 3
-6.7
6.8
4.7
4.5
4.6
4.6
4.8
THE LAST
4.6
5.0
4.7
4.7
4. 8
4.6
4.8
4.7
4. 6
4.8
4.7
4. 9
4.7
4.6
4. 6
4.5
THE PREV
4. 7
4. 6
4. B
4. 6
4. 7
4.8
4.8
4.8
4.8
4.8
4.6
4.6
4.7
4.6
4.5
4.7
CHAN 3
LSI
CHAN 4
Bodens
_Pj?_mH.Cl ppmHCJL.
6. 1
6. 1
5.9
6 . 0
5.8
HOUR:
6.0
6. 0
5.7
5.8
5.8
5.7
5.5
5.6
5.3
5. 1
5. 1
5.2
5.2
5. 2
5. 2
5. 2
IOUS 15
5. 4
5.2
5. 1
5. 1
5. 0
5. 1
5. 2
5. 1
cr '-i
U . *i.
5.2
5.3
5.3
5.4
5.4
5.5
5.5
THE PREVIOUS 15
4.7
4.5
4.5
4.6
4.5
4.8
4.6
4.7
5.2
0.9
0.4
0.4
0.3
0. 4
0.4
0.6
-0.8
-0.5
-0.4
-0. 5
-0. 6
5 MINUTES OF VALID DATA
-0. 6
-1 . 4
-0. B
-0. 6
-1 . 3
-0. 9
-0.8
-0. 7
- 1 - 0
-1. 1
-1 . 3
-1 . 2
1 *""'
~" 1 • ji
-0.7
-1.0
-0. B
MINUTES
- 1 . 0
-0. 4
-0. B
-0.8
-0. 4
-0. 7
-0. 7
-0.3 , r^tfJ^
-7 - f-^^ .
/ • ji. ' ^^
27.2 X ^^7/^ ^
4 1 . 1 if ^^^^
tf"-^ ->/2 £/
48.9 ^
51. 4
55.9
57.9
60.5
MINUTfS „ „
23.1 ,^J- ^'
x— -sTTis '
y 62.7
X 64.5
64.4
64. B
63.6
63- 1
'^
B-2
-------
Ogden Martin
CHAN
TECO
TIME
09:38
09:39
09:40
09:41
09:42
09:43
09:44
09:45
AVERAGE
09: 45
09: 46
09: 47
09:48
09: 49
09: 50
09:51
09: 52
09: 53
09:54
09:55
09:56
09:57
09:58
09:59
10:00
AVERAGE
10:00
AVERAGE
10:00
10:01
10:02
10:03
10:04
10:05
10:06
10:07
10:08
10:09
10: 10
lOi 11
10« 12
lOi 13
lOi 14
lOi 15
Systems - HC1
1 CHAN 2
Compur
ppmHCl DDmHCl
1 1.
^
7.
6.
1.
1.
•^j-
2 .
9
7
0
*-i
ji.
9
0
7
5
VALUES FOR
2.
1.
7.
f— i
jL. •
7.
-T
~T
-4.
^i
5.
'""1
-L. .
7.
10.
1 .
-0.
5.
^
6
6
0
6
2
5
8
9
8
8
0
8
1
8
7
VALUES FOR
•_'< *
1
VALUES FOR
2.5
10.
0.
2.
0.
7.
*T(
"7
*— ' •
3.
-1 .
1 1.
5.
2.
O
ji. •
2.
12.
6
5
5
4
9
2
5
4
B
4
0
5
7
9
8
4
4
4
4
4
4
4
4
THE
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
THE
4
THE
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
m
•
.
B
B
B
B
•
-
.
B
.
B
•
.
m
m
m
m
m
m
a
•
•
*
.
•
•
.
•
•
m
•
m
f
m
m
m
m
7
B
7
7
5
7
6
7
PREV
6
6
5
7
6
9
5
6
7
7
6
5
7
6
7
6
PREV
6
LAST
7
5
6
7
7
7
8
7
7
5
8
8
6
7
7
7
Moni tor
CHAN 3
LSI
ppmHCl
0
0
0
0
0
0
0
3
IOUS
0
6
10
14
IB
21
24
25
27
29
30
31
33
34
35
36
IQUS
25
HOUR
9
37
38
39
39
39
40
41
41
42
42
43
43
43
43
44
•
•
.
m
m
m
m
m
1
•
•
•
•
m
B
•
m
m
.
.
m
,
.
.
•
1
•
B
•
•
.
•
•
•
•
•
•
•
•
m
m
„
.
•
4
4
4
3
4
T;
6
0
5
6
6
wj
4
0
2
0
B
5
0
4
8
1
6
B
B
5
3
2
7
4
1
4
B
6
T;
8
2
4
T|
2
T
•-'
7
1
ing 06-04-1987
CHAN 4
Bodene
ppmHCl
62
61
59
42
41
74
70
46
MINUTES
60
30
25
28
30
29
32
36
40
39
34
31
24
19
27
36
MINUTES
31
m
m
•
m
m
m
m
m
•
m
m
B
m
m
B
m
m
m
m
m
„
m
«
•
4
8
7
5
1
6
TT
7
2
5
0
2
5
6
9
8
T,
6
4
5
6
8
8
9
•?
60 MINUTES OF VALID DATA
28.4
30
21
17
26
33
31
28
TO
s-'^-
44
48
46
52
56
61
56
,,
m
m
m
m
B
.
m
m
m
m
m
m
m
5
1
0
-T
6
4
0
1
9
0
8
6
4
0
3
AVERAGE VALUES FOR THE PREVIOUS 13 MINUTES
10ll5 4.5 4.7 41.3 39.1
10: 16
8.8
4.
44. 1
52.9
B-3
-------
Qgden Martin System® - HC1
TIME
10: 17
10: 18
10: 19
10:20
10:21
10i22
10:23
10:24
10:25
10:26
10:27
10:28
10:29
10:30
AVERAGE
10:30
10:31
10:32
10:33
10:34
10:35
10:36
10:37
10:38
10:39
10: 40
CHAN 1
TECO
ppmHCl
..._^-^
5.4
8. 1
2. 1
7.0
2.5
11.3
-2.4
10.2
2.3
-2.8
8.8
-0.7
498.5
1701 . 1
VALUES
150.7
2233. 5
2237.9
2237. 9
2237.9
2237. 9
2237. 9
2237.9
2237.9
2237.9
2237.9
CHAN 2
Compur
ppmHCl
4.6
4.7
4.7
4.6
4.8
4.7
4.8
4.7
4.6
4.8
4.8
4.5
4.9
4.9
FOR THE PREV
4.7
5.4
5.3
5.3
5.4
5. 3
5.2
5.4
5.4
5.5
5.4
Monitor^
CHAN 3
LSI
ppmHCl
44.0
44.3
44.7
45. 1
47.3
51.9
54.4
55.5
55.4
52.8
46.7
40. 4
34.8
30.2
IOUS 15
46. 1
26. 4
23. 3
20.4
18. 6
16.4
15.2
11.5
6. 3
5. 2
4.2
Ing 06-04-1987
CHAN 4
Bodana
pomHCl
65.7
74.7
65.3
53.8
61.0
67.8
71.6
73.5
67-0
59. 7
55 . 6
56. 1
52. 1
46.4
MINUTES
61 . 5
52.6
51.8
45. 9
36.9
36.3
41.4
44.8
43.2
37. 4
38.9
COMMENTS: Interrupted calibrations due to air compressor failure
B-4
-------
3"
Ogdan Martin Sy»t»rrm - HC1
TIME
1 1 1 37
11:38
11:39
11:40
11 41
11 42
11 43
11 44
11 45
11 46
1 1 47
11 48
1 1 49
11 50
1 1 51
""^^^^^^^^^^^^
11 53
1 1 54
11 55
11 56
11 57
11 58
11 59
12 00
AVERAGE
12:00
12:01
12:02
12:03
12:04
12:05
12:06
12:07
12:08
12:09
12: 10
12: 11
12: 12
12:13
12: 14
12: 15
AVERAGE
12: 15
12: 16
J-2-UZ^.
12s 18 -3
12: 19
12s 20
12:21
12:22
CHAN 1
TECO
ppmwet.
26.2
19.8
12.7
17. 4
13.5
11.0
9. 1
20.8
12.4
11.8
10.9
13. 4
16. 1
7.9
-2.7
— '•vxSTP'
tr • 2
^^^^^^^
7.6
11.5
21.0
1 12. 8
236.4
309. 1
347.2
VALUES
52. 1
381 .7
392.4
413.4
425. 1
425. 4
434. 3
440. 7
446.0
454.4
455.6
461 .5
459. 7
459. 9
458.8
470. 1
VALUES
438.6
465.4^
T481.3
J 474.9
1476.8
(479.0,
47^77
563.0
CHAN 3
LSI
ppmdry
1.9
3.2
3.5
3.5
3 . 3
3.2
2.9
2.7
2. 7
2.5
2.4
TI T:
2. Z
2. 3
f~\ O
\ 2.0
/ 2.0
2. 1
2. 0
2. 1
2.3
2.5
2.8
J' . 0.
FOR THE LAST
2.6
4. 3
15.0
50.9
66.2
76. 1
88. 0
85. 8
86.7
90.6
99.3
94.4
86.9
89.3
90.4
87.0
Monitoring 0^-04-1997
CHAN 4
Bodena
ppmdELy.
23. 1
23.2
24.7
24.2
19. 2
19.3
23.5
22.6
19.2
18.5
22. 7
21.4
18. 6
19. 1
21 . 7
19. 7
20. 1
16. 7
15.6
16. 1
16.8
18. 1
21.0
23. 6
HOUR: 24 MINUTES OF VALID DATA
20. 4
22.2
18.2
19. 7
23.9
25.7
23. 2
29.2
31.4
25.6
23.8
25.7
28. 2
29. 6
23.9
23.5
FOR THE PREVIOUS 15 MINUTES
74. 1
82.3
82.4
88.4
89.7
86.2
86.4
88.7
24. 9
24.9
26.0
24.5
22.2
18.0
18.8
21.0
B-5
-------
Ogden Martin Systems - HC1
CHAN 1 CHAN 3
TECO LSI
ppcnwet
Monitoring
CHAN 4
Bodena
06-04-1987
12:23 540.9
12:24 539.2
12:25 526.3
12:26 513.2
12:27 481.5
12:28 430.0
12:29 417.2
12:30 457.3
AVERAGE VALUES
12:30 487.9
12:31 462. 1
12:32 430.5
12:33 434. 1
12:34 456.2
12:35 464.4
12:36 475.2
12:37 469.7
12:38 443.9
12:39 462.8
12:40 478.3
12:41 448.3
12:42 458.6
12:43 452.0
12:44 459.6
12:45 483.6
AVERAGE VALUES
12:45 458.6
12:46 498.8
12: 47 475. 1
12:48 484.9
12:49 456.1
12:50 457.3
12:51 463.2
12:52 481.3
12:53 470.8
12:54 490.6
12:55 545.5
12:56 494.5
12:57 484. 1
12:58 454.8
12:59 443.7
13:00 447.5
AVERAGE VALUES
13iOO 476.6
AVERAGE VALUES
13:00 465.4
pr ^ • • _• — r_; 1 . — -
92. 1
93.9
90.4
85.6
95.9
98.0
90.6
81.3
FOR THE PREV
88.8
83. 1
85. 1
79.6
71.3
70. 1
72.0
70.6
65. 6
63.2
64.4
64.7
62.4
59. 0
58. 8
63. 2
FOR THE PREV
68. 9
65.8
67.8
69.2
66.9
70.4
70.6
67.8
67. 1
66.3
64.4
60.4
54.5
58.2
65.2
70.3
18.9
16.0
17.4
18.6
16.2
12. 4
13. 1
16. 7
IOUS 15 MINUTES
19.0
15.4
11.8
11.1
12.7
13.6
12.9
11.5
12. 1
16.2
17.2
15.0
16.6
18. 7
21 .5
22.8
IOUS 15 MINUTES
15.3
21. 1
18.9
20. 2
22.6
24. 5
25.9
27.4
24.7
23.3
23.6
21.8
23.4
25.3
25. 1
25.6
FOR THE PREVIOUS 15 MINUTES
65.7
FOR THE LAST
74.3
23.6
HDURt 60 MINUTES OF VALID DATA
20.7
13:01
460.9
68. 1
-------
Ogden Martin 8y*t»mK - HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodanm
TIME oomwet oomdrv oomdrv
13:
13:
13:
02
03
04
13:05
13:06
13:07
13:
13:
08
09
13: 10
13:
13:
11
12
13: 13
13
14
13:15
AVERAGE
13
13
13
13
13
13
13
13
13
1 ""i
13
13
13
13
13
13
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
AVERAGE
13:30
13:31
13:32
13:33
13:34
13:35
13:36
13i37
13«38
13i39
13:40
13:41
13:42
13>43
13»44
13i45
468.
471.
504.
535.
527.
521.
537.
528.
513.
498.
crsr c-
539.
534.
520.
8
8
6
6
4
9
1
8
6
7
5
4
6
3
VALUES FOR
514.
515.
547.
539.
502.
492.
529.
512.
515.
C" ~T Q
sJ.-JO .
510.
510.
518.
535.
520.
543.
6
6
7
5
2
-T
4
2
4
0
7
5
4
1
4
5
VALUES FOR
522.
535.
540.
551.
513.
518.
544.
552.
595.
607.
579.
570.
554.
565.
563.
514.
1
5
1
0
2
1
6
1
4
9
8
7
0
3
7
8
70
70
68
82
88
84
78
90
95
90
82
82
83
90
.
•
m
m
•
m
m
m
m
m
m
m
.
•
THE
1
1
1
1
1
1
81
99
04
13
09
06
07
01
93
92
99
93
95
•
•
.
.
.
.
.
„
m
m
m
•
104.
1
1
03
14
.
•
THE
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
02
31
29
30
29
21
24
17
11
26
18
19
32
21
22
29
•
•
.
.
.
.
m
m
•
•
•
•
•
•
•
•
5
7
4
3
9
2
T;
1
6
8
0
5
8
0
PREV
7
0
4
8
7
5
7
9
4
1
6
2
1
8
8
5
PREV
6
9
4
7
7
5
2
9
9
5
5
5
7
4
6
8
27
30
33
30
21
20
25
26
21
21
26
24
19
IB
IOUS
24
20
O T
+- ji-
20
*!. jL.
24
22
25
31
34
37
38
47
55
54
IOUS
32
47
49
54
48
45
49
51
49
43
45
47
40
47
53
44
.
•
„
•
.
•
•
•
m
m
m
m
m
•
1
•
m
.
.
•
m
.
.
.
.
•
•
.
•
•
1
•
•
•
,
•
.
.
•
•
•
.
.
.
-
.
•
4
7
9
3
3
5
4
2
3
7
4
3
9
6
5 MINUTES
8
8
4
0
5
6
4
5
9
5
1
1
7
5
1
4
5 MINUTES
0
9
4
0
9
3
6
3
0
4
7
4
5
9
8
7
06-04-1937
B-7
-------
Ogden Martin Systems - HC1
TIME
AVERAGE
13:45
13:46
13:47
13:48
13:49
13:50
13:51
13:52
13:53
13:54
1 3 : 55
13:56
13:57
13:58
13:59
14:00
AVERAGE
14: 00
AVERAGE
14:00
14:01
14:02
14:03
14:04
14:05
14:06
14:07
14:08
14:09
14: 10
14: 11
14: 12
14: 13
14: 14
14: 15
AVERAGE
14s 15
14s 16
14i 17
14: IS
14s 19
14520
14:21
14s22
14:23
14:24
CHAN 1
TECO
ppmwet
VALUES
553. 8
490.7
489.0
480.2
483.5
489.6
476.9
483.5
491. 1
529.2
518.9
489.5
531. 4
498. 1
5 1 0 . 4
532.0
VALUES
499. 6
VALUES
522.5
516. 8
515.3
497.7
486.9
483.4
527.8
525.8
498.7
519.7
526.0
511. 1
564.8
561.5
541.6
598. 2
VALUES
525.0
565.2
529.6
563.4
528.6
524.8
533.5
513.6
529. B
S49.3
CHAN 3
LSI
ppmdry
FOR THE PREV
124.5
113.5
105.2
106. 0
107.0
128.8
118.7
112.9
126. 1
141.2
138.9
127.5
130. 1
153.4
138. 1
147. 1
FOR THE PREV
126.3
FOR THE LAST
1 08 . 8
141.6
142.7
153.4
145.7
1 37 . 3
1 35 . 5
143.0
130.8
131. 1
142.3
135.5
142.0
147.2
136.8
125.6
Monitoring 06-04-1937
CHAN 4
Bodene
ppmdry
IOUS 15 MINUTES
47.9
37.2
44.8
55. 1
53. 8
47.8
50. 0
60. 1
61. 1
56. 4
53. 0
55. 9
61 . 5
55.6
55.0
67-3
IOUS 15 MINUTES
54.3
HOUR: 60 MINUTES OF VALID DATA
39. 8
77. 1
81.7
75.8 .
77. B LO/IC. £>cceeal •ea •
95.0 ^^ -£t>r- '•>-• /,„
1 00 . 5 "— "*"^
86.7
75.2
73.9
80 . 5
84.4 <^f^\y ,0 y J'
99 . 0 ^ — " s-> ' '^tt~oe'*^£^' 3f~
86.9 "rOv- *^- / 5~ Se-f-crr&tg
70. 0
84. 4
FOR THE PREVIOUS 15 MINUTES
139. 4
135.6
142.2
1 53 . 8
149.9
142.9
152. 1
148.9
147. 1
145.4
83.3
88.2
83.5
88.9
89.2 d~onc. txceeWcW sp*n~
95. O^"^ /•» "A
9e!6 rO«~ A^4OS-€C.
90.3
90.6
92.4
B-8
sp
>
-------
Oqden Martin
TIME
14:
14:
14:
14:
14:
14:
25
26
27
28
29
30
AVERAGE
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
AVERAGE
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
15:
45
46
47
48
49
50
51
52
53
54
55
56
57
SB
59
00
AVERAGE
15:
00
AVERAGE
15:
15:
15:
15:
00
01
02
03
CHAN
TECO
System* -
1
ppmwet
548.
507.
517.
489.
483.
477.
1
9
6
2
8
6
VALUES
524.
442.
434.
446.
455.
435.
457.
449.
417.
403.
419.
428.
420.
435.
449.
462.
1
2
2
4
•?;
2
8
1
8
4
0
4
0
"T
8
8
VALUES
437.
439.
448.
432.
436.
431.
426.
448.
439.
425.
447.
484.
545.
490.
458.
466.
1
4
2
2
0
2
8
•J"
4
6
7
4
9
5
2
1
VALUES
454.
7
VALUES
485.
449.
454.
447.
2
1
8
5
CHAN
LSI
HC1 Monitoring 06-04-1937
3
CHAN
4
Bodena
ppmdrv
139.
139.
135.
138.
136.
136.
FOR THE
142.
127.
124.
133.
124.
1 15.
1 15.
1 17.
108.
98.
113.
1 15.
108.
105.
111.
109.
FOR THE
1 15.
109.
107.
112.
117.
121.
1 18.
111.
1 16.
114.
120.
1 16.
1 17.
126.
124.
132.
FOR THE
117.
FOR THE
128.
131.
131.
134.
1
7
5
1
4
9
PREVI
9
9
9
7
7
1
1
8
5
8
T;
9
7
5
0
~T
PREVI
3
9
4
7
4
1
-T
7
0
2
0
7
8
4
1
8
ppmdrv
86
81
91
86
74
71
OUS
87
78
80
70
69
75
75
64
59
65
72
72
63
67
73
72
OUS
70
58
58
62
60
54
54
60
60
61
67
77
84
76
73
77
PREVIOUS
8
LAST
8
5
9
9
65
.3
.0
.6
. 1
.4
. 1
15 MINUTES
.2
.0
. 0
.8
. 4
. 4
. 0
. 1
. 8
.8
. 6
-T
.7
. 5
. 7
. 5
15 MINUTES
. 7
.8
. 5
. 2
. 8
.9
.8
• O
.7
. 0
.6
.9
.6
.6
. 1
.2
15 MINUTES
.9
HOUR: 60 MINUTES OF VALID DATA
76
81
84
77
.8
.5
. 1
.0
B-9
-------
Ogden Martin Systems - HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bod»ns
TIME oomwet porpdrv ppmclry
15:04
15s OS
13:06
15:07
15:08
15:09
15: 10
15: 11
15: 12
15: 13
15: 14
15: 15
AVERAGE
15 15
15 16
15 17
15 18
15 19
15 20
15 21
15 22
15 23
15 24
15 25
15 26
15 27
15 28
15 29
15 30
AVERAGE
15:30
15:31
15:32
15:33
15:34
15:35
15:36
15:37
15:38
15:39
13i40
15:41
15»42
15:43
15i44
15:45
AVERAGE
15:45
15:46
462.2
465.9
511.2
510.6
496.2
499.2
488. 3
5O6. 8
525. 2
518.0
516.9
521.3
VALUES FOR
491.5
516. 5
509. 3
485. 9
498. 1
498.3
518.8
503. 9
495. 4
469. 0
455. 7
458. 1
442.6
452.0
454. 0
448.8
VALUES FOR
480.4
521.4
512.4
502.7
499.5
498.3
541.8
502. 1
492.7
504.8
506.2
524.2
527.3
530.4
521.9
523.4
VALUES FOR
513.9
487.4
128.4
127.2
124.6
132. 1
126.3
124.9
130. 0
135.7
133.7
130.3
128.6
131.7
THE PREV
130. 1
135. 0
133.9
133.8
137.4
134.4
129.4
126.8
131. 1
135. 1
125. 8
129.2
123. 8
124.2
124.7
114.5
THE PREV
129.3
109.4
1 15.4
107.3
105.9
119.9
128.3
131.2
116.4
112.7
121.3
118.9
115.3
107.4
115.6
122.3
78.0
81.7
83. 1
72.2
69.2
73.0
75.5
77.9
76.3
71.6
74. 9
75.9
IOUS 15 MINUTES
76.8
74.5
74. 8
74.5
71.2
69.9
75.2
76.9
68.8
57.2
57.8
65.5
65. 3
56.2
53 . 3
57.0
IQUS 15 MINUTES
66.5
57.0
43.6
43.0
57.7
57.9
49.9
43.0
49.0
51.2
43.6
41.4
47.8
50.0
41.6
37.0
THE PREVIOUS 15 MINUTES
116.5
115.8
47.6
39 . 8
B-10
06-04-1987
-------
Qgd»n Martin
CHAN
TECQ
TIME
15!
15a
15!
15s
15:
15:
15:
15:
15:
15:
15:
15:
15:
16:
47
48
49
50
51
52
53
54
55
56
57
58
59
00
AVERAGE
16:
00
AVERAGE
16:
16:
16:
16:
16:
16:
16:
16:
16:
16:
16:
00
01
02
03
04
05
06
07
08
09
10
Sy»t»m» -
1 CHAN
LSI
HC1 Monitoring 06-04-1987
3 CHAN 4
Bodano
_ppmwet Dpmdrv
506.
483.
482.
496.
503.
505.
557.
548.
558.
540.
523.
545.
510.
524.
8
9
0
4
5
1
0
9
1
0
^
0
T
•~t
9
VALUES FOR
518.
O
VALUES FOR
501.
514.
517.
519.
CT i-} ^i
<_J jL. ji- m
519.
517.
548.
543.
508.
509.
0
9
4
4
5
1
6
4
6
4
1
1
1
1
1
1
10.
22.
19.
12.
06.
106.
1
13.
3
T
8
7
^
1
5
107.3
1
1
1
1
1
00 .
00.
09-
1 1 .
08.
96.
THE
1
09.
THE
1
1
1
1
1
1
1
21.
10.
08.
02.
07.
1 1 .
06.
99.
92.
88.
94.
8
4
9
4
8
0
PREV
4
LAST
~T
0
o
6
1
9
7
'-i
9
9
ppmdr
43.
36.
32.
37.
39.
32.
32.
32.
36.
35.
31.
29.
35.
38.
IOUS 1
35.
HOUR:
56.
27.
24.
29.
"T-T
29.
jL. • J1 •
26.
31.
29.
26.
y.
i
6
8
4
0
6
0
8
6
9
1
2
2
8
5 MINUTES
5
60 MINUTES OF VALID DATA
6
2
_.!*'
7
cr
8
4
1
o
-T
-^
COMMENTS: End sampling at 16:10 to begin analyzer calibrations
B-ll
-------
Ggden Martin Systems - HC1
CHAN 1 CHAN 3
TECO LSI
.ppmd..ry
Moni tori ng
CHAN 4
Bodenc
06-04-1987
TIME ppmwet
16:12 471.1
16513 327.6
16:14 140.7
16: 15
16: 16
16: 17
16: 18
16: 19
16:20
16:21
16:22
16:23
16:24
16:25
16:26
16:27
16: 28
16:29
16: 30
16:31
16:32
16:33
16:34
16:35
16:36
16:37
16:38
16:39
16:40
16:41
16:42
16:43
16:44
16:45
16:47~ ^
16:48
16: 49
1 6 : 50
16:51
16:52
16:53
16:54
16:55
16:56
97.8
78.4
76.0
67.0
58.3
54.8
54.6
56. 6
52.9
58.9
57.4
47.2
46. 9
50. 1
41.7
49. 0
49.8
48.4
48.0
46. 8
48. 4
41 . 7
45. 1
50. 2
41.9
39. 1
39.9
38.3
4i_.JzL-
/SsTVT
36.8
32.6
40.9
34.5
35.9
39. 3
38.5
38. 9
,36_»_5r-
41.2
L23.9
/
16:57 297.0
16:58 374.3
16i59 413.9
17sOO 449.1
30.9
36.0
AVERAGE VALUES FOR THE LAST HOURi 49 MINUTES OF VALID DATA
17:00 93.3 20.3 32.6
17s01 453.2 1.8
34.6
B-12
-------
Ogden Martin Systems - HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodens
TIME Dcmwet
17:02
17:03
17:04
17:05
17:06
17:07
17:08
17:09
17: 10
17: 11
17: 12
17: 13
17: 14
17: 15
AVERAGE
17: 15
17: 16
^7: 17
17: 18
17: 19
1 7 : 20
17:21
17: 22
17:23
17: 24
17: 25
17: 26
17: 27
17:28
17: 29
17:30
AVERAGE
17:30
17:31
17:32
17:33
J7:34
17:35
17:36
17i37
17i38
17t39
17s40
17i41
17a42
17i43
47844
7:45
472.3
476. 1
487.5
494.6
499.7
502.0
511.0
509 . 0
516.4
516.2
522. 6
519.5
522. 3
530.8
VALUES
502.2
527. 4
529-2
531. 7
631. 9
570.6
471 . B
471 .5
521 . 1
536. 3
554. 8
592. 1
593. 9
504.5
490. 6
480.9
VALUES
533. 9
493.5
527.4
538. 0
539.6
531. 2
371.7
139. 9
1 10.6
83. 1
78.4
77.8
72.8
65.6
64.2
54.9
ppmdry
1.9
1.8
1.8
1.6
1.3
1.3
1 .4
1.5
1 .6
1.7
1.9
1 .8
1 .5
1 .7
FOR THE PREV
1.6
1 .8
1.9
1 .8
1.8
1 .8
1 .8
1 . 4
1 .3
1 .5
1 . 6
2.9
7.4
13.6
19.3
23.8
ppmdry
30.8
30.9
34.0
33 ^
30 . 4
29.3
29. 1
33 . 0
34.5
31.3
31.6
35.2
42.3
42. 7
IOUS 15 MINUTES
33 . 5
36. 6
37. 0
36.9
31.9
30. 3
27. 2
27.5
28. 4
26. 1
25. 1
25. 9
26. 6
22. 7
21.5
19. 9
FOR THE PREVIOUS 15 MINUTES
5.6
27.5
30 . 4
"^2 9
35. 1
36.7
37.6
38.4
40.4
42.7
44.0
45.5
46.7
53.3
50.7
50. 1
28. 2
16.8
13.8
12. 1
11.1
10.8
12.5
12.5
10.9
10.7
11.7
11.1
11.1
12.3
15.0
15.4
06-04-1987
B-13
-------
Ogden Martin Systarcs - HC1 Monitoring 06-04-1997
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodens
TIME ppmwet ppmdry ppmdry
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
17s45 249.9 40.8 12.5
17i46 167.3 50.0 14.3
17s47 430.B 49.6 14.3
17
•
•
17:
17
17
17
17
17
17
17
17
•
•
•
•
:
•
•
•
*
•
«
48
49
50
51
52
53
54
55
56
57
465.
480.
507.
510.
518.
526.
519.
551.
540.
545.
5
1
T;
1
4
0
9
6
7
6
49.
49.
49.
49.
60.
64.
65.
65.
65 .
64.
2
4
5
5
1
7
*"?
4
-T
9
1
1
5.
6.
16.
1
1
1
1
1
1
1
4.
3.
6.
6.
6.
4.
5 .
6
4
1
-7
•^
7
0
9
•T
6
0
B-14
-------
SUMMARY OF HC1 MONITORING* DATA
RUN: 2 (Baseline Conditions)
SOURCE: Ogden Martin Systems - Characterisation Test
TEST DATE: 6/5/87
GAS VALUE INITIAL CAL
***TECO (INLET)***
0.0 ppm HC1
490.0 ppm HC1
***LS I (MI DPO I NT ) ***
0.0 ppm HC1
65.0 ppm HC1
***BODEN. (OUTLET)***
0.0 ppm HC1
65.0 ppm HC1
HOUR TIME
1 11:00-12:00
2 12:00 - 13:00
3 13:00-14:00
4.8
497.0
0.0
62.9
-0.9
NA
UNCORRECTED
INLET
(wet)
565.4
543.4
496. 1
FINAL CAL
47.0
548.0
-2.4
58.2
-1.4
71.8
RESULTS
MIDPOINT
(dry)
154.2
1 23 . 5
111.3
***RESULTS CORRECTED FOR CALIBRATION BIAS AND
HOUR TIME
1 11:00 - 12:00
2 12:00-13:00
3 13:00-14:00
3-HOUR AVERAGE:
Highest 1 Min. Avg.:
Lowest 1 Min. Avg.:
INLET
(dry)
613.3
588. 3
534 . 5
578.7
776.3
451.3
MIDPOINT
(dry)
163.4
131.2
118.3
137.6
233.8
85.0
MEAN CAL
25.9
cr *"v*—i e-
U^^. . U
-1.2
60.6
-1.2
71.8
OUTLET
(dry)
35.2
26.8
13.6
DRIFT***
OUTLET
(dry)
32.4
24.9
13.2
23.5
50.4
B.9
NOTE: Inlet concentrations were measured on a wet basis and
corrected to a dry basis using Method 4 results.
Moisture = 13.2 7.
B-15
-------
0
Ogden Martin Systems ~ HC1
TIME
07:51
07:52
07:53
07:54
07:55
07:56
07:57
07:58
07:59
08: 00
AVERAGE
08:00
08: 01
08:02
08: 03
08: 04
08: 05
08: 06 '
08: 07
08: 08
08: 09
08: 10
08: 1 1
08: 12
08: 13
08:14
08: 15
\AVERAGE
OSi45
08: 16
08: 17
08: 18
08: 19
08: 20
08: 21
08:22
08:23
08:24
08:25
08:26
08:27
08:28
08s 29
08:30
AVERAGE
08:30
08:31
08:32
CHAN 1
TECO
ppmwct
63. 4
62. 9
63.2
67. 4
63.4
65.9
65.4
66. 9
45.3
-2. 1
VALUES
56. 2
-7.4
5. 2
15.3
8. 1
8. 6
9.8
7.8
9. 1
12.5
1 . 5
4. B
0. 8
4.8
9.7
VA.UES
6.3
^-x
/
' 5. 1
\ 3. 2
\6.%J
-3'. 6
86. 1
247.9
329.3
375.0
399. 1
414.3
429.9
436. 6
444.0
451.9
461.4
VALUES
272.7
461.8
473.0
CHAN 3
LSI
ppmdry
13.7
13.7
13.7
13.7
13.6
13.5
13. 4
13.2
13. 0
12.9
FOR THE LAST
13.4
12.6
11.4
0 . 7
0. 6
0 . 7
0. 4
0 . 2
0. 1
0 . 2
0.2
0 . 2
0. 1
0. 1
0. 1
1 0.1
FOR THE PREV
1.8
-0. 1
-0. 3
-0.4
-0.6
-0.2
0. 6
0 . 5
0.4
0 . 3
0.3
0 . 3
0.3
0.2
-0.2
-0.5
FOR THE-f*£V
( o.ol..
-0.7
-0.0
Monitoring 06-05-1987
CHAN 4
Bodens
41.9
15.7
1.2
-0. 1
-0. 2
-0.2
-0. 3
-0. 1
-0. 9
-0. 6
HOUR: 10 MINUTES OF VALID DATA
5. 6
-1 . 1
-1.3
-0. 7
~°- 7 a-°
— 0. 4 ^ ,.^/vi^7
37. 6 ^
5. 6
-1.2 ^^f 1^f&
-0. 9^ •*
25.5
43. 9
43. 9
-------
C6-05-1937
CHAN 1
TECO
TIME pomwet
08: 33
08:34
08: 35
08:36
08:37
08:38
08:39
08: 40
08:41
08: 42
08: 43
08:44
08:45
472.9
472.7
481.6
476.0
479.9
480.3
486.7
486.4
489. 3
488.0
489.8
493. 4
494.5
AVERAGE VALUES
08: 45
08: 46
08: 47
08: 48
08:49
08: 50
v 08:51
08": 53 ^
03:54
08:55
08: 56
08:57
08:58
08: 59
09 : 00
481 . 8
49O. 3
4££u-^
492. 7
499. 1
497. 0
500.6
495. 6^
~5O._. . 9
563. 0
512. 5
472. 1
469. 8
438. 4
443.8
472.3
AVERAGE VALUES
09 : 00
489- 1
AVERAGE VALUES
09:00
09:01
09:02
09:03
09:04
09:05
09:06
09:07
09:08
09:09
09: 10
09 : 1 1
09: 12
09: 13
09: 14
09: 15
312.5
450.9
452.8
469.6
457.7
478. 1
470.9
473.9
467.8
493.4
489.0
492.7
507 . 8
476.0
469.4
441.8
CHAN 3
LSI
ppmdry
-0.2
-0. 1
0.5
4.6
12.0
19. 1
25.4
30.5
34.7
38.2
41.3
43.5
44.9
FOR THE PREV
19.6
46. 1
46. 8
47.7
48.7
49.8
50 . 9
52.5
53. 9
55. 0
55.7
56.5
57. 1
57-8
58.5
59.2
FOR THE PREV
53. 1
FOR THE LAST
18.6
59.3
52. 6
45.6
47.8
52.6
60.6
68.4
62.6
62.2
OO • O
64.8
64.7
64.3
63.7
62.9
CHAN 4
Bodens
ppmdry
20 . 0
16.8
17.8
23.8
24. 4
18.2
14.3
18.5
22.8
20.8
20. Z
21.4
22.7
IOUS 15 MINUTES
20. 2
24.5
24. 6
23 . 2
24 2
24.3
23.6
25. 1
25. 7
22. 1
20. 4
23. 6
27. 6
26. 4
24. 9
21.9
IOUS 15 MINUTES
24. 1
HOUR: 60 MINUTES OF VALID DATA
19. 1
19. 1
21 .9
27.2
25.7
21.2
15.6
15.8
22.6
30.9
29.6
23.2
15.6
11.5
12.8
13.7
B-17
-------
Ggden Martin Systems - HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodens
LIME. _BJ3mwet _._ ppmdrv ppmdry
06-05-1987
AVERAGE VALUES FOR THE PREVIOUS 15
09: 15 472.8
09: 16 457.2
09:17 452.3
09: 18 422.8
09s 19 426.4
09:20 436.6
09:21 419.9
09:22 442.6
09:23 432.1
09:24 449.6
09:25 461.2
09:26 474.7
09:27 472.8
09:28 447.7
09:29 456.9
09:30 458.8
59.7 20.4
, — t t^~~
62.7 \JC 12.9
62.9 10.4
63 .2j 9.4
rszT* 10.2
66. 1 10.1
65.5 8. 1
65.7 7.6
57.5 9. 1
44.1 10.5
39.9 9.7
34.5 8.6
29.4 8.9
28.3 9-7
27.1 9.3
25.8 9.6
AVERAGE VALUES FOR THE PREVIOUS 15
09:30 447.4
09:31 478.5
09:32 473. 1
09:33 489.3
09: 34 489. 1
09:35 500.8
09:36 506.9
09:37 488.6
09:38 501.4
09:39 503.8
09:40 483.9
09:41 516.3
09:42 553.3
09:43 518.5
09:44 537. 1
09:45 493.8
49.0 9.6
24.2 10.3
22.4 11.5
20.8 12.3
19.4 11.5
18.5 12.2
17.8 15.3
16.9 15.3
16.2 15.2
15.6 15.5
15.0 16.1
16.3 20.0
21.0 21.0
26.8 19.6
28.6 21.2
33.8 23.5
AVERAGE VALUES FOR THE PREVIOUS 15
09:45 502.3
09:46 538.2
09:47 539.2
09:48 540.9
09:49 519.8
09:50 521.1
09«51 547.2
09s 52 507.4
09:53 506.6
09s 54 542.1
09s 55 493.9
09s 56 484.9
09s 57 499.0
09:58 552.0
20.9 16.0
56.8 24.8
76.0 24.3
73.8 25.0
62.9 26.8
56.4 31. 1
53.2 32.1
50.1 28.6
48.0 29.1
46.5 34.6
44.9 32.3
43.3 28.9
40. 1 30. 1
36.0 36.3
MINUTES
- LS Z
&$~t
t^ w" 9*
AA
J*
MINUTES
MINUTES
B-18
-------
Gguen Martin 3y
TIME
09:59
10:00
AVERAGE
10:00
AVERAGE
10:00
1 0 : 0 1
10: 02
10:03
10:04
10:05
10:06
10:07
10:08
10: 09
10: 10
10: 11
10: 12
10: 13
10: 14
10: 15
AVERAGE
10: 15
10: 16
10:17
10: 18
10:19
10:20
10:21
10:22
10:23
10:24
10:25
10:26
10:27
10:28
10:29
1 0 : 30
AVERAGE
10i30
10i31
10»32
10533
10:34
10i3S
10:36
10:37
CHAN 1
TECO
ppjnwet
532. 3
493.9
VALUES
521 .2
VALUES
485. 9
466. 2
444.3
474.8
449. B
460. 9
445. 4
516. 6
5B1. 9
593.2
6 1 0 . 4
602. 6
587. 1
587. 6
524. 1
503. 5
VALUES
523. 2
472.5
456.8
458.0
452. 4
438. 7
466.8
491 .0
533.5
502.9
443.3
456.5
464.2
480.5
480.2
463.5
VALUES
470.7
482. 1
465.7
487.6
482.3
493.7
530.2
480.9
stsiTi* - HCl M
CHAN 3
LSI
ppmdry
32. B
36.6
onitoring 06-05-1987
CHAN 4
Bodena
ppmdry
33. 1
29.0
FOR THE PREVIOUS 15 MINUTES
50. 5
FOR THE LAST
45. 0
129.0
211.7
206.5
188.6
175.7
180. 5
185. 1
175. 9
157.9
167. 6
192.5
188.2
189. 3
207. 9
1B9. 0
FOR THE PREVI
1B3.0
174. 1
179. 2
183.6
181 . 5
160. 7
156.8
172.9
170.2
162. 4
137.4
122.2
140.0
140.9
133.9
128.5
FOR THE PREVI
156.3
142.3
154.3
138. 1
132. 1
130.7
129.2
130.7
29.7
HOUR: 60 MINUTES OF VALID DATA
18.9
29. 1
30.9
35.2
36.2
41 .2
40. 1
42.8
46. 5
47. 8
48. 7
49. 6
55. 9
45. 0
26. 6
24.5
OUS 15 MINUTES
40. 0
35.4
40. 7
34.7
29.0
34.6
41 . 2
37.3
30 . 0
24.8
24.9
35. 0
28. 1
28.3
33.3
35. 1
OUS 15 MINUTES
32.8
33.6
32.5
39.9
41.6
35.6
31.0
34.5
B-19
-------
Qgdan Martin Sy«t»m» - HCi Meni taring 06-05-1997
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bod»n»
TIME Domwet nnmdrv oomdry
10«38
10s39
10:40
10:41
10:42
10:43
10:44
10:45
AVERAGE
10:45
10: 46
10:47
10:48
10: 49
10:50
1 0 : 5 1
10:52
10: 53
10:54
10:55
10:56
10:57
10:58
10:59
1 1 : 00
AVERAGE
1 1 : 00
AVERAGE
11:00
11:01
11:02
11:03
11:04
1 1 : 05
1 1 1 06
11:07
11:08
Ili09
Hi 10
11: 11
111 12
111 13
Hi 14
111 15
AVERAGE
111 15
11:16
500. 1
514. 4
52^. 3
528.9
532 . 1
528. 1
533.3
582.2
VALUES FOR
511.0
541 . 0
511.0
536 . 2
569.5
514.2
505.9
526.0
476.3
475.5
481 . 6
489. 1
456. 3
474. 0
515. 9
466. 7
VALUES FOR
502.6
VALUES FOR
501.9
507 . 7
496.5
494.6
531 . 3
535.8
537.5
559.3
606.4
609. 1
649.4
693.8
708.8
681.2
651.2
653.4
VALUES FOR
594. 4
607.7
114.2 39.7
140.2 35.2
149.6 33.8
135.9 40.0
133.0 49.4
145.4 46.7
166. 1 39.7
162.6 41.9
THE PREVIOUS 15 MINUTES
140.3 38.3
156.9 43.7
138.3 40.8
142.3 37.9
165.0 34.2
141.0 32.5
115.8 32.8
102.3 31.9
1 18. 6 22. 5
109.8 32 . 8
101. 2 39. 1
130.8 36.6
139.3 27.4
129.0 31.2
124.8 42.2
141.7 37.9
THE PREVIOUS 15 MINUTES
130.5 34.9
THE LAST HOUR: 60 MINUTES OF VALID DATA
152.5 36.5
132.3 31.95^BS&IKJ KUM 2~ @ //•'
157.7 28.5
152.3 32.5
130.7 35.3
149.6 24.8
134.2 27.4
123.5 31.6
125.1 35.5
136.2 33.7
126.9 33.3
115.2 33.5
126.9 38.4
126.8 40.9
151.0 39. 1
148.8 31.7
THE PREVIOUS 15 MINUTES
135.8 33.2
172.7 24.3
B-20
-------
Ogden Martin Syatemia - HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodena
TIME _ppmwet ppmdrv DDmdrv
11:
lit
11:
11:
11:
11:
1 1:
17
18
19
20
21
22
23
11:24
11:
25
11:26
11:
1 1;
11-
27
28
29
1 1 : 30
AVERAGE
1 1
11
1 1
11
11
11
1 1
1 1
11
11
11
11
1 1
11
11
1 1
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
AVERAGE
11
11
11
11
11
45
46
47
48
49
1 1 1 50
11
11
11
11
11
11
11
11:
11:
51
52
53
54
55
56
57
58
59
12:00
624.6
622.9
638.5
635.6
625.0
605.4
608. 3
653.2
668.3
628.7
60 1 . 5
578.9
581 .2
574.0
VALUES
616. 9
578. 8
C-C-CT O
530. 6
534.9
526.6
562. 4
539.2
521 . 6
510.8
537.0
556. 4
508. 3
513.5
510. 2
527. 3
VALUES
534.2
511.8
507.9
570.6
615.7
522. 1
508.4
537.2
511.2
536. 0
493.4
467.3
478. 9
496. 1
475.8
506.9
154. 1
141.3
147.9
138.9
143.2
128.6
1 IB. 3
135.5
164.7
156. 4
134.3
124. 1
176.5
216. 4
FOR THE PREV
150.2
221 . 1
215.7
209 . 7
197.3
195.9
180. 7
176.8
155. 6
152.4
160. 9
160. 8
153.8
1 35 . 0
131 .8
139.5
FOR THE PREV
172.5
163. 1
180. 1
174.0
158.9
166.7
152.3
155.5
151.7
138.2
146.4
146.8
145.5
169.3
167. 1
157.8
26.0
28.7
33.4
34. 6
28.8
26. 6
31 . 1
34.4
29.5
21.9
22.8
27.9
29. 2
25.0
IOUS 15 MINUTES
28.3
21 .5
20. 2
23.0
28. 6
31.1
33. 5
31.1
34. 5
37. 9
41.0
38. 9
32.7
36. 4
44. 4
50. 3
IOUS 15 MINUTES
33. 7
47. 6
47.4
50. 0
55.4
48.7
43.5
46.6
46.6
44.8
37. 8
38.9
43.8
46.9
41.9
44.8
06-05-1987
B-21
-------
Ogden Martin Systems - HC1 Monitoring 0
-------
Qgden Matrtin Systems -
CHAN 1 CHAN
TECO LSI
TIME
12:40
12:41
12:42
12s43
12t44
12:45
AVERAGE
12:45
12:46
12: 47
12:48
12:49
12:50
12:51
12:52
12:53
12:54
12:55
12:56
12:57
12:58
12:59
13:00
AVERAGE
13:00
AVERAGE
13:00
13:01
13:02
13:03
13:04
13:05
13:06
13:07
13:08
13:09
13: 10
13: 11
13i 12
13: 13
13i 14
13i 15
AVERAGE
13» 15
13: 16
13« 17
13: 18
ppmwet
546.7
589.6
614.3
624.7
632.2
629.0
VALUES
569. 4
637.4
595. 2
571.9
573.6
559.6
537.8
557 . 0
550 . 6
535. 3
506. 7
509.7
510.6
518.7
537.5
582.6
VALUES
552 . 3
VALUES
543.4
632. 2
564.2
548.9
508. 3
494.0
529.7
542.8
514.5
535.4
519.0
538.2
529.4
489.7
494.5
524.8
VALUES
531.0
516.8
526.0
503.9
HC1 Monitoring 06-05-1987
3 CHAN 4
Bodeno
ppmdrv
122.
115.
122.
122.
129.
121.
FOR THE
120.
1 20 .
122.
1 16.
107.
111.
100.
88.
86.
86.
79.
81 .
93.
111.
144.
157.
FOR THE
107.
FOR THE
123.
129.
111.
97.
105.
131.
141.
148.
139.
143.
138.
129.
125.
123.
107.
98.
FOR THE
124.
102.
99.
94.
3
4
0
6
7
4
PREV
7
6
4
1
1
4
9
3
8
8
6
6
0
2
0
4
ppmdrv
17
17
19
19
17
16
IOUS
20
17
17
17
16
15
14
14
13
13
14
14
IB
IB
15
14
PREVIOUS
1
LAST
5
8
9
4
7
9
2
8
0
6
0
1
0
6
4
9
15
HOUR
26
20
20
16
12
14
17
14
11
13
15
15
13
11
13
15
PREVIOUS
8
3
7
2
15
14
11
11
- 0
.0
. 0
.4
.4
.5
15 MINUTES
. 4
.5
.5
. 0
. 5
.0
. 6
T;
.6
. 6
. 0
. 4
. 0
-T
. 4
. 4
15 MINUTES
.6
: 60 MINUTES OF VALID DATA
. 8
.8
^
. 1
.8
. 2
.5
. 7
.5
.6
.8
.5
. 1
.4
.6
. 1
15 MINUTES
. 1
. 1
.8
.3
B-23
-------
Ogden Martin Systems - HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodena
TIME oomwet Domdrv oomdrv
13i 19
13:20
13:21
13:22
13:23
13:24
13:25
13:26
13:27
13:28
13:29
13: 30
AVERAGE
13:30
13:31
13: 32
13:33
13:34
13:35
13:36
13:37
13: 38
13: 39
13:40
13:41
13:42
13:43
13:44
13:45
AVERAGE
13:45
13:46
13:47
13:48
13:49
13:50
13:51
13:52
13:53
13:54
13:55
13:36
13i57
13i58
13«59
14s 00
520.5
519.6
513.8
539.0
534. 1
497.5
526. 1
525.9
505.7
51 1. 1
511.8
496.8
VALUES FOR
516.6
481.9
456.3
470. 7
461. 1
455. 9
434.3
458. 2
448. 6
457. 0
438. 0
422.9
425.6
442.6
465.5
441. 1
VALUES FOR
450. 6
441. 4
440.9
435.4
462.2
469.8
465.9
494.4
475.8
448.6
473. 1
546.7
550.3
533.7
529.7
525.8
86.8
88. 1
103.2
110.6
110.1
101.3
96.9
120. 1
116.3
99.3
96.6
103.5
THE PREVI
101.9
105.8
92.6
1 00 . 3
1 13.8
1 12.4
98.6
90. 0
93.2
98. 7
98. 7
94.4
91 .7
104. 9
109. 6
111.6
THE PREVI
101.1
107.0
108.6
122.6
129.5
1 30 . 3
117.8
107.7
113.5
117.6
109.5
110.8
116. 1
117.7
124.0
125.9
14.4
15.0
13.2
10.8
10.8
12. 1
12.3
10.1
9.0
10.2
10.6
9.9
OUS 15 MINUTES
11.7
9.2
9.3
11.3
11.2
9.9
10.1
12.0
13.3
13.0
11.7
11.9
13. 7
13.4
12.5
9.2
OLJS 15 MINUTES
11.5
8.8
10. 9
11.9
12.9
12.2
11.7
14. 1
14.3
13. 1
15.6
20.8
21.2
20.3
23.0
30.4
06-03-1987
AVERAGE VALUES FDR THE PREVIOUS 15 MINUTES
14:00 486.2 117.2 16.1
B-24
-------
Cgcjen Martin Syslems - HCi Monitoring 06-03--1937
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodenm
TINE Rpjnwet ppmdry ppmdry
AVERAGE VALUES FDR THE LAST HOUR: 60 MINUTES OF VALID DATA
14s00 496.1 111.3 13.6
14:01 574.1 120.4 39.8
14:02 541.3 131.9 39.1
14:03 539.4 158.5 37.4
B-25
-------
Ggtien Martin Systems - HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodenm
TIME ppmwet oomdrv DBmdrv
14: 12
14: 13
14: 14
14: 15
14:16
14: 17
14: 18
14: 19
14:20
14:21
14:22
14:23
14:24
14:25
14:26
14:27
14:28
14:29
14:30
14:31
14: 32
14:33
14:34
14: 35
14:36
14:37
14:38
14:39
14:40
14: 41
14:42
14:43
14: 44
14:45
14:46
14:47
14: 48
14:49
14:50
59.4 93.4 C=\.t> &
60.4 67.6 ~1'2 i
62.4 52.7 1 - \ n^J
59.8 40.8 -T7.5
53.0 30.8 30.2
54.4 23.8 5^-ZL.
55.5 18.2 (43.8)
56. 1 15.6 43.2 *
56.4 13.0 143.5
59.4 10.8 43.9
55.2 8.6 43.5
54.2 7.1 l$3.jj
55.2 5.9 79.8
50.9 5.0 109.4
58.6 3.9 69.7
47.0 2.9 61.3
52. 1 2.1 68.6
51.7 1.9 70.3
49.4 1.6 70.9
5i.o 1.1 rrrr^
49.6 0.6 72.4
50.9 0.3 < 7 1.9
52.2 0.2 Vl1"^
55 . 3 .-.(ffi* 0 . 1 /*I2 . 1
44.8VY -0.3 54.6
45.9] -0.5 13.3
k 51.31 -0.8 4.7
VlS.B/ -0.9 2.7
53.5 -0.9 1.2
46.3 -1.0 0.9
123.6 -1.3 12.7
343.8 -1.4 18.3
427.1 -1.6 ,£j) 22.8
457.3 ~^Li>~/l' 29.4
49O.O ^27^ \ 27. 1
500.4 -2.4 \ 21.4
512.4 r2-4J 16-2
511.3 ^ZT5 15.3
523.1 -2.6 16.5
14:51 531.4 -2.8 15.0
14:52
14:53
534. 1 -2.9 14.9
531.8 -2.9 14.2
14:54 538. 1 -2.9 14.2
14:55 537.1 0.3 13.3
14:56 540.7 8.7 11.8
14:57 541.1 17.7 13.5
14s 58 543.2 25.0 14.7
14:59
15:00
545.0 30.4 12.3
550.4 35.2 10.4
06-03-1997
«*f/r'
j
AVERAGE VALUES FOR THE LAST HOUR: 49 MINUTES OF VALID DATA
15:00 222.0 10.0 32.5
15:01
552.7
40.
12. 1
B-26
-------
Ogden Martin Systems - HC1
TIME
15:02
15:03
15:04
15:05
15:06
15:07
15:08
15:09
15:10
15: 11
15:12
15: 13
15: 14
15: 15
CHAN 1
TECO
f'
/
I
/
438.9
171. 9
125.6
102. 2
96.0
90 . 0
86.0
86.3
77.5
CHAN 3
LSI
ppindry
43.8
46.4
48. 4
50. 1
51.4
52. 1
51.8
50 . 3
56.3
/^oTT\
1 58.0 \
\57.6 1
V5B. 1 I
158.8 /
Moni tor ing
CHAN 4
Bodena
ppmdry
14.4
13.2
12.7
14.5
17. 1
16.4
12. 2
11.0
14.9
15.7
12.8
13.0
17. 1
18.0
06-05-1987
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
15: 15
305. 0
14. 4
B-27
-------
SUMMARY OF HC1 MONITORING DATA
RUN: 3A
SOURCE: Dgden Martin Systems - Characterization Test
TEST DATE: 6/6/87
GAS VALUE
INITIAL CAL
FINAL CAL
MEAN CAL
***TECO ( I NLET ) ***
0.0
490.0
***LSI
0.0
65.0
ppm
ppm
HC1
HC1
1.5
490.6
37.
520.
6
6
19.
505.
6
6
(MIDPOINT)***
ppm
ppm
HC1
HC1
0.2
NA
6.
58.
5
1
3.
58 .
4
1
***BODEN. (OUTLET)***
0.0
65.0
ppm
ppm
HC1
HC1
-0.4
NA
-1.
70.
5
3
-1.
70.
0
3
UNCORRECTED RESULTS
HOUR
TIME
10:00 - 11:00
11:00 - 12:00
12:00 - 13:00
INLET
(wet)
447.5
520.5
468. 8
MIDPOINT
(dry)
OUTLET
(dry)
46.8
***RESULTS CORRECTED FOR CALIBRATION BIAS AND DRIFT***
HOUR
TIME
1 10:00-11:00
2 11:00 - 12:00
3 12:00 - 13:00
3-HOUR AVERAGE:
Highest 1 Min. Avg.:
Lowest 1 Min. Avg.:
INLET
(dry)
505.2
591.4
530. 3
542.3
854.8
36B.5
MIDPOINT
(dry)
163. 0
163.0
NA
NA
OUTLET
(dry)
43.6
39.8
43. 1
63. 3
26. 1
NOTE: Inlet concentrations were measured on a wet basis and
corrected to a dry basis using Method 4 results.
Moisture = 14.6 %
B-28
-------
SUMMARY OF HC1 MONITORING DATA
RUN: 3B
SOURCE: Ogden Martin Systems - Characterization Te»t
TEST DATE: 6/6/87
GAS VALUE INITIAL CAL
***TECO ( I NLET ) ***
0.0 ppm HC1
490.0 ppm HC1
***LSI (MIDPOINT)***
0.0 ppm HC1
65.0 ppm HC1
***BODEN. (OUTLET)***
0.0 ppm HC1
65.0 ppm HC1
HOUR TIME
1 14:30 - 15:30
2 15:30 - 16:30
3 16:30 - 17:30
1.5
490.6
0.2
NA
-0.4
NA
UNCORRECTED
INLET
(wet)
498. 1
527.8
453.8
FINAL CAL
37.6
520,6
6.5
58. 1
-1.5
70.3
RESULTS
MIDPOINT
(dry)
92.3
118.9
84.6
***RESULTS CORRECTED FOR CALIBRATION BIAS AND
HOUR TIME
1 14s30 - 15:30
2 15:30 - 16:30
3 16:30-17:30
3-HOUR AVERAGE:
Highest 1 Min. Avg.:
Lowest 1 Min. Avg.:
INLET
(dry)
SL+.t
600- o
SV2..6
s-sri
7*V--8
f-2o. O
MIDPOINT
(dry)
105.6
137.2
96.5
113. 1
169. 1
38. 0
MEAN CAL
19.6
505.6
3.4
58. 1
-1.0
70.3
OUTLET
(dry)
29.2
42.4
21.9
DRIFT***
OUTLET
(dry)
27.5
39.5
20.8
29.3
51. 1
7.9
NOTE: Inlet concentrations were measured on a wet basis and
corrected to a dry basis using a*. <*.S5
-------
Qgd&n Martin Sy stems - HC1
CHAN 1
TECO
CHAN 3
LSI
TIME ppmwj*t pjamdr y
07:25
07:26
07:27
07: 28
07:29
07: 30
07:31
07:32
07: 33
'07:. S 4 "~~
07:35
07:36
? 07:37
07: 38
07: 39
07: 40
07 : 4 1
07: 42
07: 43
07: 44
07:45
07: 46
07: 47
07: 48
07: 49
07: 50
07:51
07:52
07: 53
07: 54
07:55
07:56
07:57
07 : 58
07:59
08: 00
AVERAGE
08:00
08:01
08:02
08 : 03
08:04
08:05
08:06
08:07
08:08
08:09
08: 10
08: 11
08: 12
08: 13
08: 14
4. 1
3. 6
3.9
12.7
4.8
-0. 3
17. 4
-0. 1
— — Z^4
6. 9".
0.5^
0 . 1 I
">) 1 ' 7 )
5-9
XrO-sJ
6.1
49.4
238. 1
337. 3
382. 6
413. 1
424. 1
432.5
447. 3
441 . 3
452. 9
460. 0
471. 1
469.8
474. 1
476. 7
478. 7
483.8
480.5
485.5
485.5
0 . 7
0.4
0. 3
0 . 3
0 . 2
0 . 3
0. 2
O^JS-1
, V.2 \
•^ 0 . 2
0.2
V0-_f_>
0. 1
0 . 2
0. 1
0. 1
0. 1
0 . 0
0. 1
0. 1
0. 1
0. 1
0. 1
0. 1
0. 1
0 . 2
0.5
2.8
4. 7
5.7
6. 4
4. 7
2.5
1 . 2
0. 6
0.5
Monitoring 06-06-1987
CHAN 4
Bodena
__pp._mdr_y.
66.5
64.6
51.2
7. 4
1 . 0
-0. 3
-1.3
-0. 5
-0. 6
-1.3
-1 . 5
-1. 2
-0.9
-0. 5
-0. 8
-1.7
1 0 . O
31.9 s(J)
-0.6 .X"
~^^~^^ y*"
<^£"~i* rt^Pf
35.1 s /- ^iL,
,-<4"7"3J i/ ^
44. 6 *^
44.8 I
\4^4. -s/
38. 9
-0.5
H ~T
1 ^
1 . -1.
-0. 6
-0. 9
-0. 6
-0. 0
28. 8
50.5
VALUES FOR THE LAST HOUR: 36 MINUTES OF VALID DATA
235.0 1.0 15.2
/~492.6
489. 0
\ 491.5
\ 499. 1J
488. 1
517.4
473.9
481.6
491.6
480.8
514.5
505.0
519.8
525.5
1.5
5 . 0
7. 1
8.3
8.3
9.2
9. 1
9.2
9.5
9.4
9.4
9. 1
9.2
9. 1
55.4
64.3
72.6
75.3
69.6
73. 1
76.3
80.6
84.4
86. 6
93.0
95.8
101.2
104.7
B-30
-------
Ogdsn Martin Systems - HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodens
TIME ppmwet DDmdrv oomdrv
08: 15 556. 4
9.1 109.2
06-06-1987
AVERAGE VALUES FDR THE PREVIOUS 15 MINUTES
08!15 501.1 8.2 82.8
08:
08:
OS:
08:
08:
08:
08:
08:
08:
08:
08:
16
17
1
1
2
2
8
9
0
1
22
2
2
2
2
3
4
5
6
532.
553.
571 .
545.
556.
562.
560.
555.
536.
547.
540.
9
5
9
9
7
T;
7
5
1
7
1
1
1
1
1
1
1
J.'1
2
2
j.'
9.
0.
1 .
2.
5.
7.
9.
1 .
4.
7.
9.
4
1
4
9
1
6
6
9
5
5
6
1
09.
109.
1
1
1
1
1
1
1
1
1
09.
09.
09.
09.
09.
09.
09.
09-
09.
9
9
9
9
9
9
9
9
9
9
9
B-31
-------
>^
$
/iO: 12 \
/ 10: 13
10:14
10: 15
10:16
10:17
10:18
10: 19
10:20
1 0:21
10:22 '
10: 23
10: 24
10:25
10:26
10:27
10:28
10:29
10: 30
10:31
10: 32
10: 33
10: 34
10: 35
1 0 : 36
1 0 : 3 7
10:38
10:39
10:40
10:41 /
10:42 /
10: 43
10: 44
10: 45 /
ill- I 1 r 1 t:> ',
CHAN 1
TECD
5 i I. . 6
537 . Ifi
535 . 5
506.9
556.8
558.6
563. 1
cr srcr o
586.6
57 1 . 0
549.5
523.8
, 496.5
475.2
466.5
476. 9
480. 2
480. 6
483. 3
476. 2
493. 8
512. 0
489. 2
493. 8
524.6
553. 7
560. 7
539. 3
496. 8
502.3
508. B
564.7
562. 0
508. 5
;• \ £•' n i '--• ' ~ n i , .1
GMnU 3
L.GI
_ppmdr_y
EO. 8
81 . 3
81.3
77.4
66. 1
55.4
52.5
59.5
65.7
67.9
66.8
64.0
64. 4
69.3
74. 7
74. 6
70. 3
65.4
60. 9
59. 7
57.8
53. 9
50. 4
47. 7
46. 6
47. 3
46. 8
45. 2
44.0
44. 1
45.3
47. 1
49. 4
51.2
r i u > i j. L. u r i i i i.j
CHAN 4
Bod ens
15 Q/n d r •£
109. V
109.9
84.2
45.0
49.3
71.3
94. B
102. 1
85.2
62. 9
59.8
69. 6
75. 6
67. 7
56.9
48. 8
47. 4
52.3
50. 1
44. 7
40. 6
37.2
36.8
39. 3
38. 3
35. 1
33. 9
35 . 0
39- 9
44. 4
47. 5
50. 1
43.9
39. 8
06-06--1987
B-32
-------
Hgdm'i Martin By
TJME
09 : 1 8
09: 19
09:20
09:21
09:22
09:23
09:24
09:25
09:26
09:27
09: 28
09:29
09:30
AVERAGE
09:30
09: 31
09:32
09:33
09: 34
09:35
09: 36
09:37
09:38
09: 39
09: 40
09:41
09: 42
09: 43
09: 44
09:45
CHAN 1
TECO
jspmwet
484.4
508 . 0
538.6
506.7
494.5
479.7
477. 2
500. 1
489. 6
461 . 3
481 . 4
485. 4
469. 6
VALUES
490.5
472. 8
496.5
516. 1
549. 2
539. 3
537.2
500. 7
488. 0
499. 6
543.4
523. 8
498.3
508.7
519.9
528.9
AVERAGE VALUES
09:45
09:46
09: 47
09 : 48
09:49
09:50
09 : 5 1
09:52
09:53
09i54
09s 35
09:56
09:57
09:58
09 s 59
10s 00
514.8
529.4
486.9
472. 1
539.5
551. 4
507.6
482.8
502 . 3
527.9
507.7
516.6
561.5
627.4
607.4
599.2
'ftt«mm - HC1 Monitoring 06-06-1907
CHAN 3
LSI
ppmdry
52.3
50.4
51 .8
54.6
55.4
53.3
51.3
51 .2
52. 0
52.4
51.9
50.3
49.5
FOR THE LAST
52.0
50. 6
49. 4
47.3
44.6
44. 2
47.0
49. 0
49.5
48. 5
47.3
47. 7
49.3
49.2
47. 0
45.3
FOR THE PREV
47.7
44. 4
32.5
31. 1
55.9
55. 9
54.9
58.5
57.7
40.2
67.6
66.9
57. 1
37.3
24.2
20. 1
CHAN 4
Bodens
jjpmdry
55.5
62.0
58.7
50.7
46. 7
48.8
52.7
57. 1
54. 4
51. 1
53.6
56. 4
52.6
HOUR: 13 MINUTES OF VALID DATA
53.9
46. 8
40. 9
41. 8
49. 1
50. 7
51.3
47. 6
45. 9
49.2
52.9
48.5
43.7
41.0
45.4
51 .5
IOLIS 15 MINUTES
47. 1
60.7
62. 3
56. 0
59. 1
67.5
63. 1
54.9
58. 4
60. 7
51.7
47.5
51.3
57.9
55. 0
48.0
B-33
-------
Ogdcn Martin Systems •- HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodenn
TI ME ppmwet ppmdry pprndry.
06-06-1987
AVERAGE
10s 00
10:01
10:02
10:03
10:04
10:05
10:06
10:07
1 0 : OS
10:09
10: 10
10:11
10: 12
10: 13
10:14
10: 15
AVERAGE
10:15
10: 16
10: 17
10: 18
10: 19
10: 20
10:21
10: 22
10: 23
10:24
10:25
10:26
10:27
10:28
10:29
10:30
AVERAGE
10:30
AVERAGE
10s30
10i31
10:32
10:33
10:34
10:35
10:36
10:37
10:38
10:39
VALUES FDR
534.7
581 .9
552.0
557. 1
563. 9
530. 3
533.0
535.9
531 . 3
491 .4
457.3
436.5
439.5
398. 2
387.6
394.4
VALUES FOR
492.7
398. 1
393. 4
369. 9
331 . 7
353. 2
345. 1
370. 4
439. 8
463.8
446. 6
447. 7
436. 5
472. 3
498.7
456. 7
VALUES FOR
414.9
VALUES FDR
489.3
453.6
461.0
459. 1
478.2
458.5
477.6
461.9
425.8
444.3
^^..1.1.1- ,—-. .f
THE PREV
46.9
25.2
46.0
40. 6
37.2
34. 8
32.4
29.8
19.4
13.2
11.9
9.5
9.6
9. 6
9. 0
8. 5
THE PREV
22.4
8.2
7. 6
7. 1
6. 5
5. 7
4. 9
4. 8
194. 7
166. 0
123. 3
106. 6
92. 4
83.8
73.6
64.8
THE PREV
63.3
THE LAST
45. 1
60 . 7
64.3
62. 1
57.5
53.0
50.2
74.6
100.4
101.3
IOUS 13 MINUTES
56.9
42. 1
40 . 3
43. 1
42.7
41.5
41 .8
40. 4
42. 4
43. 6
44. 8
43. 9
44. 7
41 . 7
46. 0
56. 0
IOUS 15 MINUTES
43. 7
54. 0
54. 6
51.3
44. 7
46. 0
49. 9
54.8
59. 9
54. 1
50. 8
55.9
58. 9
63 . 6
64.7
52 . 2
IOUS 15 MINUTES
54.3
HOUR: 60 MINUTES OF VALID DATA
50.5
44.7
43.8
47.5
61. 1
60.5
65.3
60. 4
50.9
52.7
B-34
-------
Ogd
en Martin S^
CHAN 1
TIME
10:
10:
10:
10:
10:
10:
40
41
42
43
44
45
AVERAGE
10:
10:
10:
10:
10:
10:
10:
45
46
47
48
49
50
51
10:52
10:
10:
10:
10:
10:
10:
10-
11
53
54
55
56
57
53
59
0 0
AVERAGE
1 1
1 1
11
1 1
11
11
11
11
11
11
11
11
11
11
11
11
00
01
02
03
04
05
06
07
08
09
10
11
12
13
14
15
AVERAGE
111
111
15
16
11: 17
11: 18
11:
11:
11:
11:
19
20
21
22
TECO
ppmwet
424.0
438.3
430.9
429. 4
421 .2
413.6
VALUES
445. 2
411.2
437. 4
419. 6
422. 5
430. 9
406. 8
428. 3
425. 6
421 . 4
438. 3
460. 3
460. 7
443. 9
461 . 0
486. 3
VALUES
437. 0
511.5
510.6
503. 5
501. 6
511.7
506. 4
513.9
540. 6
559. 4
571.2
581. 1
558.3
588. 0
595.2
583.2
VALUES
542.4
618.8
656.8
706.7
743.6
718.2
719.4
672.9
stems - HC1 Monitori
CHAN 3 CHAN 4
LSI
ppmdry
98.2
87.2
76.2
67. 0
59. 1
52. 5
FDR THE PREV
70. 9
47.4
44. 0
41 .6
38.9
36. 7
34. 6
32. 6
30. 7
28.8
27. 4
26. 1
24.9
23. 7
22. 9
22. 4
FOR THE PREV
32. 2
21.9
21.9
21 .7
21. 4
20.2
19. 9
19.5
14. 2
9. 7
6.2
3.9
2.0
0.7
0.2
-0.5
FOR THE PREV
12.2
-1.3
-1.4
-2. 1
-1.7
-2.5
-3.2
-3.6
Bodens
ppmdr y
51.9
47. 2
40. 0
41.3
44. 0
44. 5
IOUS 15
50 . 4
42.8
38. 5
34.7
36.5
39. 7
39. 8
40. 4
38. 8
33. 1
33. 8
36. 7
39. 5
41 . 8
42. 9
45. 2
IOUS 15
38. 9
46. 7
46. 8
45. 6
44. 2
42. 3
42. 0
47.5
51.0
50.6
45. 8
44.2
43.5
45.3
47. 2
44. 1
IQUS 15
45.8
42.2
41.2
47.0
53.2
47.7
41.5
37.8
ng <
MINUTES
MINUTES
MINUTES
06-06-1987
B-35
-------
Ogden Martin Systems - HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodens
06-06-1987
TIME
111
11:
11:
11:
Hi
11:
11:
11:
23
24
25
26
27
28
29
30
AVERAGE
1 1
30
AVERAGE
11
1 1
11
11
1 1
11
11
1 1
11
11
1 1
1 1
11
1 1
11
1 1
30
31
32
33
34
35
36
37
33
39
40
41
42
43
44
45
AVERAGE
11
11
11
11
11
11:
11
11:
11:
111
11:
11:
11:
111
11:
12:
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
00
AVERAGE
12:
12:
00
01
ppmwet f
659. 1
625.5
605.4
551. 1
564.2
564.9
520.6
515.6
VALUES FOR
629.5
VALUES FOR
513.5
516.0
=^ i~t~7 Q
_J.^. / . D
543. 2
518. 9
514. 4
484. 8
455. 1
455.8
437. 6
410.3
433. 1
408. 0
435. 9
450. 3
422. 6
VALUES FOR
467. 6
452.0
451.7
458.9
453.3
422.7
447.3
459.9
436.6
451.5
425.9
433.2
442.7
425. 1
425.9
451.6
VALUES FOR
442.6
453.5
jpmdr
-4.
-4.
-4.
-5.
-5.
-5.
-5.
—5 .
THE
— o>.
THE
27.
-5.
-6.
D »
-6.
-6.
-6.
-6.
-6.
-7.
~ O .
-7.
-7.
-7.
-7.
-7.
THE
-6.
-7.
-7-
D
-8.
-8.
-8.
-8.
-8.
-B.
-B.
-B.
-B.
-8.
-B.
-B.
THE
-B.
-8.
y
0
4
7
0
2
T
4
6
PREV
7
LAST
9
8
0
0
2
4
7
6
7
0
9
2
~?
4
6
5
PREV
B
6
8
0
1
2
3
4
5
4
5
7
8
8
B
5
jspmd
40
46
49
44
40
38
39
41
IOUS
43
HOUR
44
42
42
40
35
34
35
36
38
36
-7-7.
35
38
43
44
40
IOUS
38
39
38
40
40
37
40
43
44
47
44
44
45
44
45
46
PREVIOUS
4
9
42
43
ry
.6
.2
. 1
.6
.7
.2
. 0
.3
15 MINUTES
. 4
: 60 MINUTES OF VALID DATA
.6
. 0
_ 2
. 9
i-^
. 7
.9
.9
. 5
. 5
.9
. 2
Tj
. 5
-T
. 4
15 MINUTES
. 5
. 9
.9
-7
. 1
.4
.9
.5
.5
.4
.6
.4
.7
.8
.3
. 3
15 MINUTES
.9
.7
B-36
-------
Ggden Martin Systems -
TIME
12:
12:
02
03
12:04
12:05
12:
12:
06
07
12:08
12:
12.
09
10
12: 11
12
12
12
12
12
13
14
15
AVERAGE
1 2
12
1 '^
12
12
12
12
12
12
12
12
12
12
12
12
12
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
AVERAGE
12
30
AVERAGE
12:30
12:31
12:32
12:33
12:
34
12:35
12:36
12:37
12:
12:
12:
12:
12:
12:
12:
38
39
40
41
42
43
44
CHAN 1
TECO
_ppj]nwet
480. 0
459-9
421.8
444.5
458. 4
407. 2
416.7
435. 1
423. 9
434.5
430. 2
465.3
454.8
539. 3
VALUES
448. 3
593. 3
537.2
516.5
521 .7
506. 3
507. 2
555. 5
579. 9
552. 4
531 . 5
536.0
502. 2
449. 7
431 . 2
451 .3
VALUES
518. 1
VALUES
469. 2
480.0
460.8
442.7
456.8
432.5
427. 1
436.0
439.5
416.2
430.2
441.0
460. 1
455.6
431.5
CHAN
LSI
HC1 Monit
3
CHAN
or ing 06-06-1987
4
Bodenc
ppmdrv
-8.
-6.
0.
0.
1.
2.
-T
7.
21 .
29.
45.
62.
77.
96.
FOR THE
21.
109.
1 IB.
129-
124.
125.
149.
163.
160.
155.
149.
143.
156.
175.
179.
165.
FOR THE
147.
FOR THE
38.
159.
159.
158.
147.
133.
151.
165.
155.
143.
133.
115.
120.
143.
147.
8
3
4
9
6
1
tr*
8
1
6
3
7
4
2
RREV
6
2
4
1
6
7
6
6
CT
6
1
1
4
2
i
8
ppmdrv
45
44
42
43
44
42
42
43
44
48
51
54
54
59
IQUS
46
53
42
36
43
50
54
57
58
46
43
61
68
55
52
58
PREVIOUS
0
LAST
4
2
9
7
6
2
4
5
0
9
0
8
3
8
5
52
HOUR
45
61
52
43
47
51
48
45
38
28
32
44
52
47
35
.
•
m
m
.
•
B
•
B
m
m
B
•
-
1
•
B
m
m
f
m
.
a
«
m
m
m
B
m
•
1
•
:
•
m
m
m
m
m
m
m
•
m
m
m
m
m
9
3
3
0
3
3
4
4
0
0
9
0
6
7
5 MINUTES
9
9
2
9
0
0
1
8
o
8
8
^'
4
2
5
4
5 MINUTES
1
60 MINUTES OF VALID DATA
1
0
3
1
7
4
0
0
6
8
4
8
2
1
1
B-37
-------
Ogden Martin Systems - HC1
CHAN 1 CHAN 3
TECO LSI
TIME ppmwet ppmdry
12i45
AVERAGE
12843
12:46
12:47
12:48
12:49
12:50
12:51
12:52
12:53
12:54
12:55
12:56
12:57
12:58
12:59
13:00
AVERAGE
13:00
13:01
13:02
13:03
13:04
13:05
13:06
13:07
13:08
1 3 : 09
13:10
13: 11
13: 12
13: 13
13: 14
13: 15
AVERAGE
13: 15
13: 16
13: 17
13s 18
13s 19
13s20
13821
13i22
13s23
13824
13:25
13s26
13:27
404. 1
VALUES FOR
440.9
394.9
432.0
476.6
458.4
431.4
448.8
483.5
466.8
506.5
489.4
455. 6
452.7
478.5
531 . 1
511 .4
VALUES FOR
467.8
539. 4
502. 8
480. 1
535. 0
539. 1
568.3
519. 6
496. 0
485.2
506.8
556. 8
565.5
529.5
507.9
513.9
VALUES FOR
523. 1
514.7
519.7
542.9
552.6
504.8
487.9
497-9
496.4
504 . 2
500.3
493.7
481.0
137.2
Moni toring
CHAN 4
Bodens
ppmdry
27.6
THE PREVIOUS 15 MINUTES
144.8
121.9
112.2
117-5
130. 0
139. 1
133.5
118.2
115. 0
131.2
140.9
146.2
139.9
127.4
132. 1
144.5
THE PREV
1 30 . 0
151. 4
147.6
142.4
145.7
142.5
147. 2
161.3
162.7
151 . 4
1 39 . 9
146.4
158.2^— "
157.5
141.5
129.9
THE PREV
148.4
137.9
123.2
113.6
128. 1
129. 1
118. 1
98.7
85.7
83. 1
75.7
69.0
77. 1
43.7
31.5
42.6
52.5
50.2
41.9
42.4
45. 6
47.5
49.8
44. 6
34.2
32. 7
37. 6
42. 0
38. 7
IOUS 15 MINUTES
42.3 ^-~
36. B
36. 0
35.9
41 .8
45. 2
47.5
40. 6
35. 1
35.9
42.8 ,.*
— 4£L~ 8 ^ &&£*
"^32.6 /UAN
27.5 f^*-
30 . 7
38.8
IOUS 15 MINUTES
37.9
45.2
44.3
42.7
36.8
31.0
28.5
29.9
31.5
32. 1
29.7
28.4
25.4
06-06-1987
3A
B-38
-------
Cgdsr, Martin Systems - HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodens
TIME ppcnwet P_PJT!dr_y J>fiflldJiy.
06-06-1987
13:28
13:29
13:30
AVERAGE
1 3 : 30
AVERAGE
13
13
13
13
13
13
13
13
13
13
13
13
13
1 3
13
13
30
31
"^T*
33
34
35
36
37
38
39
40
41
42
43
44
45
AVERAGE
13
13
13
13
13
1 3
13
13
13
13
13
13
45
46
47
48
49
50
51
52
53
54
55
56
13:57
13:5B
13:59
14:00
AVERAGE
14iOO
14:01
14:02
14:03
14:04
14:03
14:06
459.0
482.0
485. 5
VALUES FOR
501 . 5
VALUES FOR
483.3
453.0
452. 4
444. 5
447.8
442. 5
451 . 4
440. 8
463.3
497. 4
476. 2
499. 5
481 . 9
488. 6
466. 6
509. 6
VALUES FOR
467. 7
487. 0
463.9
435. 9
422. 8
397.3
422. 7
427.4
421. 7
417. 7
377.8
415.6
499-8
480 . 7
445.9
477.2
VALUES FOR
439.6
460.9
476.5
564.0
524.6
444. 1
405. 4
85.
80.
70.
THE
98.
THE
130.
62.
58.
57.
58.
57.
58.
60.
62.
61.
61.
67.
81.
93.
98.
104.
THE
69.
124.
148.
154.
137.
105.
92.
72.
60.
56.
53.
48.
45.
51.
56.
55.
THE
84.
64.
73.
76.
69.
62.
59.
"T
7
7
PREV
4
LAST
4
8
6
2
0
6
T,
6
cr
4
7
6
9
9
8
7
PREV
7
7
1
5
8
7
4
O
4
8
5
4
6
6
1
1
PREV
2
8
6
5
0
1
9
23
26
27
IOUS
T;O
HOUR
39
24
22
22
26
29
28
T1 cr
26
27
27
26
22
21
23
28
IOUS
25
27
23
21
24
25
xl 0*
20
20
21
19
19
IB
16
15
16
IOUS
20
16
15
17
16
14
14
.8
.2
. 4
15 MINUTES
.2
s 60 MINUTES OF VALID DATA
. 0
. 6
.5
. 8
. 8
. 1
. 1
.8
.9
.9
.8
. 4
T
. 0
. 6
. 6
15 MINUTES
. 6
_ 2
. 6
.5
. 5
. 6
. 7
.7
.5
. 6
.8
. 1
.8
. 0
. 1
. 2
15 MINUTES
.9
.0
.8
-0
.0
.6
.2
B-39
-------
Ogden Martin Systems - HC1 Monitoring 06-06-1987
CHAN 1 CHAN 3 CHAN 4
TIME
14:07
14:08
14:09
14:10
14: 11
14: 12
14: 13
14:14
14: 15
AVERAGE
14: 15
14: 16
14:17
14: 18
14:19
14:20
14:21
14:22
14:23
14:24
14:25
14:26
14:27
14:28
14: 29
1 4 : 30
AVERAGE
14:30
AVERAGE
14:30
14:31
14:32
14:33
14:34
14:35
14:36
14:37
14:38
14s39
14t40
14941
14i42
14i43
14i44
14:45
TECO
DDmwet
406. 4
431.7
503.7
494. 4
516.5
598.7
574.5
664.3
571.8
VALUES
509. 2
459.0
426.8
432. 0
478. 1
468. 8
444. 4
416.7
419. 2
381 . 1
362. 1
346. 7
327. 6
369.6
405. 6
364. 0
VALUES
406.8
VALUES
455.8
383.4
418. 1
424.6
415.8
471.8
475.0
452.7
484.8
512.6
457.5
452.9
490.0
591.0
551.4
483.7
LSI
ppmdry
67.7
84.7
82.7
80. 0
86. 0
93. 3
91.4
95. 1
112.4
FOR THE PREV
80. 0
110. 0
104.0
90. 9
80. 6
79. 8
77.6
70.7
65.9
67.3
65.4
60.9
54. 8
50. 3
47. 1
43. 3
FOR THE PREV
71.2
FOR THE LAST
76.3
40.3
37.9
36.0
35.4
35.9
37.4
41. 1
49.3
60. 0
66.6
71-9
76.2
80.7
82. 1
82.4
Bodena
ppmdrv
14.0
15.0
18.5
18.2
16.2
17.7
21.7
21.4
16.4
IOUS 15 MINUTES
16. 8
12.7
12.0
14. 4
13.8
12.2
11.5
11.7
11.5
9. 9
9. 1
1 0 . 0
9.0
9.2
9.5
8. 6
IOUS 15 MINUTES
11.0
HOUR: 60 MINUTES OF VALID DATA
18.6
7.7
8.3
8.0
8.0
8.9
10.1
12.3
15. 1
16.6
16.4
18.5
19.5
18.9
14.3
11.1
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
14s45 471.0 55.5 12.9
B-40
-------
Ogdsr, Martin Systems - HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TIME
14:46
14:47
14:48
14:49
14:50
14:51
14:52
14:53
14:54
14:55
14:56
14:57
14:58
14:59
15:00
AVERAGE.
15:00
15:01
15:02
15:03
15:04
15:05
15:06
15: 07
15:08
15:09
15:10
15: 11
15: 12
15: 13
15: 14
15: 15
AVERAGE
15: 15
15: 16
15: 17
15: 18
15: 19
15:20
15:21
15:22
15t23
15«24
15:25
13i26
15:27
15:28
15:29
15s30
TECO L
442.4
462. 2
444.0
452.8
454.3
453.3
471.9
532.9
512.9
476.3
485.2
471 .3
471 . 4
494. 4
440. 4
VALUES FOR
471-0
443. 1
497. 4
459.2
442. 1
478. 2
464.8
511.2
551 . 5
549. 2
590.6
563 . 3
563.4
584. 3
539.2
543.7
VALUES FOR
518.7
578.4
544.9
557.4
557.6
513.5
528.7
538.7
507.6
532.0
609. 1
555. 8
486.4
475.8
487. 1
503.8
.51 Bodena
Lp_adry._..___ppLmdr_y.
83.8 11.5
81. 1
80.5
83.9
84.7
79. 1
76.8
76.5
77. 1
81.0
85.3
85.0
90 . 2
95.7
93. 5
THE PREV
83.6
93. 7
95.9
96. 1
96.3
94. 1
88.7
97.0
105. 8
104. 0
104. 4
116.9
124.2
120.8
122.4
132.5
14.6
16.2
17.0
17.4
19.2
21 . 1
22.8
20.8
19.8
23. l
24 2
25. 4
27.0
27.8
IOUS 15 MINUTES
20. 5
31. 1
33.8
29. 1
29. 2
36.0
37.6
37. 8
38.5
43. 1
47.5
45. 1
51.7
55.0
47.2
45.8
THE PREVIOUS 15 MINUTES
106.2
128.8
121. 1
131.0
134.6
129.3
125.8
124.2
126.4
124.6
115.9
115.0
127.6
124.0
113.5
113.2
40.6
49.6
49. 1
47.8
42.7
40.5
44. 2
42.4
39.3
42.4
46.2
37.5
32.2
38.2
44.5
44.9
06-06-1987
B-41
-------
Ogden Martin Systems - HCi
CHAN 1 CHAN 3
TIME
AVERAGE
15:30
AVERAGE
15:30
15:31
15:32
15:33
15:34
15:35
15: 36
15:37
15:38
15:39
15:40
15: 41
15: 42
15:43
15:44
15: 45
AVERAGE
15:45
15:46
15:47
15:43
15:49
15:50
15:51
15:52
15:53
15:54
15:55
15:56
15:57
15:58
15:59
16:00
AVERAGE
16:00
16:01
16:02
16i03
16:04
16:05
16:06
16:07
16:08
16:09
TECO
ppmwet
VALUES
531 . 8
VALUES
498. 1
526.3
456.4
445.2
469.0
486.9
484.3
530.7
474.2
447.4
475. 6
466.8
451.0
474.7
495. 4
490. 6
VALUES
478. 3
497. 2
503.7
487. 1
458. 4
430. 5
439.4
435.0
459. 4
474.3
516.7
555.0
555.8
597.2
574. 4
563.4
VALUES
503.2
599.6
600.8
641.9
636.3
608.0
650.5
619.6
618.6
622.2
LSI
ppmdry
FOR THE PREV
123.7
FOR THE LAST
92.3
120.6
1 17.4
115.3
113.4
109.3
111.3
112.4
109. 9
115.2
115.9
110.7
108.4
114.0
1 14.2
109.8
FOR THE PREV
113.2
1 1 0 . 0
1 14. 7
116.6
112.2
109.6
108.9
105.3
101.5
100. 1
100. 4
101.5
104.0
111.2
118.0
119.4
FOR THE PREV
108.9
126.8
129. 1
128.0
130.0
137.6
144. 1
136.8
131.7
145.4
Monitoring 06-06-1987
CHAN 4
Baden s
ppmdry
IOUS 15 MINUTES
42.8
HOUR: 60 MINUTES OF VALID DATA
29.2
42.0
38. B
40.4
45. 7
46.8
47. 1
50. 9
47.4
45.6
47. 0
47. 4
46.2
44. 9
44. 9
44.6
IOUS 15 MINUTES
45. 3
44. 2
39. 4
36. 7
36. 8
36. 1
38.5
38. 8
4O. 9
39. 6
39. 7
42. 1
42.0
43. 9
46. 6
47.4
IOUS 15 MINUTES
40.8
46.3
46.4
50. 1
50.2
46. 6
44.3
49.3
51.7
47.4
B-42
-------
Ogden Martin Systems - HC1 Monitoring
06-06-1997
CHAN 1 CHAN
TECO LSI
TIME
16: 10
16: 11
16: 12
16: 13
16: 14
16: 15
AVERAGE
16: 15
16: 16
16: 17
16: 18
16: 19
16:20
16:21
16:22
16: 23
16:24
16:25
16:26
16: 27
16: 2B
16: 29
16:30
AVERAGE
16:30
AVERAGE
16:30
16:31
16:32
16:33
16:34
16:35
16:36
16:37
16:38
16:39
16:40
16:41
16:42
16:43
16:44
16«43
AVERAGE
16:45
16:46
16:47
16:48
3
ppmwet pomdrv
608.2
622.6
590. 4
557 . 3
545.3
549.3
VALUES FOR
604.7
524. 4
561 . 9
552. 3
522. 1
517. 4
499. 6
513. 2
576.3
553. 4
520. 6
501. 1
524. 2
547.9
501 .3
462. 4
VALUES FOR
525.2
VALUES FOR
527. B
481 .9
493. 1
480. 5
496.5
501. 4
495.2
514.7
518.5
588.0
580.9
541.0
544.0
521.4
509. 2
581.2
VALUES FOR
523.2
481.4
478.0
509.2
145.
137.
130.
138.
141.
133.
THE
135.
125.
123.
124.
123.
123.
1 16.
113.
1 19.
1 IB.
1 14.
110.
1 16.
1 17.
111.
107.
THE
1 17.
THE
1 18.
108.
110.
106.
106.
107.
107.
106.
104.
104.
103.
114.
117.
112.
110.
115.
THE
109.
111.
107.
104.
7
5
8
7
1
1
PREV
8
4
9
-^
4
1
2
8
1
B
3
-T
1
9
7
8
PREV
7
LAST
9
9
1
9
3
2
1
8
6
2
6
1
4
0
7
7
CHAN 4
Bodona
ppmdrv
44
44
43
39
36
36
IOUS
45
37
38
36
34
37
43
46
39
-7-T
37
42
40
36
36
37
IOUS
38
HOUR
42
38
37
37
39
35
34
32
31
35
33
30
32
35
34
31
PREVIOUS
0
7
8
3
34
27
30
27
.7
.7
. 1
.0
.5
.6
15 MINUTES
. 1
. 0
.7
T,
.4
. 7
. O
-T
- 1
. O
~T
. 1
. 0
.9
Tf
. 7
15 MINUTES
. 4
: 60 MINUTES OF VALID DATA
.4
.5
.6
T*
. 0
.5
. 0
. 1
. 5
.5
.2
.6
.2
m «—'
.6
.8
15 MINUTES
.6
.2
.2
.9
B-43
-------
Ogden Martin Syste.rs - HC1
CHAN 1 CHAN 3
TLME
16:49
16:50
16:51
16:52
16:53
16:54
16:55
16:56
16:57
16:58
16:59
17:00
TECO
ppmwet
469.6
466.2
480. 3
459.3
462.7
430. 8
451.4
444. 1
441 . 4
435.5
452.9
455. 1
LSI
P_pmdry
104.7
104.4
95. 1
84.6
89.5
90. 8
83.3
77.7
80.6
81.4
76.3
75.9
Monitoring
CHAN 4
Bodena
ppmdrv
20.2
18.5
22. 6
20.9
17.8
17.0
19.4
17.5
16.8
17. 7
19.6
19.3
06-06-1937
AVERAGE VALUES FDR
17:00 461.2
THE PREVIOUS 15 MINUTES
91.2 20.8
17:
17:
17:
17:
17:
17:
17:
17:
17:
17:
17:
17:
17:
17:
17:
01
02
03
04
05
06
07
08
09
10
11
12
13
14
15
406.
412.
41 1.
395.
439.
423.
427.
453.
417.
432.
414.
427.
405.
428.
412.
5
4
2
o
6
4
6
pr
0
9
0
5
9
1
2
77-
78.
74.
70.
72.
72.
70.
70.
69.
71 .
75.
70.
69.
70.
69.
9
5
9
~T
o
1
9
-T
1
<->
0
8
0
1
9
16.
1
1
1
1
1
1
1
1
1
1
1
1
1
1
6.
8.
7.
8.
7.
8.
8.
6.
5.
4.
5.
4.
5.
4.
0
5
4
8
4
o
.£_
o
9
6
1
4
0
6
5
TI
AVERAGE VALUES FOR
17:15 420.5
THE PREVIOUS 15 MINUTES
72.1 16.4
17: 16
17: 17
17: 18
17: 19
17:20
17:21
17:22
17:23
17:24
17:25
17 1 26
17:27
17t28
17:29
17:30
386. 3
375.4
412.4
425.4
421.4
391.2
405.6
412. 7
443.3
464. 8
430.2
385.6
380.3
397.8
421.7
69.4
68.6
66.7
65.4
66.2
66.5
65. 1
65.9
67.6
65.8
64. 1
66.5
67.5
64.7
61.3
13.8
15.0
17. 1
16.3
15.3
17. 1
16.4
15.8
16. 1
17.0
15.8
14. 1
15.4
17-3
16.6
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
17:30 410.3 66.1 15.9
B-44
-------
Ogdan Martin Systems - HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodsna
LIME ppmwet. ppmdry
06-06-19B7
AVERAGE VALUES FOR THE LAST HOURi 60 MINUTES OF VALID DATA
17:30 453.8 84.6 21.9
17s
17:
17:
17:
17:
17:
17:
17:
17:
17:
17:
17:
17:
17:
17:
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
404.
424.
451 .
418.
400.
431 .
433.
503.
499.
464.
350.
1 15.
84.
68.
71 .
1
1
2
4
1
-T
3
o
7
1
2
3
1
8
7
60.
59.
58.
55.
56.
56.
51.
47.
45.
47.
49.
50.
52.
55.
57.
0
1
-T
8
5
5
9
7
8
6
6
7
8
4
6
1
1
1
1
1
1
1
1
1
1
-
-
-
6.
6.
7.
5.
4.
4.
5 .
6.
4.
3 .
9.
0.
1.
1 .
1 .
2
7
0
4
0
9
9
6
5
6
7
2
-r
5
4
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
17:45 341.3 53.7 10.7
46
47
48
49
50
17:
17;
17:
17:
17:
17:51
17:52
17:53
17:54
17:55
17:56
17:57
17:58
17:59
19:00
58.2
57. 1
49. 4
47. 5
45.7
42. 6
44.6
42.6
39.0
35.7
44.6
39.3
38.9
37. 5
40.7
58. 4
57.7
58. 1
56.0
48.0
37. 3
27.4
24.3
19.5
16. 5
14. 6
12. 7
11.7
10.8
10.4
-14.
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
IBs 00
IB:
IS:
18:
IS:
IS;
18:
IB;
IS:
01
02
03
04
05
06
07
08
18:09
18: 10
18: 11
18: 12
18: 13
0.9
458. 1
12. 1
-2. 1
0. 2
26.6
48.7
59.4
64.7
68. 1
69. 1
69.2
70. 4
70.6
70.0
67.9
B-45
-------
Ogden Martin Systems - HC1 Monitoring
06-06-1937
CHAN 1 CHAN 3
TECO LSI
TIME DDmwet DD(ndr\L—
18 1
IS:
14
15
AVERAGE
IB:
18:
IB:
18:
18:
IB:
18:
18:
18:
IBs
18:
18:
18:
18:
18:
18:
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
AVERAGE
18:
30
AVERABE
18: 30
18:
18:
18:
18:
18:
18:
18:
18:
IS:
IB:
ISi
IB:
IS:
IS:
ISi
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
AVERAGE
16:
IS:
ISt
ISi
IS:
ISi
45
46
47
48
49
50
469
481
•
2
5
VALUES FOR
213
486
500
501
502
512
5O4
506
513
507
517
/"52T
\ 519
\523
-(517
534
•
m
m
m
m
.
.
B
m
m
^
m
m
m
\
5
3
2
9
4
6
4
5
1
5
6
•n
0 )
7 I
97
(\J.
VALUES FOR
511
•
•-'
VALUES FOR
277.6
464
186
121
89
68
71
65
55
58
58
58
52
43
49
44
m
,
f
m
m
.
.
•
m
m
.
.
.
•
2
1
8
~^
9
B
0
7
7
1
7
8
T;
9
3
VALUES FOR
99
49
41
45
39
45
•
.
.
.
•
•
2
9
0
7
1
5
f"6.5
/ 6.5
CHAN 4
Bodena
ppmdry
36
^ 20
^N
THE PREVIOUS
8.2
6. 6
6.8
7. 1
7.3
7.8
8.2
8.3
9. 0
13.9
21.8
28.8
34.3
38.3
41.4
43.6
49
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
7
5
5
3
T|
3
~Zt
4
4
4
z
1
1
1
0
THE PREVIOUS
18. 9
1
Oi
THE LAST HOUR
27.9 21
46.3
47.9
48. 9
51.7
52.6
^."T X,
i_l sJ • O
54.7
55.7
56.2
56.5
56.8
57. 4
58.0
58. 1
56. 1
1
1
1
1
1
1
1
1
1
o
1
0
9
(I)
0
0
9
0
0
0
9
9
9
9
THE PREVIOUS
54.0
52.9
41.6
34. 1
33.3
32.7
1
1
1
1
0
9
1
2
1
10
_ 2
15 MINUTES
T
. 1
.8
"T
.9
.4
.8
. 0
3
. 2
. 2
. 2
. 4
. 4
. 4
. 2
15 MINUTES
• 5
: 60 MINUTES OF VALID DATA
. 4
. 3
. 0
B 2
. 0
. 2
. 8
. 2
. 6
. 2
. 3
.7
.9
. 7
.5
.2
15 MINUTES
. 1
.6
. 1
. 1
.9
.8
B-46
-------
SUMMARY OF HC1 MONITORING DATA
RUN: 4
SOURCE: Ogden Martin Systems - Characterisation Test
TEST DATE: 6/8/87
GAS VALUE IN
***TECO (INLET)***
0.0 ppm HC1
490.0 ppm HC1
***LSI
0.0
65.0
(MIDPOINT)***
ppm HC1
ppm HC1
***BODEN. (OUTLET)***
0.0 ppm HC1
65. 0 ppm HC1
HOUR
1
*2
TIME
13:00 - 14:00
14:00 - 15:00
15:00 - 16:00
ITIAL CAL
491.0
0. 4
63.7
-0. 4
NA
UNCORRECTED
INLET
(wet)
496.9
511. 6
505.7
***RESULTS CORRECTED FOR CALI
HOUR
1
2
^
^
Highest
Lowest
TIME
13:00 - 14:00
14:00 - 15:00
15:00 - 16:00
-HOUR AVERAGE:
1 Mi n. Avg . :
1 Mi n . Avg . :
INLET
(dry)
548.2
565.2
558. 4
557 . 3
706.7
411.6
FINAL CAL
45.5
cr-r t c-
O -> Q . U
1.7
54.0
-0.8
76.0
RESULTS
MIDPOINT
(dry)
104.2
96.2
92.3
BRATION BIAS AND
MIDPOINT
(dry)
115.9
106.9
102.6
108.5
164.7
9-r T-
•_> . o
MEAN CAL
24. 4
513. B
1. 1
58. 9
-0.6
76.0
OUTLET
(dry)
8.6
7.5
7.8
DRIFT***
OUTLET
(dry)
7.8
6.9
7. 1
7.3
11.6
5.5
NOTE: Inlet concentrations were measured on a wet basis and
corrected to a dry basis using Method 4 results.
Moisture = 13.7 7.
B-47
-------
Ggden Martin ays
CHAN 1
TECO
TIME ppoiwet
09i29 12.8
09:30 7.3
09:31 7.5
09:32 7.5
09:33 13.8
09:34 3.5
09:35 13. 1
09:36 15.7
09:37 9.0
09:38 6.4
09:39 4.0
09:40 4.2
09:41 0.2
09:42 2.3,
09:43, £p 7-2Vw[
09: 44^gfl,^ ] 2. 1 1
09: 45 ^ ^JjF 8. 1
09: 46 3-^P I 0. 1
09:47 \ 1 . 1
09:48 /4.6
09:49 5.9'
09:50 5.)8
09:51 7.0 \
09:52 f--3.7 )
09:53 3.JJ
09:54 YTo
09:55 -1.0
09:56 11.2
09:57 140.7
09:58 260.5
09:59 316.6
10: 00 344. 3
ts?ats» - MCI Monitoring 06-09-1987
CHAN 3 CHAN
4
LSI Bodons
ppmdry _p_p_mdr
9.0 -5.
9.0 -5.
8.9 -5.
8.6 -2.
8.6 -5.
8.3 28.
8. 1 94.
7.9 23.
8.0 -0.
7.9 -0.
7.9 -0.
7.8 -0.
7.8 -1 .
7.5 -1.
7.4 -1.
7.4 -1.
7.2 - 1 .
7.1 -1.
7.0 -0.
7.0 - 1 .
7.0 - 1 .
6. 8 17.
6.8 38.
6.9 38.
6.7 39.
6.8 39.
6.6 39.
6.5 39.
6.4 39.
6.5 -6.
6.4 -2.
6.5 -1 .
AVERAGE VALUES FOR THE LAST HOUR:
10:00 37.9 7.4 12.
10:01 373.6
10:02 396.8
10:03 408.9
10:04 416.4
10:05 431.3
10:06 441.8
10i07 443.8
10:08 447.2
10! 09 452.0
lOi 10 460. 3
10s 11 458.4
lOi 12 460.8
10:13 458.8
10: 14 466.9
10:15 476.5
6.4 -1 .
6.3 - 1 .
6.2 -1.
6.3 25.
6.3 91.
6.4 28.
4.4 -1.
0.5 - 1 .
o . 3 17.
o.4\ £K -1 .
0. 4 p^ -0.
0 .3 0 .
0.4 -0.
_g-^x -o.
0.3 -0.
y
6
8
0
1
4
8
0
8
5
5
8
4
6
2
1
8
1
1 .^ •(£*'
8 ^
'—i
^i.
6
^ r^/
7 yif
1 /
oe
.••'
0
Ci
0
9
7
32 MINUTES OF VALID DATA
1
4
8
7
0
8
T;
7
9
4
9
6
2
2
2
T(
B-48
-------
Ogden Martin Systems - HC1
CHAN 1 CHAN 3
TECO LSI
TIME ppmwet. ppmdry
AVERAGE VALUES FOR THE PREV
10:15 439.6 3.0
10: 16 465.8 0.4
10: 17 475. 1 0.4
10: IS 476. 6 0.4
10: 19 476. 6 0. 3
10:20 48:
' . 8 0.4
10:21 485.0 0.7
10:22 476.8 0.7
10:23 478^ 0.7
10:24 p^!
10:25 48^
10:26 491
10:27 49<
10:28 49:
10:29 49<
Q T1 T
1 • / ji- • •_!'
i . 0 6 . 0
: . i 10.4
>. 2 14. 7
2 . 0 18.9
). 1 22. 3
Moni tori ng
CHAN 4
Bodens
ppmdry
IOUS 15 MINUTES
10.1
-0.5
-0. 6
-0. 0
0 . 0
-1.0
-0. 3
41.0
40.9
39.8
39. 2
39.5
40. 0
40. 0
39. 9
10:30 486. 4 25.9 3.3
AVERAGE VALUES FOR THE PREV
10:30 48:
•. . 3 7.0
10:31 494. 5 29. 1
10:32 560.2 31.6
10: 33 391 . 1 34. 1
10:34 15:
I. 4 36.3
10:35 96.3 38.3
10:36 85.8 40. 1
10:37 8:
;.3 42.0
10:38 98.6 43.7
10:39 96. 1 45.0
10:40 104.3 46.7
10:41 108.5 48.2
10:42 12C
>.7 49.9
10:43 127.0 51.4
10:44 13C
) . 0 52.4
10:45 144.0 52.7
AVERAGE VALUES FOR THE PREV
10:45 187.6 42.8
10:46 144.5 53.2
10:47 151
.8 53.9
10i48 160.9 54.5
10:49 164.7 55.1
10850 169.4 55.9
10:51 177.4 57.0
10:52 182.3 57.4
10s 53 1B0.8 57.6
10:54 188.5 58. 1
10:55 193.7 58.6
10:56 196.0 59.4
10:57 202. 7 60. 1
10:58 205.9 61.5
IOUS 15 MINUTES
21 . 4
-0. 6
-0. 6
-1 . 1
-0. 7
-0. 9
0.5
0. 4
0. 8
0. 6
0. 6
0. 4
-0.2
-0. 0
0.5
0. 6
IOUS 15 MINUTES
0 . 0
0.4
3.0
36. 1
40.9
40.0
40.3
40.9
41. 2
40.8
40.7
40.5
41. 1
12.3
B-49
06-08-1987
-------
Ogden Martin Systems -- HC1 Monitoring
06-08-1987
10:59
11:00
AVERAGE
HiOO
AVERAGE
1 1 : 00
11:01
1 1 : 02
1 1 : 03
1 1 : 04
1 1 : 05
1 1 : 06
11:07
11:08
1 1:09
11:10
11:11
11:12
11:13
11:14
11:15
AVERAGE
11:15
11: 16
11:17
11:18
11:19
1 1 : 20
11:21
11:22
11:23
11:24
11:25
11:26
lls 27
11:28
11:29
11:30
214.2
214. 2
VALUES
183. 1
VALUES
323. 4
218.2
222.4
225.3
228. 0
230. 2
233. 4
232. 4
232. 0
239.3
241 .0
242. 6
237.0
239.2
237.5
246. 3
VALUES
2 3 3 . 7
239. 2
246. 3
243. 1
244.3
60 . 7
60. 7
FOR THE PREV
57. 6
FOR THE LAST
27.6
61 . 1
61.4
61 . 6
62. 0
62.6
63.2
63. 0
63. 1
63. 2
62.9
62. 9
J^LjJL
f~£z76\
I 63. BJ
5^8
FOR THE PREV
62. 3
47. 5
46.5
47.4
44. 7
250.0^ 46.2
256. 2
258.2
248.3
252. 1
253.9
248.8
\25B.Cl
244. 0
254.6
251.3
AVERAGE VALUES
11:30
11:31
11«32
11:33
11:34
11:35
11; 36
11:37
249.9
373.2
455.0
429.7
434. 1
452.6
429. 1
430.6
48.3
47.0
43.9
42.2
41.0
39.5
37.9
36.3
34.7
33.8
0.2
0.2
IOUS 15 MINUTES
27.9
HOUR: 60 MINUTES OF VALID DATA
14.9
0. 6
0.5
0. 5
0. 3
0. 4
0. 7
69. 0
39. 0
-1 . 1
-0. 5
-0. 1
-0. 4
-0. 6
-1 . 1
-0. 4
IOUS 15 MINUTES
7. 1
-1.2
-0. 8
-0. 3
-0. 9
-1 . 1
0 . 0
0. 1
-0. 1
-0. 2
-0. 3
0 . 3
-0. 1
-18.0
25.2
40 . 7
FOR THE PREVIOUS IS MINUTES
42.5
32.5
31. 7
30. 7
30.4
30.5
32. 1
37.9
2.9
40.7
40.9
41. 1
40.0
40.0
40.7
41.3
B-50
-------
Ogden Martin Systems - HC1 Monitoring 06-08-1987
CHAN 1 CHAN 3 CHAN 4
TECO
TIME ppmwet
11:38 446.2
11:39 422.6
11 -40 443. 1
11:41 430.7
11:42 407.7
11:43 431.5
11:44 445.8
1 1: 45 471 .5
AVERAGE VALUES
11 45 433.6
11 46 474.0
11 47 487.2
1 1 48 499. 1
11 49 505.8
1150 515.3
11 51 519.6
11 52 534.3
11 53 499.6
11 54 498.9
11 55 490.4
11 56 444.8
il 57 449.3
11 58 496.0
11 59 528.7
12 00 459.9
AVERAGE VALUES
12:00 493.5
AVERAGE VALUES
12:00 352.7
12:01 463.4
12:02 492.9
12:03 505.9
12:04 486.0
12:05 481.1
12:06 521.6
12:07 465.7
12:08 456.9
12:09 450.1
12:10 440.2
12:11 464.7
12: 12 422.8
12:13 394.8
12:14 451.1
12il5 522.7
AVERAGE VALUES
12il5 468.0
12:16 514.2
LSI
ppmdry
41.5
42. 9
43.8
44.0
43.6
43.7
44.3
45.6
FOR THE PREV
38.4
46. 2
46.8
46. B
45.8
45. 6
47. 1
50. 2
52.6
54. 8
57. 7
69.4
84.3
98. 0
96.8
104. 1
FOR THE PREV
63. 1
FOR THE LAST
51 . 6
111.7
107.8
104.5
1 16. 4
135. 1
141.0
140.8
172.8
169.5
149.3
135.2
127.4
124.7
121.2
112.8
Badens
ppmdry
41 .5
41 .2
40.7
31 .2
1.4
0. 1
0.5
0.3
IOUS 15 MINUTES
29. 4
0. 8
-1 . 1
-13.7
-20. 8
-20. 3
-19.3
-17. 4
-17.4
-16. 8
-15. 4
-15. 1
-15. 6
-14. 8
-15.0
-19. 9
IOUS 15 MINUTES
-14. 8
HOUR: 60 MINUTES OF VALID DATA
6. 2
-36. 2
-27.2
2. 7
-1.0
3.9
3. 4
2.5
39.8
35. 9
2. 1
1.3
-65.4
-62.9
-34.0
-33.8
FOR THE PREVIOUS IS MINUTES
131.3
108.4
-11.3
-50.4
B-51
-------
Dgden Martin Systems - HC1 Monitoring
TIME
12s 17
12: 18
12 19
12 20
12 21
12 22
1 "? r?~*
12 24
12 25
12 26
12 27
12 23
12 29
12 30
AVERAGE
12: 30
12:31
1 2 : 3 2
12:33
12: 34
1'~l "7* cr
.;:. : o o
12: 36
12: 37
12: 38
12: 39
12: 40
12:41
12: 42
12: 43
12: 44
12: 45
AVERAGE
12:45
12:46
12: 47
12: 48
12:49
1 2 : 50
12:51
12:32
12s53
12:54
12»S5
12:56
12:57
12s58
12:59
13iOO
CHAN 1
TECO
.BLpmwet
493.2
500. 3
487. 4
445.0
402. 9
431 .5
480. 0
462. 0
492. 4
484.0
464. 7
480. 0
492. 5
45S. 0
VALUES
472.5
447. 9
479. 4
462.2
449. 6
444. 5
419.2
442. 4
419. 1
434. 8
436. 5
450. 3
467.4
459.2
447.5
474. 6
VALUES
449. 0
473.6
453.5
452.0
455. 1
462.8
479.8
448.6
484.9
486. 0
441 . 7
451.9
428. 2
462.5
486. 4
478.2
CHAN 3 CHAN 4
LSI Bodens
^ij3/ndry ppmdry
119.8 2.0
125.4 17.7
120.5 17.7
1 17. B 9. 5
128.4 -30.5
136.0 -27.4
132.7 -13.7
121.7 -11.7
120. 2 -8.3
1 T^ "7 — ~7 1
1 .*_ •_' . •_' / . 1
122.5 -4.2
110. 9 -3.3
113.0 -3.4
111.5 -3.0
FOR THE PREVIOUS 15 MINUTES
121.3 -7.7
117.2 -O.5
115.8 -1.0
112. 1 -0. 8
108. 8 -O. 3
112.8 -0. 1
110. 2 -0. 4
107.2 -0.2
102. 4 -O. 0
103.2 -0.6
109. 1 -0. 6
108. 1 -0.2
103. 5 -0. 2
98.7 -0.4
102.4 -1.2
107.6 -0.5
FOR THE PREVIOUS 15 MINUTES
107.9 -0.5
106.5 -1.0
102.2 -0.9
101. 1 -0. 6
105.7 -0.2
104.8 -O.2
100.8 -0.3
96.8 -0.7
101.8 -1.1
102.8 -(X _Q
100.4 r^-^\
97.7 -0.7
98.0 -0.6
106.4 I 0. 1
104. 1 V^O-2
97.2 36~79~^
06-08-1987
B-52
-------
Ogden Martin Systems -
CHAN 1 CHAN
TECO LSI
TiM_E. ppmwet ppmdry
HC1 Monitoring
3 CHAN 4
Bodens
ppmdry
06-08-1987
AVERAGE VALUES FOR THE PREVIOUS
13:00 463.0 101.7 :
15 MINUTES
. 0
AVE
13
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
3
3
T,
T
3
"T
Tr
3
"T
3
3
3
3
[RAGE
00
01
02
03
04
05
06
07
08
09
10
1 1
12
13
14
15
VALUES FOR THE
463. 1 1 15.
488.
548.
cr rr cr
612.
632.
617.
607.
601 .
633.
615.
633.
582.
569.
579.
529.
6
8
•-71
5
4
0
0
1
4
5
1
7
9
o
96.
102.
104.
102.
1
1
1
1
1
1
1
1
1
1
1
02.
1
..•
.••
trt
2
T
-T
pr
•T
T
5.
4.
8.
0 .
9.
0.
1 .
_,.
cr
1 .
LAST
6
8
9
1
9
7
4
7
8
7
5
1
B
1
1
4
HOUR i
-4.
44.
44.
50.
O O
14.
14.
14.
14.
13.
12.
12.
1 2.
13.
12.
1 1 .
60 MINUTES OF VALID DATA
4
5
4
8
6
5
0
5
T;
IT
6
1
5
8
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
13:1
587. 0
1 20. 0
20. 5
13:
13:
13:
13:
13:
13:
13:
13:
13:
13s
13:
13:
13:
13:
13:
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
AVERAGE
138
13i
13:
13s
13«
13i
13i
13:
135
13:
30
31
32
33
34
35
36
37
38
39
534.
512.
51 1.
515.
494.
495.
513.
536.
488.
505.
481.
460.
461 .
486.
469.
/— t
jL.
7
8
6
5
8
1
7
Tt
6
4
9
1
8
9
VALUES FOR
497.
478.
470.
462.
483.
496.
495.
460.
462.
444.
9
7
0
9
5
5
3
6
2
4
1
1
1
1
1
1
1
~T T1
27.
20.
16.
12.
12.
1 1 .
107.
1
1
1
1
1
03.
09.
11.
05.
99.
98.
00.
THE
1
1
1
1
1
1
11 .
99.
98.
05.
10.
04.
97.
99.
20.
22.
6
1
5
6
0
1
7
6
4
4
6
7
7
7
6
PREV
O
8
-%
6
0
0
6
6
4
8
1 1
10
10
9
9
9
9
9
9
9
8
7
7
8
8
IOUS
9
8
9
9
8
9
9
8
8
7
. 4
. 6
. 0
. 9
.6
. 6
<— i
• .til
.8
TI
"T
. 6
. 5
. 9
. 7
• «— '
15
. 3
.2
.2
. 0
. 5
. 1
. 3
.8
.4
.9
MINUTES
B-53
-------
Ogaan Martin Systems - HC1 Monitoring 06-08-1987
CHAN 1 CHAN 3 CHAN 4
TECO LSI
TIME
13:40
13:41
13:42
13:43
13:44
13:45
AVERAGE
13:45
13:46
13:47
13:48
13:49
1 3 : 50
13:51
13:52
13:53
13:54
13:55
13:56
13:57
13:58
13:59
1 4 : 00
AVERAGE
1 4 : 00
AVERAGE
14:00
14:01
14:02
14:03
14:04
14:05
14:06
14:07
14:08
14:09
14i 10
14: 11
14: 12
14i 13
14s 14
14i 15
AVERAGE
14i 15
14: 16
14: 17
14: 18
ppmwet. _f
467.8
437.7
411.3
385. 1
379.2
389 . 2
VALUES FOR
448.3
395.3
447. 0
466. 3
464. 0
453. 4
471. 1
476.8
451. 1
431.9
432. 0
446. 0
442.2
489. 3
488.5
460. 1
VALUES FOR
454.3
VALUES FOR
496.9
462.4
457.6
459. 4
454.2
471.8
454. 2
475.5
468.8
466. 2
5OO. 9
488. 1
483. 6
501.8
482.8
518.3
VALUES FOR
476.4
579.0
579.8
553.2
jpmdry
105. 7
99.0
99. 6
100.9
94.6
85.7
THE PREV
102.9
80 . 5
81.8
83.2
80.6
77-0
79. 3
87.8
88.0
85.2
82.7
80 . 3
83.3
86.7
84. 1
80.6
THE PREV
82.7
THE LAST
104.2
83.7
87.8
85.0
83.6
83.6
84.5
86.7
85.9
83.2
86. 7
88.2
86.3
85. 0
87.8
94. 1
Bodens
_gpmdry.
8.5
8.4
7.5
7.0
6.3
6.4
IOUS 15 MINUTES
8.2
7. 1
7.8
6.9
6. 0
6.6
7.9
8. 0
6. 8
6. 1
6. 8
7. 4
7.0
7. 4
7. 3
6. 6
IQUS 15 MINUTES
7.0
HOUR: 60 MINUTES OF VALID DATA
6.4
6. 6
6. 6
6. 9
7.8
7.3
7.2
7.3
7.2
8.4
7.5
7.3
7.4
7.5
7.6
THE PREVIOUS 15 MINUTES
86. 1
92.7
91. S
95. 1
7.3
8.2
7=6
7.3
R-S4
-------
Ogd«n Martin Systwnm - HC1 Monitoring (
CHAN 1 CHAN 3 CHAN 4
TIME
14: 19
14:20
14:21
14:22
14:23
14: 24
14:25
14:26
14:27
14:28
14:29
1 4 : 30
AVERAGE
14:30
14:31
14:32
14: 33
14: 34
14:35
14: 36
14: 37
14: 38
14:39
14: 40
14:41
14: 42
14:43
14: 44
14:45
AVERAGE
14: 45
14:46
14: 47
14:48
14: 49
14:50
14:51
14:52
14:53
14:54
14:55
14s56
14»57
14:58
14s59
15 tOO
AVERAGE
ISsOO
TECO
ppmwet
554.9
515.8
517.9
515.6
526. 4
492.5
548. 3
550.2
529. 9
542.6
574.0
554. 4
VALUES
542. 3
520. 1
513.8
511.5
525. 8
511.2
494. 2
501 .5
507. 5
513. 4
505. 8
491 . 4
502. 0
4BB. 2
536. 4
540. 0
VALUES
510.9
527. 9
523. 1
50 1 . 7
507. 3
500.8
509. 0
516.4
518.6
499. 1
505.7
\_)s!l'G • D
515.7
526.9
541.8
524 . 3
VALUES
517.0
LSI
p p m d r y
98.7
1 00 . 2
102.8
102.2
99.9
98.7
102.4
104.4
1 00 . 3
99. 4
104. 0
108. 1
FOR THE PREV
100. 1
109.2
105.3
100. 0
98. 9
106. 0
106. 2
1 00 . 7
94. 9
96. 6
103. 2
103. 1
96. 9
91 .7
94. 7
1 00 . 3
Baden*
ppmdry
8. 1
7-9
7.8
7.3
7.9
8.3
8.7
7.9
7. 4
8. 2
9. 1
8. 1
IOUS 15 MINUTES
8.0
6.7
6.8
7.7
8.2
7. 8
7. 1
6. 8
7. 2
8.0
7. 4
6. 5
6. 9
7.0
7.5
7.2
FOR THE PREVIOUS 15 MINUTES
100.5
99.4
98. 1
97.6
1 00 . 7
103.4
100.4
96.6
93. 1
97.2
101.2
99.2
93.9
94.0
98.4
99.5
FOR THE PREV
98. 2
7. 3
6.6
7.3
7.4
8.0
7.7
7.0
7.2
7.6
8. 1
7.3
7.7
7.6
7.5
7.7
7.4
IOUS 15 MINUTES
7.5
06-08-1987
B-55
-------
Ggden Martin Systems - HC1
CHAN 1 CHAN 3
TECO LSI
TIME
Moni tori ng
CHAN 4
Bodenffl
ppmdrv
06-08-1987
____
AVERAGE
1S:00
15:01
15
15
15
15
15
15
15
15
15
15
15
15
15
15
02
03
04
05
06
07
08
09
10
11
12
13
14
15
AVERAGE
15.
15:
15:
15:
15:
15:
15:
15:
15:
15:
15:
15:
15:
15:
15:
15:
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
AVERAGE
15:
15:
15:
15i
15:
15:
15:
15s
15:
15:
15:
15s
152
15s
30
31
32
33
34
35
36
37
38
39
40
41
42
43
VALUES FOR
511.6
531. 1
527. 7
512.9
530.2
503. 0
494. 0
503. 6
501.6
569. 1
566. 6
510.4
478. 6
512. 1
528.8
498. 9
VALUES FOR
517. 9
478. 2
487. 6
487. 7
521 .2
528.2
529. 8
516. 4
475.3
457. 1
452.4
458. 9
450. 7
461.6
461 . 1
474. 8
VALUES FOR
482. 7
464.4
450. 1
477.5
485.9
474.5
461.9
446. 9
452. 1
467.2
446.7
478.6
489.8
509. 1
THE
96.
100.
99.
97.
99.
99.
100.
101.
97.
93.
91.
98.
105.
100.
90.
93.
THE
97.
1 04 .
101.
91 .
88.
97.
100.
98.
94.
95.
99.
95.
91 .
87.
S3.
83.
THE
94.
85.
83.
80.
78.
82.
86.
83.
79.
78.
80.
82.
BO.
79.
LAST HOURs 60 MINUTES OF VALID DATA
2 7.5
1
1
7
1
0
8
4
-T
-T
0
1
5
o
5
1
PREV
7
9
8
4
6
*— i
jL.
5
8
9
0
2
5
4
"—i
ji.
8
9
PREV
~T
1
5
9
4
5
-T
4
8
1
7
1
9
"T
7.6
7. 6
7.3
8.4
8. 3
8. 2
7.4
7.3
9.6
10.2
8. 5
7.2
7. 7
9.2
8.9
IOUS 15
8. 2
7. 6
7. 5
8. 0
8. 9
8. 9
8. 4
8.2
7.9
8. 1
8. 1
8.2
7.5
7. 7
7.5
8. 5
IOUS 15
8. 1
7. 7
6.7
7. 0
7.4
7.2
6. 6
5.9
6. 5
7.4
7. 1
7. 1
7 . 1
6.7
MINUTES
MINUTES
B-56
-------
Qgden Martin System® -
CHAN 1 CHAN
TECQ LSI
TIME
15:44
15:45
AVERAGE
15:45
15:46
15:47
15:48
15:49
15:50
15:51
15:52
15:53
15:54
15:55
15: 56
15:57
15:58
15:59
16:00
AVERAGE
16:00
AVERAGE
16:00
16:01
16:02
16:03
16:04
16:05
16:06
16:07
16:08
16:09
16: 10
16:11
16: 12
16:13
16: 14
16: 15
AVERAGE
16: 15
16: 16
16: 17
16: IS
16: 19
16:20
16:21
16:22
HC1 Monitoring 06-08-1987
3 CHAN 4
Bodans
ppmwet. ppmdrv
525.5
529.8
VALUES
477.3
520.2
512. 7
546.7
554. 6
540. 1
524. 1
565.2
557. 0
533.7
538. 1
532.2
561 . 1
556. 1
5 5 0 . 0
578. 8
VALUES
544. 7
VALUES
505. 7
580. 4
573.7
598. 6
642. 0
592. 6
571 .5
585.9
668.0
676.3
634. 7
624.3
596.9
620 . 8
663.9
681.8
VALUES
620.8
396.5
140.6
103.3
83.8
79.9
80.8
72.3
78.
80.
FOR THE
81.
86.
89.
87.
84.
90.
98.
97.
92.
94.
105.
103.
98.
96.
103.
110.
FOR THE
95.
FOF;' THE
92.
104.
102.
105.
1 08 .
1 12.
1 15.
114.
109.
114.
123.
128.
127.
129.
129.
125.
FOR THE
1 16.
102.
88.
80.
72.
76.
79.
72.
6
9
ppm.dr^
6
6
PREVIOUS
4
8
9
7
0
4
6
T,
0
0
6
0
1
2
4
4
PREV
8
LAST
0'
4
7
9
7
8
7
7
0
9
5
0
2
7
9
PREV
8
7
7
2
9
9
0
T;
6
7
6
6
7
7
7
7
8
7
8
8
9
9
9
8
IOUS
7
HOUR
7
9
9
1 1
1 1
9
8
9
1 1
1 1
1 1
1 1
12
14
15
15
IOUS
11
8
0
-0
-0
-0
(~®
-0
m
m
1
•
.
m
*
m
m
m
m
m
m
B
.
m
m
•
1
•
•
.
.
.
B
m
,
B
B
„
,
.
,
,
•
1
•
m
m
m
.
.
,
9
8
5 MINUTES
9
4
6
5
1
4
0
1
0
7
7
3
2
B
-T
9
5 MINUTES
9
60 MINUTES OF VALID DATA
8
0
6
0
5 Y
Q /irff?^ ^ l^
9 <^)'\D^ }£-, r
X^^l ]f\ '
— r i **
4
9
8
6
7
6
T;
5 MINUTES
6
8
6
2
1
4
7~1
6/
B-57
-------
Ogden Martin Systems - HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodena
06-08-1957
1 * 1 IhM
16a23
16:24
16:25
16:26
16:27
16:28
16:29
16:30
71.
69-
65.
62.
60.
57.
53.
54.
O
8
4
4
5
7
9
0
58.
47.
39.
31.
25.
21.
19.
17.
T;
4
4
2
7
7
5
8
,-1.1
^w>
^9TT
39. 4
45. 1
45. 1
45<2
AVERAGE VALUES FOR THE PREVIOUS 15'
16:30
96.8
14.4
16:
16:
16:
16:
16:
16:
16:
16:
16:
16:
16:
16:
16:
16:
16;
31
33
34
35
36
37
38
39
40
41
42
43
44
AVERAGE
16:45
46
47
48
49
50
51
52
16:
16:
16:
16:
16:
16:
16:
16: 53
16:54
16:55
16:56
16:57
16:58
16:59
17:00
41 .7
16.3
14. 9
14
16
15
14
15
15
MINUTES
15.8
20.4 73.0
20.9 73.5
21.6 73.6
22.6 74.5
FOR THE PREVIOUS 15 MINUTES
17.9 50.4
23. 9
26.3
17.3
10.6
8.2
7.7
6. 4
7. 1
20. 1
27.2
31.9
38. 6
44.7
4B.6
51.8
1.6
AVERAGE VALUES FOR THE PREVIOUS 13 MINUTES
17!00 262.2 24.7 50.0
AVERAGE VALUES FOR THE LAST HOURc 60 MINUTES OF VALID DATA
17:00 257-6 53.8 31.6
17:01
503. 8
53.8
0.7
B-58
-------
CJgden Martin Systems - HC1 Monitori
CHAN 1 CHAN 3 CHAN 4
TEiCO LSI Bodenc
TIME ppmwet. ppmdry
17:02
17:03
17:04
17:05
17:06
17:07
17:08
17:09
17: 10
17: 11
17: 12 i
17: 13
17: 14
17: 15
AVERAGE
17: 15
17:16
17: 17
17: 18
17: 19
17:20
17:21
17: 22
17:23
17: 24
17: 25
17:26
17:27
17: 28
17:29
17:30
AVERAGE
17:30
17:31
17:32
17:33
17:34
17:35
17:36
17:37
17:38
17:39
17:40
17i41
17i42
17:43
17:44
17:45
504. 1
511.2
507.5
514.6
521 .3
525. 9
523.7
523.9
525. 4
533. 2
; ^-B(
\ 533. 3\
\539.3)
534. 9
VALUES FOR
) 522. 5
™ -J
uJ -' V - •-'
542. 4
418.2
157. 4
120.7
96.6
85. 4
84. 7
87. 2
68. 4
63. 0
63. 4
60.2
60. 2
64.8
VALUES FOR
167.5
63. 5
56.5
51.2
50 . 6
53.4
52.5
53.2
49. 4
43. 0
46. 3
47.9
50 . 5
54.9
46.6
45.8
55.3
56.6
57.0
56.9
57. O
57. 1
57. 6
58. 3
59. 1
59. 7
60. 2
59.7
41. 1
23.5
THE PREV
54. 2
16.0
27.5
39- 2
42. 1
44. 2
48. 6
50 . 8
52. 0
44. 2
~T T- T
25. 1
19.8
16.3
13. 1
11.5
THE PREV
32. 2
10.5
9. 3
8.4
7.6
6.4
5.4
5. 1
4.8
4.5
4.2
3.8
3.3
3. 1
3.3
3.5
ppmdry
0. 4
0.4
0. 3
0. 3
0. 1
-0.3
-0. 6
-0.6
0. 1
0. 4
0. 2
-0.4
-0. 1
-0. 6
IQUS 15
0 . < I>
-1.0
9. 5
22. 1
35. 5
37. 3
31 . 7
35. 9
57. 8
79. 3
94 . 0
101.9
88.3
90. 4
1 06 . 2
1 08 . 2
IQUS 15
59. 8
109. 8
109.9
109.8
1 09 . 9
109.9
109.9
109.9
109.9
109-9
109.9
109.9
1 09 . 9
109.9
109.9
109.9
ng <
MINUTES
MINUTES
06-08-1987
B-59
-------
Ogdsn Martin Systems -
CHAN 1 CHAN
TECO LSI
ppmwet; _ ppmdry,
TIME
HC1 Monitoring
3 CHAN 4
Bodenc
ppmdrv
06-08-1987
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
17s 45
1.0
109.9
17:
17:
17:
17:
17:
17:
17:
17:
17:
17:
17:
17:
17:
17:
18:
46
47
48
49
50
51
52
53
54
55
56
57
58
59
00
AVERAGE
18:
00
AVERAGE
18: 00
IB:
18:
18:
18:
18:
18:
18:
18:
18:
18:
18:
18:
18:
IB:
18:
01
02
03
04
05
06
07
08
09
10
1 1
12
13
14
15
48
46
45
43
48
44
49
45
39
45
44
36
34
44
48
m
m
.
B
m
t
m
f
m
m
.
B
m
m
•
f~)
4
7
9
5
8
-?
2
6
9
6
>-~\
5
9
8
VALUES
44
•
4
VALUES
196. 4
53
41
46
44
48
37
43
45
38
42
43
32
36
41
42
.
.
.
B
,
m
m
t
m
,
m
•
„
.
0
4
B
1
2
9
"T
4
5
5
0
9
2
-T
•T
2.
<->
jL. •
O
JL. •
*L •
^
r- ,
jL. m
T>
1.
1.
1 .
1 .
1 .
1 .
-ill' •
1 .
FOR THE
-^ •
FOR THE
(
\
\
1
-i
>—\
j-
3
^-~
1.
1 .
si •
1.
1 .
1 .
2 .
-7
5 .
7.
2 *
1 .
7.
T"
36.
9
9
6
1
0
•?!
-T
9
7
7
8
6
<-)
0
9
PREV
1
LAST
5
7\
7) ,
jj^
2
7
0
5
5
1
5
T,
9
7
8
1
1
09.
08.
106.
1
1
1
1
1
1
1
09.
09.
09.
03.
93.
94.
99.
02.
92.
97.
02.
01.
IOUS 1
1
02.
HOUR:
68.
1
D
y
04.
66.
7.
1 .
0.
0.
0.
0 .
-0.
-0.
'-' •
-0.
-0.
-0.
-1.
9
6
1
9
9
9
6
-7;
-T
o
1
1
7
o
4
5 MINUTES
6
60 MINUTES OF VALID DATA
1
5
2
-T
5
6
4
2
2
0
7
5
3
3
8
0
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
IBi15 42.5 10.6 11.8
18:
18:
18:
18:
18:
18:
18:
18:
18:
16
17
18
19
20
21
22
23
24
44.
39.
40.
40.
50.
35.
42.
33.
40.
5
4
7
5
9
8
7
2
7
39.
42.
43.
45.
46.
48.
48.
49.
50.
9
3
B
4
9
0
8
7
6
49.
26.
0.
0.
21.
46.
46.
46.
46.
•— ''
8
4
5
9
B
0
2>
2
B-60
-------
CJgden Martin
TIME
18823
18i26
18:27
18:28
18s29
18:30
AVERAGE
18:30
18:31
18:32
18: 33
18:34
18: 35
CHAN 1
TECO
ppmwet
39.4
45. 1
48.9
39.6
43. 0
31.5
VALUES FC
41. 1
37. 0
35. 2
36. 2
40. 7
36. 2
-------
SUMMARY OF HC1 MONITORING DATA
RUN: 5
SOURCE: Ogden Martin Systems - Characterization Test
TEST DATE: 6/9/B7
GAS VALUE
INITIAL CAL
FINAL CAL
MEAN CAL
***TECO (INLET) ***
0.0 ppm HC1
490.0 ppm HC1
***LSI (MIDPOINT)***
0.0 ppm HC1
65.0 ppm HC1
***BODEN.(OUTLET)***
0.0 ppm HC1
65.0 ppm HC1
4. 1
493.0
0.3
NA
-1.4
NA
19.2
50B. 0
-3.7
107.0
-1. 1
74.0
11.7
500.5
-1.7
107.0
-1.3
74.0
HOUR
1
TIME
10:00 - 11:00
11:00 - 12:00
12:00 - 13:00
UNCORRECTED RESULTS
INLET
(wet)
5B7.7
558. 4
547.9
MIDPOINT
(dry)
140.9
135.3
128.4
OUTLET
(dry)
25.0
TQ n
OD • —
41.3
***RESULTS CORRECTED FOR CALIBRATION BIAS AND DRIFT***
HOUR
TIME
1 10:00 - 11:00
2 11:00 - 12:00
3 12:00 - 13:00
3-HOUR AVERAGE
Highest 1 Min. Avg.:
Lowest 1 Min. Avg.:
INLET
(dry)
663.7
629-9
617.8
637.2
790.0
539. 5
MIDPOINT
(dry)
85.3
B1.9
77.8
B1.7
104.3
70.0
OUTLET
(dry>
22.7
34.1
36. B
31.2
46.3
13.4
NOTE: Inlet concentrations were measured on a wet basis and
corrected to a dry basis using Method 4 results.
Moisture = 13 7.
B-62
-------
08:
OS:
08:
08:
08:
08:
08:
08:
08:
08:
08:
08:
08:
OB:
OS:
08:
08:
08:
08:
08:
08:
OS:
08:
08:
06:
08:
08:
08:
08:
08:
08:
08:
08:
08:
08:
OS:
13
14
15
16
17
18
19
20
21
24
25
26
27
28
29
30
3 1
36
•3 /
38
39
40
41
42
43
44
45
46
47
48
OS
08
08
08
08
08
08
08:56
08:57
08:58
08s 59
09s 00
49
50
51
52
3D
9.
4.
1 .
40.
213.
312.
354.
383.
41 1.
419.
430.
443.
45O.
451 .
457.
459.
468.
470.
471 .
474.
475.
477.
482.
476.
484.
483.
488.
/ A fj A
493.
487.
491.
495.
4
4
~T
6
6
1
-T
1
0
4
_^_
1
5
1
0
7
1
9
9
4
ji.'
8
0
o
1
7
5
_ —
6
7
9
B_
T
ci75. 7
483.9
401.0
380.4
345.2
AVERAGE VALUES FOR THE LAST HOUR: 49 MINUTES OF VALID DATA
09:00 302.3 1.2 18.9
09:01
312.8
0.
43.8
B-63
-------
Ogden Martin Systems -- HC1 Monitoring
06-09-1937
CHAN 1
TECO
09:
09:
09:
09:
09:
09:
09:
09:
09:
09:
02
03
04
05
06
07
08
09
10
1 1
327.3
314.1
322. 7
325. 8
341.6
358.5
371.0
431.5
431.6
419. 1
CHAN 3
LSI
ppmdr
0.3
0. 3
0. 3
-1 . 6
0. 2
0. 3
2.5
1 . 3
0. 6
0. 5
CHAN 4
Bodena
mdr_y.
44.9
39.8
34. 2
28. 1
24. 7
22. 7
25. 6
25.6
B-64
-------
Ogden Martin Systems - HC1 Monitoring
06-09-1987
TI
09
09
09
09
09
09
09
09
09
09
M
•
*
•
•
•
a
m
•
•
•
•
•
;
t
•
•
CHAN
TECO
1
iE ppmwet
32 472.9
33
34
35
36
37
38
39
40
41
457.
448.
458.
444.
436.
472.
447.
484.
538.
1
T
4
0
1
4
5
7
0
CHAN
LSI
3
_p_pmdry
10.
IB.
43.
55.
64.
77.
81.
79.
77.
85.
4
5
o
X.
5
8
1
6
5
7
8
CHAN 4
Bodens
__P_pm
1
1
dry
3.8
1.
10.
1
1
1
1
1
1
1 .
!— )
9.
1.
^
T;
*— i
JL. •
5
5
8
O
j^.
1
7
5
9
7
B-65
-------
Ogden Martin Systems - HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECO LSI Boden«
TIME
06-09-1937
09:44
09545
09 1 46
09:47
09:48
09: 49
09:50
09:51
09:52
09:53
09:54
09:55
09:56
09:57
09:58
09: 59
10: 00
AVERAGE
1 0 : 00
AVERAGE
10:00
1 0 : 0 1
10:02
10: 03
10:04
10:05
10:06
10:07
10:08
10:09
10: 10
10:11
10:12
10:13
10: 14
10: 15
AVERAGE
10: 15
10! 16
1 0 1 1 7
lOt 18
10« 19
10:20
10«21
10:22
10t23
10:24
10:25
589.7
555 . 5
543.3
536.2
515.7
509.6
542.7
542.3
551.6
529. 4
570. 2
553. 8
569- 7
557.0
556.5
604. 3
593.6
VALUES FOR
551 .7
VALUES FOR
554.2
614. 4
597.8
657. 1
675.7
671-9
652.5
685.6
651.3
672.6
697.3
665.3
667. 4
658.4
634.9
627.9
VALUES FOR
O S-J %_J • S_*>
620.4
589. 1
565. 8
559. 1
547.6
558.0
556. 1
557.4
574.2
558.9
94.3
106. 0
121.6
123.7
115.5
111.6
116.4
117.4
109.8
105. 1
105. 4
115.6
118.5
1 17. 4
115.3
1 19. 1
126.7
THE PREVI
115.9
THE LAST
1 14. 1
132.2
128.7
125.2
142.3
156.5
155.6
148.3
151.0
166.4
172. B
163. 1
161 .5
162.4
166.6
171.4
THE PREVI
153.6
168.0
160.4
152.0
148.5
153.2
149.2
142.8
134.8
139.6
139.8
13.4
13. 1
12.0
11.1
11.1
11.3
10.8
11.5
12. 2
14.0
15.8
13.8
12. 3
13.7
15.3
17.3
15. 4
OUS 15 MINUTES
13. 2
HOUR: 17 MINUTES OF VALID DATA
13.2
14. 4
17. 4
20. 9
21.3
IB. 6
18. 9
24 . 0
25. 2
24.4
22.6
21 .6
25. 1
26.6
26. 0
24.2
OUS 15 MINUTES
22. 1
21.2
19.7
21. 8
23.2
23.4
23.2
2T T
-> • O
25. 1
26. 7
23. 1
B-66
-------
Ogden Martin Systems -
CHAN 1 CHAN
TECO LSI
TIME
10J26
10i27
1 0 1 28
10s 29
lOt 30
AVERAGE
10:30
1 0 : 3 1
10:32
10:33
10:34
10:35
10:36
10:37
10:38
10: 39
1 0 : 40
10:41
10: 42
10:43
10: 44
10: 45
AVERAGE
10: 45
10:46
10: 47
10:48
10:49
10:50
10:51
10:52
10:53
10:54
10s55
10:56
10:57
10s58
10:59
lllOO
AVERAGE
11 500
AVERAGE
11500
llsOl
11:02
Ili03
11504
HCI Monitoring 06-09-1987
3 CHAN 4
Bodena
ppmwe?t pomdrv
534 . 2
537 . 4
535 . 5
566.9
555.7
VALUES FOR
561. 1
551. 7
557.2
600. 7
589. 9
565. 4
571 .9
563. 5
556. 0
569. 5
541. 9
576. 5
578.5
578. 0
572. 9
585. 4
VALUES FOR
570.6
545.8
549.5
573. 1
581 . 1
563.3
534. 4
561 . 1
561 . 0
547.2
533.9
549.0
582.9
571.4
583. 6
618.7
VALUES FOR
563. 7
VALUES FOR
587.7
628. 1
605.0
593.2
599.2
143.
139.
131 .
135.
139.
THE
145.
135.
130.
125.
133.
140.
138.
1 33.
140.
148.
144.
130.
128.
131 .
142.
141 .
THE;
136.
132.
126.
130.
134.
131 .
126.
123.
127.
131 .
130.
125.
119.
120.
135.
134.
THE
128.
THE
140.
125.
125.
141.
148.
2
5
4
5
0
PREV
1
8
6
4
6
8
8
1
1
2
0
5
0
6
1
6
PREV
""S
8
4
1
6
4
0
0
9
0
5
8
4
2
0
5
PREV
6
LAST
9
2
7
1
6
ppmdrv
20
22
26
25
21
IOUS
23
19
r~, r-^
27
24
22
24
31
32
28
24
28
3 1
32
29
25
IOUS
27
25
30
29
25
22
24
29
29
27
26
29
32
29
26
24
IOUS
27
HOUR
25
29
33
31
27
.
•
m
f
•
1
•
•
m
B
.
m
m
m
m
m
m
m
m
_
•
1
•
m
m
„
B
.
_
B
.
,
m
•
m
m
m
0
8
1
9
9
5 MINUTES
2
5
7
7
B
5
9
7
2
4
7
7
4
-?
1
4
5 MINUTES
1
9
-T
8
2
5
_,.
T
5
8
7
4
6
0
T,
8
15 MINUTES
•
•
•
•
m
m
.
5
60 MINUTES OF VALID DATA
0
5
1
4
0
B-67
-------
Oyd en Martin 9
TIME
1 1 : 03
11 06
11 07
11 OS
11 09
11 10
11 11
1 1 12
11 13
1 1 14
11 15
AVERAGE
11:15
11:16
11:1 7
11: 18
11:19
1 1:20
11:21
11: 22
1 1 : 23
11: 24
1 1 : 25
1 1 : 26
11:27
11: 28
11:29
1 1 : 30
AVERAGE
1 1 : 30
11:31
11:32
11:33
1 1 : 34
11:35
11:36
11:37
1 1 : 3G
11 : 39
11:40
11:41
11:42
11:43
11:44
11:43
AVERAGE
1 1:43
11:46
11:47
CHAN 1
TECQ
jipmwet
582.9
569.4
579. 2
559.8
549.8
568.0
572 . 0
566.0
560 . 7
566. 5
546. 1
VALUES
576. 4
565.7
576.3
605. 6
6 10.6
626. 8
597. 6
609. 2
616. 6
569. 4
557. 5
581 . 3
611.2
650. B
588. 7
574. 7
VALUES
596. 1
563. 1
546.3
591 .5
594. 2
615. 1
570.0
561 . 0
587. 7
604. 0
570. 5
546.9
548. 5
525.4
505.4
505. 0
VALUES
562.3
513. 0
499.0
/wttf.'ii* ~ HC1
CHAN 3
LSI
ppmdry
141.3
133.4
135.2
140. 7
140. 5
137.6
130.6
128.6
133. 1
139.7
142. 1
lion 1 taring
CHAN 4
Bodeno
ppmdry
26.7
30. 9
32. 4
30. 4
30. 2
30. 8
31.4
34.5
37. 0
33.7
29.5
FOR THE PREVIOUS 15
136.2
131.6
123.8
128. 6
141 .5
140. 9
132.9
132.0
148. B
154. 2
148.3
141 .9
135. 4
144. 4
153. 1
156.3
FOR THE PREV
140. 9
146.2
136.9
146.0
150.9
147.0
140. 4
139. B
147.8
148.7
144.6
140.4
136.3
133.3
142.2
1 40 . 0
FOR THE PREV
142.7
128.3
119.6
31 .2
34.8
39. 1
37.4
"^3 ~*,
37i . 3
40. 6
46. 0
41 . 8
33. 7
32. 9
41 . 9
49. 5
48. 5
41 .4
40. 1
IQUS 15
39.6
47.9
52. 4
51 .8
45.0
43. 9
47. 6
51.8
49. 6
43.2
37. 2
37.2
44.9
44.6
38. 3
35.6
IOUS 15
44.7
34.9
34. 3
MINUTES
MINUTES
MINUTES
06-09-1987
B-68
-------
Qgden M«rtin
CHAN
TECO
I
1
1
1
1
1
1
1
1
1
1
1
1
1
I ME
1:
1:
1:
1:
1:
1:
1:
1:
1:
1:
1:
1:
2:
48
49
50
51
52
53
54
55
56
57
58
59
00
AVERAGE
1
2:
OC)
Systems -
1 CHAN
LSI
HC1 Monitoring '
3 CHAN 4
Bodens
ppmwet DDrndrv
5O2.
506.
500.
482.
479.
490.
491 .
506.
490.
504.
504.
521 .
491 .
VALUE
498.
r-,
2
0
4
9
3
4
1
9
1
4
0
1
S FOR
8
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
0.
1.
•7.1
20.
1
1
2
T1
1
1
2
2
***!
Jl-
6.
7.
4.
3
9.
5.
0.
5.
cr
uJ •
THE
1
*L.
1 .
4
8
9
1
4
0
4
8
4
6
7
6
2
PREV
4
ppmdrv
3
3
3
3
4
4
1
4
39
4
3
3
3
4
4
-T
"^
IOUS
1
9
8
9
3
2
6
0
37
.8
.6
.6
. 4
.9
.9
. 0
. 3
. 6
. 0
.0
. 5
. 8
15 MINUTES
. (I)
06-09-1987
AVE
12
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
9
2
2.
2
2
2
2
12
1
1
1
2
2
2
ERAGE
00
01
02
03
04
05
06
07
08
09
10
11
12
13
14
15
VALUES FOR T
558.4 1
497.
484.
483.
527.
521.
542.
510.
514.
518.
499.
U J- •-' .
494.
517.
518.
530.
1
2
4
7
8
-T
5
8
6
1
8
7
6
"T
9
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
HE
35.
>-)
1
1
1
1
1
1
2
-^
f~\
^_
1
1
O
^_
"T
j^
1.
7.
6.
9.
7.
6.
5.
5.
0.
6.
9.
8.
8.
0.
'—i
j^. •
LAST
0
cr
^J
8
0
1
6
HDURi
38.
3
"T
~T
T
-T
T
2.
~r
_.,,
jL. •
0.
6.
3 40.
"T
JL.
-T
1
3
4
1
6
T
T
"T
9-
4.
T>
40.
4
"T
~T
4
1 .
8.
6.
"T
60 MINUTES OF VALID DATA
r—l
jL
cr
_J
~T
7
6
o
0
8
0
o
7
7
1
6
5
o
AVERAGE
12:
12:
12:
12:
12:
129
12:
12:
12:
12:
12:
12:
12:
12:
12:
12:
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
VALUES FOR THE
512.
529.
572.
550.
547.
553.
526.
532.
503.
515.
527.
556.
557.
542.
561.
572.
"T
-— i
jL.
0
3
1
7
2
9
1
8
7
4
2
7
4
9
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
21 .
17.
24.
32.
32.
28.
25.
34.
36.
29.
21.
17.
24.
28.
26.
20.
PREV
6
4
4
-T
0
1
2
9
2
T;
6
9
2
7
9
9
IOUS 1
36.
48.
47.
41 .
41 .
46.
48.
48.
44.
46.
49-
48.
43.
38.
41.
46.
5
3
4
4
1
4
7
4
4
0
2
9
9
1
0
4
4
MINUTES
B-69
-------
Ogden Martin Systems ~
CHAN 1 CHAN
TECO LSI
TIME
AVERAGE
12s 30
12:31
12:32
12:33
12:34
12:35
12:36
12:37
12: 38
12:39
1 2 : 40
12:41
12: 42
12:43
12: 44
12:45
AVERAGE
12:45
12:46
12:47
1 2. : 48
12: 49
12:50
12:51
12:52
12:53
12:54
12:55
12:56
12:57
12:5S
12:59
13:00
AVERAGE
13:00
AVERAGE
13iOO
13»01
13s02
13:03
13«04
13s05
13:06
13:07
13s08
13:09
ppmwet pprndr
VALUES FOR
543.2
568.5
574. 4
589.5
616.0
595. 1
598. 6
610.2
609. 0
597. 1
589.3
564. 2
575. 4
567. 1
576.6
585.2
VALUES FOR
587. 7
557. 7
564.8
573.9
555. 2
553. 3
547.3
547.9
535.7
542.7
542.5
543. 6
529.5
544.0
543.7
544. 3
VALUES FOR
548.4
VALUES FOR
547.9
529.4
535.4
572.6
542.9
537.4
559.3
554.0
579. 1
558. 0
THE
126
124
133
133
127
125
137
143
139
133
139
148
144
135
1 30
134
THE
135
139
135
129
128
135
139
131
121
1 22
132
131
125
120
124
129
THE
1 30
THE
128
127
120
120
132
137
132
126
131
140
•
.
•
.
.
•
.
.
.
.
„
.
.
.
,,
•
•
.
.,
.
m
f
m
m
,
.
a
_
m
m
„
•
•
•
•
.
•
m
m
m
m
•
•
HC1 Monitoring 06-09- 1937
3 CHAN 4
Bodens
y
PREV
7
7
5
8
4
6
1
5
5
1
8
1
4
6
2
6
PREV
4
9
9
~T
6
9
7
4
7
2
7
6
7
2
8
7
PREV
0
LAST
4
9
3
0
1
0
6
1
4
8
ppmdry
IOUS 1
45.
45.
39-
39-
46.
48.
44.
40.
42.
47.
46.
39.
38.
42.
46.
43.
IGUS 1
43.
38.
40.
46.
46.
40.
35.
35 .
40.
41 .
38.
37.
39.
43.
40.
36.
IOUS 1
40.
HOUR:
41.
41.
50.
56.
50.
48.
53.
56.
56.
51.
5 MINUTES
3
8
9
7
2
5
4
1
9
0
7
9
"^
T
8
8
5 MINUTES
5
6
4
7
8
5
0
9
6
6
-T
2
6
9
9
8
5 MINUTES
2
60 MINUTES OF VALID DATA
~T
4
7
2
9
2
2
3
7
7
B-70
-------
Qgden Martin Systems - HC1 Monitoring
06-09-1987
TIME
13: 10
13: 11
13 12
13 13
13 14
13 15
AV RAGE
13 15
13 16
13 17
13 18
13 19
13 20
13 21
13 22
13 2Z
13 24
13 25
13 26
13 27
13 28
13 29
13 30
AVERAGE
1 3 30
13 31
13 32
1 3 33
13 34
13 35
13 36
13 37
13 38
13 39
13 40
13 41
13 42
13 43
13:44
13:45
AVERAGE
n v t.r\ ni<^ t«
13:45
13:46
13:47
13:48
13:49
13:50
13:51
13:52
CHAN 1
TECO
ppmwet
589.2
574.5
576.8
569.6
566. 8
557.9
VALUES
560.2
535. B
249. 2
104. 6
72.7
59. 7
46. 3
52. 1
46. 6
41. 8
44. 7
35. 2
40. 1
29. 6
25. 9
30. 6
VALUES
94.3
44. 0
30.9
37.9
23. 1
29. 5
28. 2
26.7
25.9
22. 5
24.9
26.7
23. 1
23.4
20.2
17.8
VALUES
V r»l™. u u_ wJ
27.0
25. 1
27.8
18.8
15.6
19.6
25.8
16.6
CHAN 3
LSI
ppmdry
142.5
137.3
134. 1
139.5
122.6
1 07 . 6
CHAN 4
Bodens
ppmdry
52.0
55.4
60 . 0
58.6
57.3
59.6
FOR THE PREVIOUS 15
130. 1
93.8
79.6
71.2
63. 0
54. 1
50 . 0
52.3
47.0
40. 9
36.0
29.8
28 . 3
26. 1
•~TI c" f-^,
26.5
FOR THE PREV
48.2
26. 4
27.5
28. 6
29.4
30. 6
"TO ^
34. 0
36.2
38. B
42.9
50. 2
53.7
57. 1
61.4
66. 1
FOR THE PREV
41.0
71.9
77. 1
72.8
46.7
39. 1
30.7
18. B
53.9
46.5
6.9
1. 4
-0.2
-0. 3
-0.7
-1.3
-2. 1
f^rr^
\-i.i
\-0. 7
OM- . x-
45. 4
43. 4
IQUS 15
11.2
43.8
44.2
44.3
43. 9
44. 2
44. 1
44.2
43.5
44.0
44.2
44. 4
44.0
43.9
44.3
43.7
TOIW- i "•-
44. 1
i _^- —
43.5
44. 1
44.2
44.2
-0.5
-2.6
-1.4
MINUTES
MINUTES
MINUTES
B-71
-------
GgcJen Martin Systanis - HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodens
06-09-1987
13:53 12.7
13:54 27.0
13«55 18.9
13:56 18.7
13:57 15.4
13:58 13.7
13:59 15.2
14:00 17.8
AVERAGE JyiAtrttESv
14:00 <(" 19.2
^*"— ' '
AVERAGE VALUES
14:00 175.2
14:01 20.6
14:02 23.9
14:03 14.4
14:04 22.6
14:05 20.7
14:06 20.2
14:07 24.2
14:08 2O 9.0
14: 09 34B. 6
14: 10 399. 5
14:11 427. 6
14: 12 448. 6
14:13 462.9
14: 14 464. 9
14: 15 481 . 2
AVERAGE VALUES
14:15 225. 9
14: 16 482.2
14: 17 489. 4
14:18 490. 8
14:19 506. 0
14:20 42P-T-9-N
14:21 P508.5
14s 22 j 508. 4
14:23 / 507. 1
14s 24 )509.6/
14i25 £507.3,'
14s 26 514. 3
14s 27 377.8
14s28 137. 1
14s29 78.2
14s30 75.2
13.2 0.8
9.6 25.7
7.5 45.2
5.4 58.1
3.8 64.0
2.3 67.5
1.3 69.8
0.5 71.1
JrOR THE PREVIOUS 15 MINUTES
P 26.7 38.2
FOR THE LAST HOUR: 60 MINUTES OF VALID DATA
61.5 36.9
0.3 71.7
-0. 1 71.8
-0.5 72.2
-1.0 73.0
-1.6 72.8
-2.4 73^-Z^ / ^Ot^
-2.8 r^fz. b\ ?/'
-2.9 \ 7 4 . 3J ^j
-3.0 77"74
-3.2 45.9
-2.9 34.0
-3. 3 29. 5
-3.5 24.5
—3.5 23.2
-3.6 25.9
FOR THE PREVIOUS 15 MINUTES
-2.3 55.9
1-3.7 I 26.3
1—371 74 S
V " I "
^"3"T4 21.4
f-3.2 21.9
-3.3 22.2
-T 1 ^ ^
-^•. 1 22. 5
"1 —79 ^n ^
J -i^.7 -LVj..^_
3.2 18.2
31.6 17.8
53.0 18.0
66.8 18.3
76.0 16.4
83.9 16.4
89.0 17.5
94.1 17.3
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
14s30 412.2 31.6 19.9
14i31
65. 9
96.7
16.4
B-72
-------
Ogden Martin
CHAN
TECO
TIME DDmwe
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
32
33
34
35
36
37
38
39
40
41
42
43
44
45
AVERAGE
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
15:
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
00
AVERAGE
15:
00
AVERAGE
1 5 : 00
15:
15:
15:
158
15:
15s
15:
15i
158
15s
15s
15s
15:
15s
01
02
03
04
05
06
07
08
09
10
11
12
13
14
62.
50.
42.
41 .
40.
41.
46.
28.
36.
35.
40.
~T ~T
30.
33.
Systems -
1 CHAN
LSI
't pomdr
6
4
8
2
1
2
T,
8
9
0
"T
6
6
0
VALUES FOR
41 .
28.
25.
3 0 .
j'i . •' .
31 .
T ~T
-T-T
35.
22.
JL. jil m
28.
24.
26.
20 .
27.
9
9
-T
7
-T
7
8
8
6
9
^'
4
5
4
6
5
VALUES FOR
28.
•-'
VALUES FOR
177. 1
24.
24.
25.
22.
22.
22.
22.
25.
24.
25.
20.
36.
20.
22.
o
7
6
5
3
0
9
1
5
7
9
6
8
1
1
00.
102.
1 04 .
1
1
1
1
1
1
1
1
1
1
1
05.
06.
06.
07.
04.
18.
19.
22 •
27.
31 .
34.
THE
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
12.
37.
39.
40.
40.
41 .
41.
42.
44.
37.
24.
19.
18.
17.
15.
15.
THE
1
31.
THE
68.
1
1
1
1
1
1
1
15.
16.
18.
19.
20.
21.
19.
95.
70.
56.
48.
41.
35.
29.
HC1
3
Monitoring 06-09-1987
CHAN 4
Bodene
jy oomdrv
0
7
O
0
3
7
0
7
6
9
8
6
5
T
PREV
5
6
6
6
B
1
9
9
0
cr
9
9
5
0
9
3
PREV
B
LAST
4
8
9
1
6
7
1
5
4
9
6
5
3
1
3
1
1
1
1
1
1
1
1
2
1
1
1
1
1
IOUS
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
IOUS
1
5 .
5.
6.
6.
wJ .
5.
6.
9.
0.
8.
6.
7.
9.
8.
1
7.
7.
6.
8.
9.
B.
7.
8.
B.
7.
7.
4.
-T
-7-
4.
4.
1
6.
HOUR:
27.
1
1
1
1
1
1
2
5.
5.
6.
8.
9.
9.
1 .
25.
2
9.
28.
3
1.
34.
T,
6.
33.
9
1
1
0
B
7
2
4
6
8
4
9
1
1
5 MINUTES
2
2
5
4
'y
7
9
0
2
9
1
7
4
4
5
9
5 MINUTES
7
60 MINUTES OF VALID DATA
4
2
4
4
0
0
T;
3
5
0
1
5
9
2
2
B-73
-------
Qgden Mac tin Systems - HC1 Monitoring 06-09-1987
CHAN 1 CHAN 3 CHAN 4
TECQ LSI Bodens
TI ME PJ?_rn we t, p £>in.cir_y_ ppmdry
15:15 21.7 23.6 30.9
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
1
15
15
15
15
15
15
15
15 24. 1 82.2 24.9
16 27.0 20.0 33.8
17 13.5 18.9 41
18 16.8 17.9 43.
19 17.8 16.9 38.6
20 15.7 15.5 35.9
21 14.2 13.2 36.7
22 18.9 11.4 36.7
B-74
-------
SUMMARY OF HC1 MONITORING DATA
RUN: 6A
SOURCE: Ogden Martin Systems - Characterization Test
TEST DATE: 6/10/87
GAS VALUE INITIAL CAL
***TECO (INLET)***
0.0 ppm HC1
490.0 ppm HC1
***LSI (MIDPOINT)***
0.0 ppm HC1
95.0 ppm HC1
***BODEN. (OUTLET)***
0.0 ppm HC1
44.0 ppm HC1
HOUR TIME
1 10:00-11:00
2 11:00 - 12:00
3 12:00 - 13:00
4.3
499.6
0.7
103. 1
0.0
45.5
UNCORRECTED
INLET
(wet)
480.2
533 . 7
591. 6
FINAL CAL
35.3
524.2
-12. B
59-7
-1.0
44.5
RESULTS
MIDPOINT
(dry)
137.9
149.3
***RESULTS CORRECTED FOR CALIBRATION BIAS AND
HOUR TIME
1 10:00 - 11:00
2 11:00 - 12:00
3 12:00 - 13:00
3-HOUR AVERAGE:
Highest 1 Min. Avg.:
Lowest 1 Min. Avg.:
INLET
(dry)
532.4
594.3
661.3
596.0
762.4
460.0
MIDPOINT
(dry)
156.3
168.7
162.5
224.5
115.8
MEAN CAL
19.8
511.9
-6. 1
81.4
-0.5
45.0
OUTLET
(dry)
31.4
53.9
64.5
DRIFT***
OUTLET
(dry)
30.8
52.6
62.9
48.8
106.8
16. 1
NOTE: Inlet concentrations were measured on a wet basis and
corrected to a dry basis using Method 4 results.
Moisture = 13.9 7.
B-75
-------
SUMMARY OF HC1 MONITORING DATA
RUN: 6B
SOURCE: Ogden Martin Systems - Characterization Test
TEST DATE: 6/10/87
GAS VALUE INITIAL CAL
***TECQ (INLET)***
0.0 ppm HC1
490.0 ppm HC1
***LSI
0.0
95.0
(MIDPOINT) ***
ppm HC1
ppm HC1
4.3
499. 6
0.7
103. 1
FINAL CAL
r»c- T
C'wJ • •-'
524.2
-12. B
59-7
MEAN CAL
19. B
511.9
-6.1
81.4
***BODEN. (OUTLET)***
0.0
44.0
HOUR
1
-------
Ggdcen
Martin
CHAN
TECO
Systems -
1
CHAN
LSI
HC1
3
OB: 00
20
2\
21
20
21
20
20
20. 3
20. 1
20.5
20. 3
20.2
20. 1
Monitor ing
CHAN 4
Bodena
06-10-1987
12.
13.
13.
12.
13.
16.
14.
10.
1 .
0.
-0.
-0.
B
T;
0
4
B
AVERAGE VAUJES FOR
08 : 00 -7 Cp& (^4. 3/
THE LAST HOUR: 13 MINUTES
20.6 B.2
OF VALID DATA
OB:
OE3:
08:
08:
OB:
08:
08:
08:
08:
08:
OS:
08:
OB:
08:
01
02
03
04
05
06
07
08
09
10
11
12
13
14
08: 15
AVERAGE
08: 15
08: 16
08: 17
08: 18
081 19
08:20
08:21
08:22
08s 23
08 s 24
08a25
08:26
08:27
08828
08:29
OBs30
4.5 19.8
10.2 19.6
3.8 19-7
B. 3 19.6
2.1 19.6
1.7 19.4
4. 2 19.3
7.0 19.3
3.3 19.2
19.3
19.3
19.3
19. 4
19. 6
19.4
1
8
6
10
96. 2
262. 1
-u.
-1 ,
-1 .
-1.
-1 .
-0,
-1 ,
- 0.
30.
45.
— 0.
0.
7.
8
VALUES
28.7
346. 9
383. 5
406. 0
418.6
435.4
442.8
450. 7
466.0
459.0
469. B
478.2
483.7
481.7
481.9
481.8
FDR THE PREVIGL
19.5
19.
19.
19.
17.
7.
4.
0.
1 .
1.
1.
1.
1 .
1.
1.
1.
6
4
5
0
T,
1
9
0
1
1
0
2
4
4
1
S 15 MINUTES
46. 0
15. 4
56.3
B-77
-------
Ogder, Martin Systems - MCI Monitoring
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodens
TIME
06-10-1937
AVERAGE
08:
OS:
08:
08:
08:
08:
08:
08:
08:
08:
08:
08:
08:
08:
08:
08:
30
31
32
r^3
34
35
36
37
38
39
40
41
42
43
44
45
AVERAGE
08:
08:
08 :
08:
08:
08:
08:
08:
08:
08:
08:
08:
08:
08:
08:
09:
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
00
AVERAGE
09:
00
AVERAGE
09a
09:
09:
09a
09 a
09i
09 a
09 a
09S
09s
00
01
02
03
04
05
06
07
08
09
VALUES FOR THE
445.7 6
/—•^
492.0 0
492.0 0
494.2 0
499.8 O
492.7 (0
493.9 ^~ <->
[500. By^ 0
(497. 3 Wf>*" 0
1500 . 6/ 1
510.4 2
528.7 3
475.3 5
446.3 8
447.3 12
486.3 18
VALUES FOR THE
490.5 3
491.6 24
475. B 32
439. 1 38
440.9 43
467.3 49
481.5 55
502.5 60
515.8 69
547.6 87
549.2 93
555.5 91
640.3 87
662.9 94
641.7 JJJ1_
670.0 |T03"
VALUES FOR THE
538.8 68
VALUES FOR THE
375.9 24
712.2 .IJiZL
722.9 106
774.2 110
809. 1 117
824.2 120
845.8 115
846. 1 105
887.3 100
868. 1 91
PREVIOUS 15 MINUTES
,5 16.2
r^ tffi> 16.3
.8 16.0
.7 15.9
.5 16.3
.6^ 15.9
75 14.7
.8 15.3
.8 17.8
.1 18.8
. 0 19.1
.6 20.0
.4 23.5
.5 23.7
.9 21.4
.7 20.4
PREVIOUS 15 MINUTES
.9 18.3
.4 20.2
. 2 IB. 9
.3 19.7
.8 22.3
. 1 26. 5
.2 28. 4
.7 28.7
.1 31.4
.8 35.7
.4 36.5
.8 36.0
.9 37.5
.8 36.8
.7 36.4
TTjT 38.3
PREVIOUS 15 MINUTES
.9. 30.2
LAST HOURi 60 MINUTES OF VALID DATA
.7 18.9
-O.I 40.6
.2 43.5
.5 49.4
.9 51.9
.5 53 . 0
. 1 51.8
.6 48.8
.6 51.4
.7 50.0
B-78
-------
Ogden Martin S]
CHAN
TECO
1
T J_M E BB m w e t
09:
09:
09:
09:
09:
09:
09:
09:
09:
09:
09:
12
13
14
15
16
17
18
19
20
21
22
943.
903.
846.
8 1 0 .
806.
816.
843.
786.
750.
740.
738.
j-^
X-
6
5
~T
4
*-?
9
4
7
1
6
Systems - HC1 Monitoring
CHAN 3 CHAN 4
LSI Bodena
ppmdry p_ELrn.d_ry
73.6 57.1
69.8 49.9
68.0 43.2
72.0 45.8
06-10-1987
79.
175.
288.
300.
300.
3OO.
1
7
4
0
0
0
3 0 0. 0
51.4
59. 7
65. 1
63.9
63. 2
61. 7
54. 8
B-79
-------
ageism Martin Systems - HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECQ LSI Badsnsi
TJME _p p mwe t pp.m d r .y p.gmd.I
06-10-1987
09s 23
09s 26
09: 27
O 9 • 2 B
O9s 29
v-' f i jL> r
09 : 30
09: 31
0 9:32
09: 33
09: 34
09:35
09: 36
09:37
09: 38
09: 39
09: 40
09 : 4 .1
09: 42
09: 43
09: 44
09: 45
AVERAGE
09: 45
09: 46
09: 47
09; 48
09: 49
09: 50
09 : 5 1
09:52.
09 [53
09:54
09:55
09:56
09 5 57
09: 58
09:59
1 0 : 00
AVERAGE
10:00
AVERAGE
lOiOO
lOtOl
10s02
10:03
10:04
1 0 : 05
10:06
714. 0
708.8
712.2
7 2 <3 . 3
7 3 0 . 6
723.6
711.1
679 . 2
646.5
639. 6
631 .4
597.4
566 . 5
563. 2
635. 9
6] 4.3
594. 1
582. 1
582. 5
556. 2
581 . 1
VALUES
612. 1
596. 5
641 . 6
650. 2
655. 7
690.5
671 .3
700. 6
699. 6
701 . 2
695. 9
731. 4
684.5
636. 1
591 . 1
586.7
VALUES
662.2
VALUES
650. 7
583.5
579. 2
584.9
601.8
592. 2
551. 1
300 . 0
300. 0
300. 0
3OO . (")
3(3(3 . i")
300. 0
300 . 0
3OO. O
300 . 0
300. 0
300. 0
249. 9
184.4
173. 1
167. 0
204. 3
296. 3
3 0 0 . 0
300 . 0
3(30 . 0
3 0 0 . 0
FOR THE PREV
_^' (^j ^i „ tj
300 . 0
3 (3 <3 . 0
300 . 0
300 . 0
300. 0
300 . 0
300. 0
3 0 0 . 0
300. 0
3 (3 <3. 0
3 <30. 0
300. 0
3(3(3 . (3
300. 0
300 . 0
FOR THE PREV
300. 0
FOR THE LAST
285.4
300. 0
300 . 0
300 . 0
300. 0
300. 0
300. 0
61.4
68.5
70. 3
60 . 4
45.6
38. 2
42. 0
46. 1
48. 9
50. 6
49. 1
47.9
48. B
51. 1
53. 1
47. 2
44. 2
47. 6
50. 3
46. 4
40. 6
IOUS 15 MINUTES
47. 6
35. 1
35. 9
36. 7
40. 4
45. 0
48. 9
50. 7
50. 3
54. 1
60. 1
55. 1
41 . 4
36. 6
37. 7
42. 9
IOUS 15 MINUTES
44. 7
HOURi 36 MINUTES OF VALID DATA
48.0
50. 3
53. 6
53.8
51.2
42. 1
33.6
B-80
-------
Qcjden Martin Syotems - HC1 Monitoring t
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodens
TIME Dcmwet oomdrv oomdrv
10i07
10808
10:09
10: 10
10: 11
10: 12
10:13
10:14
1 0 : 1 5
AVERAGE
10: 15
10: 16
1 0 : 1 7
10:18
10: 19
10: 20
1 0 : 2 1
10:22
10:23
10:24
10:25
10: 26
10:27
10: 28
10:29
1 0 : 30
AVERAGE
10:30
10:31
10:32
10:33
10:34
10:35
10:36
10:37
10:38
10:39
10:40
10:41
10:42
10:43
10s44
10i4S
AVERAGE
10i45
10:46
10:47
10s4S
10:49
497.8
493.2
491.4
477.3
471 .9
467.5
465.9
439. 6
467. 7
VALUES
517. 7
473.0
462. 9
458. 0
462. 0
454.4
442. 9
449. 8
417. 6
436.2
449. 4
430.6
470. 2
496. 2
488. 0
469. 1
VALUES
457. 4
485.8
478. 6
484. 2
493.2
476.4
462.3
499-5
499.0
488.9
457.3
465.9
450. 5
442.0
460.9
471 .5
VALUES
474.4
454.3
470.5
474.3
434 . 4
300. 0
300. 0
300. 0
300. 0
300. 0
300. 0
300.0
300. 0
300 . 0
FOR THE PREV
300. 0
300. 0
300. 0
300. 0
300. 0
300. 0
300. 0
3 0 0 . 0
3OO . 0
3 0 0 . 0
300. 0
299. 2
284. 5
289-8
300. 0
300. 0
FOR THE PREV
TIQQ ~>
JL.VD . ^
300. 0
300. 0
300. 0
300. 0
294.4
296. 6
300 . 0
300. 0
299.5
300. 0
300 . 0
296. 1
300. 0
300.0
300.0
FOR THE PREV
299- 1
300.0
300.0
300.0
300. 0
28.5
26.8
25.7
24.7
24.5
25.6
25.5
23.7
24. 0
IQUS 15 MINUTES
34. 2
22. B
21 . 1
20. 7
19. 6
*""* '"-» H
*L jL. . 1
27.0
30. 1
26.8
21 . 8
16. 9
17.3
22. 1
28. 2
32. 9
32.7
IQUS 15 MINUTES
24. 1
29. 9
25. 2
23.7
27. 3
30. 4
32. 4
33.5
30. 1
07 r>
ji. / . *L
25.9
26. 4
28. 2
30.7
36.4
39.3
IOUS 15 MINUTES
29.8
40.6
39.3
33.9
27.3
06-10-1987
B-81
-------
Qgdan Martin Systems - HC1
Ting;
10:50
10:51
10:52
10:53
10:54
10:55
10:56
10:57
10: 5G
10:59
1 1 : 00
AVERAGE
1 1 : 00
AVERAGE
1 1 : 00
11:01
11:02
1 1:03
11:04
1 1 : 05
1 1 : 06
1 1 : 07
11:08
1 1 : 09
11:10
1 1 : 1 .1
11:12
11:13
11:14
11:15
AVERAGE
11:15
11: 16
11:17
11: IS
111 19
11:20
11:21
111 22
Ili23
Ili24
11125
111 26
Hi27
111 28
11:29
Hi30
CHAN 1
TECO
ppmwet,
433 . 2
430. 8
428.5
450.6
456.8
451.5
494. 8
509 . 7
534.5
548.5
497.4
VALUES
471.3
VALUES
480. 2
478. 3
483.5
464.2
48O. 1
474. 1
475. 0
517. 1
505. 4
519.0
537- 2
512.7
507. 0
550. 1
550. 6
515.3
VALUES
504. 6
51 1.5
505.2
537. 0
521.0
502.6
516.0
520.7
485.9
502.9
516. 4
488.9
502.7
466.4
461.7
494.6
CHAN 3
LSI
ppmdry
300.0
296.7
287.5
296. 1
300. 0
300. 0
3OO . 0
298. 9
290. 1
299.5
300. 0
FOR THE PREV
297.9
FOR THE LAST
298.8
300. 0
298.6
270. 3
238. 0
250.6
297. 5
30O. 0
3 f I) 0 . 0
300. 0
3OO . O
300. 0
300. 0
300. 0
300. 0
300. 0
FOR THE PREV
290.3
299.8
262.0
231.3
228.8
226. 2
215.0
206.9
186.6
174.3
151.6
141. 1
147.8
145. B
152.4
150.8
Monitoring 06-10-1987
CHAN 4
Bodens
ppmdry
23.8
30. 2
33.7
38.O
41.9
40. 0
43. 1
49.5
51.4
41.3
29.3
IOUS 15 MINUTES
37. 5
HOUR: 60 MINUTES OF VALID DATA
31. 4
19.8
16.2
IB. 4
28. 1
38. 8
50 . 6
65. 1
72. 2
78.6
86. 7
85. 9
73.3
57.5
36.4
24. 6
IOUS 15 MINUTES
50. 1
27.0
37.3
46.4
48.8
50.9
52.2
46.6
39.9
37.4
38. 4
41.0
44.5
44.2
46.3
47.5
B-82
-------
Oqdan Martin 3y«toma - HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodens
LIME pprnwet _p_pmdry ppmdry
06-10-1987
AVERAGE
11:
Hi
111
11:
30
31
32
33
11:34
11:
11:
11-
11
11
1 1
11
11
11
11
11
35
36
37
38
TO
•~t 7
40
41
42
. 43
•44
.45
AVERAGE
11
11
1 1
1 1
1 1
11
11
1 1
11
1 1
11
11
11
11
11
12
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
00
AVERAGE
12iOO
AVERAGE
12»00
12s
12i
12i
129
12:
12:
12!
12s
12!
01
02
03
04
05
06
07
08
09
• '^-••^ — — •••— - ••>
VALUES FOR
502.
508.
490.
482.
472.
478.
498.
491 .
513.
559.
528.
561.
532 .
508.
534.
545.
2
5
6
4
2
5
1
6
9
1
5
8
ji.
2
8
8
VALUES FOR
513.
519.
539.
580.
571 .
583.
569.
605.
60S.
646.
642.
665.
677.
679.
654.
671.
7
cr
5
9
5
7
7
0
0
6
6
7
1
0
5
9
VALUES FOR
614.
4
VALUES FOR
533.
618.
599.
587.
580.
560.
578.
557.
554.
554.
7
2
5
4
2
2
8
1
2
5
THE
194.
141.
136.
126.
114.
106.
111.
123.
135.
134.
138.
138.
125.
1 14.
1 14.
124.
THE
125.
132.
140.
146.
147.
146.
141 .
133.
125.
143.
163.
178.
175.
166.
155.
155.
THE
150.
THE
190.
153.
168.
175.
174.
179.
184.
156.
141.
142.
PREV
7
7
4
1
9
8
9
4
7
3
0
0
4
7
4
~T
PREV
7
6
0
cr
6
6
1
9
0
0
5
0
•7;
2
4
4
PREV
0
LAST
2
5
7
8
5
9
2
9
3
3
IOUS 1
43.
43.
36.
33.
33 .
39.
46.
47.
52.
58.
51.
46.
42.
45.
56.
56.
IOUS 1
46.
55.
63.
67.
66.
68.
64.
67.
75.
91 .
96.
95.
87.
83.
79.
81 .
IOUS 1
76.
HOURt
53.
84.
95.
105.
109-
102.
85.
70.
68.
69.
5 MINUTES
2
3
9
1
8
6
1
-T
9
7
6
2
-?:
9
0
2
5 MINUTES
0
5
6
6
1
8
7
2
0
1
8
8
1
0
2
5
5 MINUTES
<->
60 MINUTES OF VALID DATA
9
8
1
5
9
8
3
5
4
1
B-83
-------
Ogden Martin Systems - HC1
CHAN 1 CHAN 3
TECO LSI
TIME DDmwet ppmdry
12: 10
12: 11
12s 12
12: 13
12: 14
12: 15
AVERAGE
12 15
12 16
12 17
12 18
12 19
12 20
12 21
12 22
12 23
12 24
12 25
12 26
12 27
12 28
12 29
12 30
AVERAGE
12:30
12:31
12:32
12:33
12:34
12:35
12:36
12:37
12:38
12:39
1 2 : 40
12:41
12:42
12:43
12:44
12:45
AVERAGE
12i45
12i46
12:47
12:43
12:49
12s 50
12:51
12i52
548.9
513.0
538. 0
630.7
640.2
615.2
VALUES FOR
578.4
603. 6
612. 9
609.9
601 . 9
604. 0
593. 4
636. 3
672.3
618.2
593. 1
631 . 0
607- 9
592.7
608. 5
620. 9
VALUES FOR
613.8
613.3
620.0
618.5
636. 0
620. 7
643.2
650.8
608.3
615.0
598.5
594. 1
578.2
600.5
574.4
562.8
VALUES FOR
609.0
533. 1
536. 5
586.3
599.3
573.2
556.3
559.3
139.2
132.7
138.7
155.3
150. 3
148.9
THE PREV
156. 1
151.2
157.4
140. 7
100. 6
1 0 1 . 5
141.5
165. 8
177.3
187.8
200. 7
196.9
191.2
182.6
153.0
125.6
Moni toring
CHAN 4
Bod ens
ppmdry
70.4
79.5
90.0
82.4
63.9
70.4
IOUS 15 MINUTES
83.2
67.0
40.8
26.3
33.4
53. 7
7 '-i '-i
JL, m -L.
94. 1
107. 2
109. 9
109. 9
109. 4
90. 6
62.2
51 . 7
59. 6
THE PREVIOUS 15 MINUTES
158.3
129.9
157.5
175. 1
182.7
179.0
192.4
177.7
144.6
125.2
134.2
174. 1
177.0
142.3
118. 1
137.3
THE PREV
156.5
159.6
149.4
121.0
103.8
117.0
139.6
133.2
72. 5
76.8
92. 6
92.6
98.6
94.8
7 1 . 0
48.0
35. 3
45. 1
61. 2
55.8
40 . 6
36.3
43.9
51.5
IOUS 15 MINUTES
62.9
43.9
33.8
32.5
35. 1
37. 8
39.5
35.9
06-10-1987
B-84
-------
Ogden Martin Systems - HC1 Monitoring 06-10-1987
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodens
TIME
12:53
12:54
12:55
12:56
12:57
12:58
12:59
1 3 : 00
AVERAGE
13:00
AVE
13
1 3
1 "*i
j 3
1 -,!)•
13
1 -i
1 '-'
1 ~r
j. •-•
1 T
J. •— '
1 ^'
1 3
1 "T
1 s.1
13
1 "^
1~-T
•—'
ERAGE
00
01
02
03
04
05
06
07
08
09
10
11
12
13
14
15
AVERAGE
1 3
1 3
13
13
13
13
13
13
13
13
15
16
17
18
19
20
21
22
23
24
13:25
13:26
13»27
13i28
13:29
13:30
AVERAGE
13:30
13:31
_ppmwet pomdry
574.3
588. 4
606. 4
579.0
550 . 8
542.7
542. 4
553 . 3
VALUES FOR
565. 4
VALUES FOR
591 . 6
529. 7
560. 0
536. 3
497. 1
506. 9
538. 4
516.3
507. 9
498. 4
505. 6
538. 6
548. 6
586. 8
560. 0
534.5
VALUES FOR
531.0
577.3
600.9
611.7
584.5
558.6
560. 6
566. 1
598. 1
558.9
547.6
563.8
621.8
598.8
556.5
524.4
VALUES FOR
575.3
529.2
124. 1
110.8
1 06 . 4
125.3
140.2
1 36 . 0
118.6
108.4
THE PREV
126.2
THE LAST
149.3
115.1
127.5
137.4
160. 5
144. 1
1 14.2
1 02 . 8
123. 3
149. 3
153.7
150. 8
130.7
99. 8
78.7
66. 9
THE PREV
123.6
55.8
50. 0
44.3
42.7
36.2
32.3
57.7
91.5
94.6
107.8
124.8
103.3
57.5
33. 8
21.0
THE PREV
63.6
12. 1
ppmdry
33.9
37.5
44.2
46.2
43.3
39.2
41 . 4
47.6
IOUS 15 MINUTES
39.5
HOUR: 60 MINUTES OF VALID DATA
64. 5
55.3
75. 5
74. 4
54. 5
48.3
57.6
69.6
81 .8
90. 0
92. 3
86.6
70. 4
64. 3
62. 4
69. 9
IOUS 15 MINUTES
70. 2
94. 8
1 09 . 3
109. 9
109.8
1 05 . 2
96.9
93. 9
104.9
109.9
109.9
109.9
106.3
81.9
67.0
69.2
IOUS 15 MINUTES
98. 6
84.7
B-85
-------
Ggden Martin Systems - HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodena
TIME oomwet ppjndry pomdry.
13:32
13:33
13:34
13:33
13:36
13:37
13:38
13:39
13: 40
13:41
13:42
13:43
13:44
13:45
AVERAGE
13
13
13
1 3
13
13
13
13
1 3
13
13
13
13
13
13
14
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
00
505.
497.
487.
478.
507 .
480.
478.
466.
468.
475.
454.
463.
512.
495.
7
0
0
0
5
0
5
T,
0
9
-T
B
-T
6
VALUES
486.
458.
448.
434.
524.
533.
486.
435.
431 .
450.
457.
447.
4BB.
493.
473.
507.
6
8
1
7
cr
5
4
9
~T
-T
5
6
7
~7
9
6
•J» •
-0.
-4.
-7.
-11.
-9.
— 71
i— i
"~^i •
__-r
-5.
-5.
0.
10.
20.
FOR THE
-0.
30.
38.
46.
54.
63.
71.
77.
80.
82.
85.
84.
63.
46.
35.
28.
8
7
3
1
0
9
5
7
8
7
7
5
7
PREV
4
1
6
4
~T
7
1
1
"T
6
9
5
5
9
2
T_
96.
98.
96.
82.
75.
74.
80.
80.
79.
78.
73.
72.
75.
75.
IOUS 1
81 .
86.
106.
109.
107.
75.
48.
45.
40.
53 .
79.
1 00.
109.
106.
92.
87.
4
8
2
4
6
9
4
5
8
5
0
1
"^T
1
5 MINUTES
6
4
4
9
4
1
7
6
7
9
4
6
8
8
6
4
06-10-1987
AVERAGE VALUES FOR THE PREVIOUS
14:00 471.5 59.2 8;
15 MINUTES
.4
AVERAGE VALUES FOR THE LAST HOUR: 60 MINUTES OF VALID DATA
14:00 516.1 61.5 83.4
14:01
14:02
14:03
14:04
14:05
14:06
14:07
14:08
14:09
14: 10
14: 11
14: 12
14s 13
14: 14
514.3
472. 1
480.4
481.8
453.4
504.9
530.7
477.2
436.8
425.0
422.6
412.0
411.1
428.2
43.6
67.6
76.6
91.2
98. 1
102.8
94.8
91.9
102.3
119.5
117.4
93. 1
70.2
56.5
76.0
73.3
80.3
86.8
80.9
76.5
70.9
81.7
89.6
59.3
30. B
16.6
19. B
30.6
B-86
-------
Ogden Martin Systems - HC1 Monitor!
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodens
TIME
14:15
AVERAGE
14: 15
14: 16
14:17
14:18
14: 19
14:20
14:21
14:22
14:23
14:24
14:25
14:26
14:27
14: 29
14:29
14:30
AVERAGE
14: 30
14:31
14: 32
14: 33
14:34
14:35
14: 36
14:37
14:38
14:39
14:40
14:41
14: 42
14:43
14:44
14: 45
AVERAGE
14s45
14:46
14i47
14:48
14s49
14850
14«51
14:52
14:53
14:54
14:55
14s56
14«57
.ng (
ppmwet pprndrv pomdrv
459.8
VALUES FOR
460 . 7
439. 6
422. 3
448.7
480. 5
470. 4
441 . 7
438. 2
433.7
430. 1
470.5
466. 6
459. 6
455. 0
442. 5
446. 1
VALUES FOR
449. 7
422. 7
452. 2
508.6
494. 2
438. 5
414. 2
395. 7
381.8
381.5
380. 3
406.8
384. 9
391.9
452.0
389.6
VALUES FOR
419.7
367.2
387.2
451.4
458. B
447.4
519.4
543.9
482.9
436.2
435.5
393. 1
393. 1
74.4 32.8
THE PREVIOUS 15
86.7 60.4
91.4 27. 9
87.4 25.5
78.2 24.4
69.2 24.3
64.5 21.5
63.5 17.3
61.5 17.0
58.0 15.8
59.3 10.8
55.3 13.0
44.6 22.7
83.7 27.4
121.0 24.0
107.3 18. 1
85.6 11.6
THE PREVIOUS 15
75. 4 20. 1
68.3 7.9
55.4 9.8
51.3 14.2
79. 1 20. 9
1 13.7 19.8
110.2 13.8
85.3 12. 1
65.2 17.4
63.7 23.5
81.1 21 .9
84.9 19.5
71.4 22.0
58.6 31.0
60.9 34.5
82. 1 23.7
THE PREVIOUS 15
75.4 19.5
82.9 14.5
62.1 18.4
49.0 27.7
64.8 25.9
90.4 19.6
77.1 24.6
61.1 33.7
80.5 36.2
113.6 27.8
112. 1 17.2
85.7 ll.B
65.3 19.0
MINUTES
MINUTES
MINUTES
06-10-1987
B-87
-------
Ogden Martin Systems -
CHAN 1 CHAN
TECQ LSI
LIME
14i
i 58
14:59
15:00
AVERAGE
15:
:00
AVERAGE
15:
15:
15:
15:
15;
15;
15:
15:
15;
15:
15:
15:
15:
15:
15;
15:
: 00
:01
: 02
:03
: 04
:05
:06
:07
: 08
! 09
: 10
: 11
: 12
: 13
: 14
i 15
AVERAGE
15:
15:
15:
15:
15:
15:
15:
15:
15:
15:
15:
15:
15:
15:
15:
15:
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
AVERAGE
15:
15:
15:
15:
15:
15:
15:
30
31
32
33
34
33
36
HC1
3
ppmwet pomdry
382.5
399.6
406.6
VALUES FOR
433.7
VALUES FOR
440.9
377.0
369. 6
357.5
401 .7
406. 0
368. 3
396. 1
388. 7
358. 1
4 ( J 0 . 1
426. 1
383.9
369- 7
368.6
342. 4
VALUES FDR
380. 9
352.2
325. 4
332.0
362 . 5
346. 1
332.9
356. 5
341.3
311.9
T T-l O
•_'X-J^ . *i
326. 9
300. 3
313.8
312. 1
312.9
VALUES FOR
329.9
327.2
321. 1
395.6
423.5
392.3
356.2
61.
92.
111.
THE
80.
THE
79.
95.
74.
59.
60.
86.
80.
57.
55.
62.
75.
63.
55.
ET *—,
t_Jj_ »
49.
4B.
THE
65.
53.
52.
49.
40.
T "~>
39.
55.
46.
36.
29.
30.
37,.
31.
25.
24.
THE
38.
31.
29.
27.
24.
31.
37.
6
4
5
Monitoring 06-10-1987
CHAN 4
Bodens
ppmdry
31
33
23
PREVIOUS
7
LAST
5
9
9
0
6
C"
o
0
8
4
4
1
9
0
1
c-
U
"^
PREV
1
1
T;
7
8
1
7
3
4
8
7
4
TJ-
0
1
4
PREV
7
4
9
0
4
0
2
24
HOUR
31
14
1 1
20
25
18
12
17
O ~T
l~\ <—i
A_ j^~
20
18
15
14
17
17
IOUS
18
18
15
10
10
14
15
14
1 1
10
11
11
9
8
9
10
IOUS
12
1 1
10
13
14
12
o
.
•
0
5
9
15 MINUTES
"
*
•
•
.
•
„
,
t
f
f
•
,
m
m
m
•
•
3
60 MINUTES OF VALID DATA
1
1
9
6
5
7
5
-T
5
5
5
0
cr-
i~J
9
J.J
8
15 MINUTES
•
m
•
.
.
.
.
.
•
•
•
•
1
•
•
•
.
0
7
4
6
9
7
5
T"
^>
1
1
7
T;
7
9
9
5 MINUTES
2
4
2
^
^_
5
6
6
B-E
-------
Ogden Martin
CHAN
TECO
TIME
15:37
15:38
15:39
15:40
15:41
15:42
15:43
15:44
15: 45
AVERAGE
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
16
AVE
16
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
00
::RAGE
00
AVERAGE
16:00
16:01
16:02
16:03
16:04
16:05
16:06
16107
16:08
16i09
16: 10
16: 11
16: 12
16: 13
16: 14
16: 15
Systems -
1 CHAN
LSI
HC1
3
ppmwet. Dpmdry
365.
359.
360.
354.
349.
346.
338.
393.
386.
2
7
6
4
T
Tj
6
8
1
VALUES FOR
364.
343.
352.
383.
376.
354.
353 .
339.
341 .
339.
325.
328.
325.
344.
330 .
338.
7
9
7
7
2
5
6
6
1
8
0
~z
7
8
0
9
VALUES FOR
345.
2
VALUES FOR
355.2
334.
324.
333.
342.
329.
320.
317.
342.
315.
316.
299.
306.
321.
328.
331.
9
8
8
1
6
6
4
6
9
0
2
1
1
2
3
32
29
40
43
36
30
"SjTj
42
40
THE
34
33
39
46
40
33
31
38
37
31
29
36
3', 5
28
jL- ^
26
THE
34
THE
43
28
28
27
.hi j^.
19
20
24
22
16
15
24
23
17
13
18
•
•
„
m
m
•
m
m
•
•
„
m
m
B
•
B
B
•
m
m
.
,
.
•
•
m
.
.
•
»
m
•
,
„
,.
B
„
•
„
•
5
.*_
6
6
4
6
9
5
5
PREV
1
7
4
5
0
4
4
4
4
0
0
cr^
8
8
1
1
PREV
0
LAST
0
4
B
o
1
4
6
9
7
0
0
2
B
3
9
T;
Monitoring 06-10-1987
CHAN 4
Bodena
ppmdrv
l
1
1
1
1
1
1
1
1
IOUS
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
IOUS
1
1
4
5
1
1
T,
4
2
1
2
3
4
2
0
1
2
0
9
1
2
1
0
1
1
1
1
HOUR
13
1
1
2
0
9
9
10
10
B
7
B
9
B
7
8
9
8
.6
.4
. 1
. 6
3
.6
. B
.2
. 4
15 MINUTES
.5
_2
. 1
. 9
.7
. 2
-^
. — i
T;
. 4
. 5
. 6
. 4
. 6
. 0
. 4
. 9
15 MINUTES
.6
: 60 MINUTES OF VALID DATA
.6
. 1
.5
. 6
.8
.8
.7
. 1
.8
.9
.5
. 0
.3
.6
.5
.9
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
16:15 324.2 21.5 9.3
B-89
-------
Ogden Martin Systems - HC1
CHAN 1 CHAN 3
TECO LSI
TIME oomwet oomdry
16
16
16
16
16
16
16
16
16
16
16
16
16
16
16
E
•
•
•
•
•
•
•
•
•
•
*
•
J
•
•
•
•
•
•
•
•
t
16
17
18
19
20
21
22
23
2.4
25
26
27
28
29
30
334.
318.
332.
353.
320.
316.
323.
316.
322.
353.
345.
343.
374.
360 .
359.
5
6
8
4
-T
0
7
1
0
TJ
8
6
T
jL
O
20.
16.
13.
12.
18.
21.
19.
17.
22.
24.
19.
^TI
31 .
9
6
2
1
7
o
2
2
4
8
5
4
1
Monitoring
CHAN 4
Bodens
ppmdry
1
1
1
1
1
7.
6.
7.
7.
7.
7.
9.
0.
9.
1.
4.
7-
8.
32.3 20.
31-
9
2
"^
9
8
T
•-'
6
8
5
4
5
8
r-p
7
1
6
1
"T
06-10-1987
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
16:30 338.3 21.6 12.0
16
16
16
16
16
16
16
16
16
16
16
16
16
16
16
•
:
:
:
:
i
•
•
•
:
•
•
•
•
•
•
31
32
I7, ;"'
34
35
36
37
38
39
40
41
42
43
44
45
"T
"TV
4
79.
76.
1 1 .
6
1
6
463.3
4
~\
10.
59.
354.
~T
T;
-T
~T
"T
"^
~7]
Tj
47.
54.
98.
64.
47.
65.
T nr
OwJ .
24.
d)
1
cr
i_J
8
0
7
~Tf
nr
_l
9
8
7
34.
42.
51 .
52.
48.
44.
"TO
i— ,-T
ji. •—' •
34.
47.
41.
33.
31.
38.
37.
5
9
1
6
1
9
7
0
9
0
2
7
4
1
8
/->
X.
2
<— 1
jL.
•—,
,i_
1
1
1
1
7.
8.
8.
4.
6.
0 .
1 .
5.
17.
1
1
1
1
1
1
5.
o
4.
6.
T;
1 .
o
l~l
J^
4
8
1
5
0
7
9
7
8
0
6
6
4
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
16:45 372.9 39.6 17.6
16:
16:
16:
16:
16:
16:
16:
16:
16:
16:
16:
16:
16:
16:
17:
46
47
48
49
50
51
52
53
54
55
56
57
58
59
00
"TOT
326.
331.
370.
381.
347.
329.
343.
394.
490.
446.
457.
429.
408.
498.
5
4
5
9
8
6
0
5
3
9
8
0
4
6
0
30.
26.
34.
32.
23.
25.
37.
34.
24.
18.
26.
36.
32.
38.
61.
4
1
5
4
8
4
9
8
8
9
0
2
1
T;
0
14.
14.
12.
13.
16.
14.
11.
9.
1 "~>
1 it- •
-J2i*
24.
95.
109.
72.
31.
0
8
4
TT
1
8
1
4
8
*-i
A.
9
7
5
6
B-90
-------
Qgden Martin Systems •- HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECO L3I Bodens
LLME pptnwet ppmdry ppmdry
06-10-1987
AVERAGE VALUES FOR
17:00 391.9
AVERAGE VALUES FOR
17:00 356.8
17:01 616.3
17:02 687.1
17:03 666.3
17:04 673.2
17:05 636.2
17:06 561.4
17s 07 592.3
17:08 542.0
17:09 477.6
17:10 433. 7
17: 11 385.7
17: 12 464.6
17: 13 515. 9
17: 14 471 . 6
17:15 435.2
AVERAGE VALUES FOR
17:15 543.9
17: 16 439. 6
17:17 407. 8
17: 18 389. 1
17:19 417.0
17:20 451.7
17:21 406.2
17:22 431.3
17:23 470.2
17:24 433.5
17:25 472.7
17:26 446.5
17:27 420.5
17:28 395.7
17:29 418.2
17:30 381.2
AVERAGE VALUES FOR
17s 30 425.4
17s31 355.9
17i32 349.1
17i33 396.7
17:34 352.1
17:35 355.1
17:36 366.7
17s37 433.9
17s 38 603.8
17:39 650.7
THE PREVIOUS 15 MINUTES
32.2 31.6
THE LAST
28.7
58.6
49-7
44.3
52.6
81.3
90.8
~7 "~> f~^
/ JL. • *L.
CT ET T
^j ^j . •_:•
72.8
80. 2
67.5
52.4
43.9
54. 3
60. 0
THE PREVI
62.4
48. 8
41.2
64.2
69-7
56.8
46.6
45.2
40. 6
30. 9
3 1 . 0
59. 1
61.2
47.4
34.9
46.3
THE PREVI
48.3
57-5
49.2
38.6
36. 1
44.4
37.6
28.8
36.6
47.4
HOUR: 60 MINUTES OF VALID DATA
17.6
16.5
8.5
10.0
1 2 . 0
10.5
8.7
8.9
9.3
8.9
7.8
6. 4
7.7
9. 1
8.3
6. 1
OUS 15 MINUTES
9. 3
6. 7
8. 9
8. 7
8.8
8. 6
8. 4
6. 8
5. 8
6. 6
9.0
8. 4
6. 6
7.5
11.8
12. 4
OUS 15 MINUTES
8.3
10.4
10.8
13.4
13.7
37-8
79. 1
72.3
53. 1
34.9
B-91
-------
Ogden Martin Systems - HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodens
06-10-1987
TIME comwet japmdry..
17:40
17:41
17:42
17:43
17:44
17:43
AVERAGE
17:43
17:46
17:47
17:48
17:49
1 7 : 50
17:51
17:52
17:53
17:54
17:55
17:56
17:57
17:58
17:59
18:00
AVERAGE
18: 00
AVERAGE
18:00
18:01
18:02
18:03
18:04
18:05
18:06
18:07
18:08
18:09
18:10
18: 11
18: 12
18: 13
18: 14
18: 15
AVERAGE
IB: 15
IB: 16
18: 17
18: 18
547.5
518. 1
577.0
625.5
664. 9
667.5
VALUES FOR
497.6
651.2
654.8
650.6
604. 4
512.6
533. 7
383. B
305. 6
272.4
255.5
227. B
216.0
209. 1
198. 2
177.7
VALUES FOR
390. 2
VALUES FOR
464.3
184. 1
172. 1
166.6
245. 1
156.6
96.5
73.9
65.7
52.7
53.4
49.8
52.5
44.8
39. 0
oo • o
VALUES FOR
99.4
40.5
36.8
34.8
53.
53.
51.
50.
52.
58.
THE
46.
66.
70.
63.
56.
49.
44.
41 .
37.
35.
-79
29.
27 .
24.
TJT;
23.
THE
41 .
THE
49.
19.
16.
1 3.
11.
10.
9.
16.
29.
•l'»O •
38.
42.
45.
43.
27.
18.
THE
25.
13.
9.
7.
8
9
6
7
1
T(
PREV
5
3
5
5
6
7
6
T(
7
1
0
i
0
7
9
7
PREV
7
LAST
7
ry
1
2
0
4
5
6
9
0
8
0
B
1
3
9
_BJ2.mdry.
16
9
42
74
76
77
IOUS
41
67
58
52
34
16
10
10
45
56
-0
1
14
46
41
41
IOUS
•-' •-'
HOUR
23
43
46
58
16
5
4
5
6
5
5
6
6
6
B
8
PREVIOUS
2
6
8
4
15
-5
-16
0
.
•
.
•
.
•
1
•
•
,
.
.
.
•
.
•
.
•
•
.
,
.
•
1
•
f
•
m
m
m
m
m
.
•
.
.
•
•
.
.
•
9
8
1
1
9
4
5 MINUTES
5
6
7
4
/-,
jL.
5
T
4
0
6
9
1
8
0
4
8
5 MINUTES
1
60 MINUTES OF VALID DATA
0
5
7
T*
2
1
B
1
4
9
7
1
2
0
1
4
15 MINUTES
•
*
5
9
4
9
B-92
-------
Ogdon Martin System® - HC1 Monitoring i
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodens
TIME Dpmwet. ppmdrv oomdrv
18: 19
18:20
18:21
18:22
18:23
18:24
18:25
18:26
18:27
18: 28
18:29
.1 8 : 30
AVERAGE
18:30
18:31
18:32
18:33
18:34
18:35
18:36
18:37
18:38
18: 39
18: 40
18: 41
18: 42
18:43
18: 44
18:45
AVERAGE
18:45
18:46
18: 47
18:48
18:49
18:50
18:51
18:52
18:53
18:54
18:55
18:56
18:57
18:58
18J59
19:00
37.4
39. 8
33 . 7
32. 2
37.4
3 1 . 0
36. 8
36.6
31.7
37. 9
30. 3
32. 9
VALUES- FOR
Q^zJ
26. 4
26. 7
72. 9
272.9
363. 3
416. 8
444.2
453. 7
471 . B
486. 4
4B2. 6
48B. 3
494. 6
502.7
503. 0
VALUES FOR
367. 1
501 - 0
499.8
499.2
508. 4
510.3
510.7
515. 9
514.5
515. 6
517.7
518.9
515. 1
530.7
515.3
520. 1
4. 2
1 .7
0. 1
-1.3
-3.5
-4.8
-5.9
-6.9
-7.7
-8. 6
-9. 6
THE P
-0. 9
-10.2
-11.2
-1 1 .8
-12.2
-1 1 . B
~ 1 '"•' 7
-12. 3
-12.5
-12.5
-12.6
- 1 2 . B
-12. B
-12.9
-13.6
-11.8
10.2
45.8
S -i . i )
^1 . 0|
-5.9
41. 1
45. 0
44. 1
44. 1
44. 1
REVIQUS 15 MINUTES
21 . 4
44. 5
44. 7
44. 4
44. 4
44. 7
44. 2
44. 2
44. 5
44. 5
44. 4
44. B
44. 9
44. 7
43. 9
44. 2
THE PREVIOUS 15 MINUTES
-12.2
-12. 9
-9.5
1.3
10. 4
16.6
20. 4
23.5
27.2
31.0
31.9
34.3
36.6
38. 3
39.6
41.2
44.5
50 . B
1 . 8
-0. 8
-0. 9
-0. 1
-0. 5
-0.5
-0. 7
-1. 1
-0.9
-1.3
-1.0
-1.0
-1.5
-1.7
06-10-1987
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
19:00 512.9 22.0 2.7
B-93
-------
Ogden Martin Systems - HC1
CHAN 1 CHAN 3
TECO LSI
T.IMJE ____ fflwe.t _________ _ppjndr.y.
Monitoring
CHAN 4
Bodens
06-10-1987
AVERAGE VALUES
19: 00
19:01
19:02
19:03
19:04
19:05
19:06
19:07
19:08
19:09
1 9 : 1 0
1 9 : 1 1
19: 12
19:13
19:14
19:15
253. 7
524. 1
,523. 2
(5S5..2*
536. 0
414.7
164. 9
119. 9
1 02 . 8
87.7
75.5
69.5
68.3
68.0
67. 5
57.8
AVERAGE VALUES
19:15
19: 16
19: 17
19: 18
19: 19
19:20
19:21
19:22
19:23
19: 24
19: 25
19: 26
19: 27
19:28
19:29
19:30
227- 0
56. 0
49. 9
47. 5
47. 4
55.5
50. 1
44. 6
48. 4
45. 6
50. 6
48.2
42. 3
42. 4
44.5
42.0
AVERAGE VALUES
19:30
19:31
19:32
19:33
19:34
19i35
19s 36
19i37
19:38
47.7
41.9
39.4
43.0
43.7
45.5
37.7
34.0
38.0
FOR THE LAST HOUR: 60 MINUTES OF VALID DATA
8.5
42.6
I 44.0
45.7
47. 1
48.0
48.6
49. 8
50 . 9
52. 2
53.2
53.8
54.6
56. 0
56.8
57.8
FOR THE PREV
50. 7
58.8
59.6
60. 4
61 . 2
62. 1
62.9
64.0
64..2
65. 0
66.8
68.2
75.7
69.3
68. 7
65.7
FOR THE PREV
64.8
57. 1
58.7
59. 1
59. 1
59.6
59.7
59.7
59.5
21.0
-1.0
0. 7
19. 1
32. 5
37. 2
4 1 . 0
44.6
43.2
41.2
46. 2
49.2
48. 1
47. 9
43. 1
42. 6
IOUS 15 MINUTES
35. 7
44. 3
45. 6
52. 3
61 .2
64. 9
63. 5
72. 5
81 . 8
91 .8
98. 8
104. 8
96. 3
91 .9
95. 6
98. 1
IOUS 15 MINUTES
77.6
97. 6
87. 4
84. 9
83.0
70. 1
66.9
71 . 4
68.9
B-94
-------
SUMMARY OF HC1 MONITORING DATA
RUN: 7A
SOURCE: Ogden Martin Systems - Characterisation Test
TEST DATE: 6/11/87
GAS VALUE INITIAL CAL
***TECO (INLET)***
0.0 ppm HC1
490.0 ppm HC1
***LSI (MIDPOINT)***
0.0 ppm HC1
95.0 ppm HC1
***BODEN. (OUTLET)***
0.0 ppm HC1
44.0 ppm HC1
HOUR TIME
1 14:00 - 15:00
2 15:00 - 16:00
3 16:00 - 17:00
-0. 1
467.0
0.0
91.0
-0.4
43. 8
UNCORRECTED
INLET
(wet)
495.2
605.5
558. 0
FINAL CAL
41.8
540.2
6. 6
88.0
1.5
47.6
RESULTS
MIDPOINT
(dry)
160.0
158. 1
170.4
***RESULTS CORRECTED FOR CALIBRATION BIAS AND
HOUR TIME
1 14:00 - 15:00
2 15:00 - 16:00
3 16:00 - 17:00
3-HOUR AVERAGE:
Highest 1 Min. Avg.:
Lowest 1 Min. Avg.:
INLET
(dry)
561.8
692.5 '
636 . 2
630 . 2
860.2
449.5
MIDPOINT
(dry)
172.7
170.6
184.2
175.8
253.3
50.5
MEAN CAL
20.9
503.6
3.3
89.5
0.6
45.7
OUTLET
(dry)
71.0
30.2
53.0
DRIFT***
OUTLET
(dry)
68.7
28.9
51. 1
49.6
106.6
6.B
NOTE: Inlet concentrations were measured on a wet basis and
corrected to a dry basis using Method 4 results.
Moisture = 14.3 7.
B-95
-------
Ogden
TIME
10:43
10:44
10:45
10:46
10:47
10:48
10:49
1 0 : 50
10:51
10:52
10:53
10:54
10:55
10:56
10:57
1 0 : 58
10:59
1 1 : 00
Martin Systems - HC1
CHAN 1 CHAN 3
TECO
57.4
56.6
8. 1
16. 4
8.9
1 0 . 0
5.4
14. 8
-T ~T
10.5
7. 0
4.0
15.5
T ~T
7.0
2. 7
-1 . 9
-0. 1
LSI
-0.3
-0.7
0. 3
0 . 3
0 . 3
0.7
0. 6
0.4
0. 5
0 . 5
0. 3
0.2
- 0 . 0
— 0 . 3
-0.4
0. 1
0 . 2
0. 4
Monitoring 06-11-1987
CHAN 4
Bodensi
55. 1
75.3
2 1 . 0
-0.8
-1.6
9.2
44.3
44.6
44.3
45.0
50. 3
7.9
-0. 0
-0.2
-0.8
-1 . 6
-1.0
-0. 5
AVERAGE VALUES FOR THE LAST HOUR: 18 MINUTES OF VALID DATA
11 00
12.3
0.2
1.7
1 1
11
11
11
1 1
li
11
11
1 1
11
11
11
11
11
1 1
01
02
03
04
05
06
07
08
09
10
11
12
13
14
15
-2.8
-2. 4
-1. 1
-8. 4
-0. 9
-11.1
4. 4
-2. 5
7. 0
-3.5
2. 1
4.7
8.9
1.2
/v Ti
0.5
0.4
0 . 2
-0.6
— 0 . 0 L
-0.2
-0. 0 ^
foTV
i-O.l;
1 0. ij
/ 0 . 0 i
i-0. 1 r
\-p_._lj
"0.3 <•
-0.5 i
-0. 8
-0. 7
-0. 3
-0. 7
17. 1
!vLi3
^T^b]
-0. 5
-0.2\
-0. 3
-o.o(
-_0_. BJ
-4. 5
12.9
15.0
AVERAGE
11:15
THfr-Pt
-------
Ogden Martin Systems -
CHAN 1
TECO
CHAN
LSI
HC1
•^
Monitoring 06-11-1987
CHAN
4
Bodens
TIME pprnwet pcmdrv
11:
29
1 1 : 30
466. 6
466.0
AVERAGE VALUES
1 1 : 30
11:31
11:
1 1:
1 1
11
11
11
1 1
11
1 1
1 1
11
1 1
32
""^"TJ
34
35
36
37
38
39
40
41
42
43
1 1 : 44
11
, 45
382. 9
465.5
469. 7
467.8
464. 9
464. 6
467.0
rr \—f »
/466. 6^
483"; 5
639. 9
605. 6
576. 5
568. 7
562.2
568. 7
AVERAGE VALUES
11
11
1 1
1 1
1 1
11
1 1
1 1
1 1
11
11
11
1 1
11
11
12
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
00
515. 9
586. 8
556. 4
520. 8
510.8
485. 6
497.2
494. 9
510.7
490. 6
481 . 9
485. 4
457.2
431 .0
431. 6
425. 4
AVERAGE VALUES
12:00
491. 1
AVERAGE VALUES
12:00 347.4
12:
12:
12:
12:
12:
12:
12:
01
02
03
04
05
06
07
416.6
422.7
421.4
381. 1
388.5
374 . 2
378. 1
64.
68.
FOR THE
35.
71.
\ 73.
1 75.
78.
78.
80.
\ 82.
) 83.
85.
87.
87.
88.
89.
89.
89.
FOR THE
82.
. jyO^
'VTT
191 .
(J?l .
91 .
92.
93.
94.
86.
63.
49.
39.
35.
•— ' jL. m
29.
FOR THE
71.
FOR THE
47.
25.
25.
22.
21.
17-
13.
13.
9
5
PREV
4
6
0
0
6
9
6
T
4
5
8
9
8
o
5
8
PREV
8
4
7T\
2 j
"9
8
^
0
5
4
7
1
1
9
?,
PREV
5
LAST
4
9
-*r
5
3
6
4
1
ppmdr v
42
42
IOUS
44
35
-6
_7r
61
4
-1
_o
.£_
64
55
/^O
Vl-L
48
45
44
43
IOUS
25
43
44
44
44
43
44
43
42
44
43
44
43
43
43
43
IOUS
/ 43
HOUR
30
44
0
32
51
43
43
52
.7
.8
15 MINUTES
. 0
. 8
.6
-T
f—t
.7
.6
. 4
.9
T
Tii
_y
.6
.6
. 0
. 8
15 MINUTES
. 5
. 9
~T
. 0
. 6
. 9
. 0
. 4
. 9
. 0
. 6
. 0
. 4
. 7
. 7
. 1
15 MINUTES
.8
: 60 MINUTES OF VALID DATA
. 9
. 4
JT
. 1
. 0
-r
• •-.*
T
• •—'
. 1
B-97
-------
Ogden Martin Systems - HC1
TIME
12 08
12 09
12 10
12 1 1
12 12
12 13
12 14
12 15
AVERAGE
12:15
12: 16
12:17
12: 18
12:19
12:20
12:21
1 2: 2.2
12:23
12: 24
12:25
12:26
12:27
12: 2.8
12: 29
12: 30
AVERAGE
12: 30
12:31
12:32
12: 33
12:34
12: 35
12:36
12:37
12:38
12:39
1 2 : 40
12:41
12:4.2
12:43
12:44
12:43
AVERAGE
12:45
12:46
12:47
12:48
12:49
12:50
CHAN 1
TECO
CHAN 3
LSI
_EP_nMti. P-RQ) dry
402. 7
409. 9
457.8
491 . 3
460. 3
447.5
454.5
416. 1
VALUES
421 . 5
388. 9
392. 1
374. 9
400. 8
458.2
455. 3
468.3
463.3
427. 9
405. 6
392. 4
360. 4
370. 8
438. 0
459. 9
VALUES
417. 1
445.5
449.5
429. 2
357. 8
368.3
391. 3
363.6
366. 7
415. 9
412. 0
371.9
379.5
404. 9
394.3
415. 1
VALUES
397.7
40 1 . 5
373.7
369.7
378.6
397 . 8
12.6
9.0
9- 1
9. 2
B. 7
7 . 8
6. 0
5.9
FOR THE PREV
13.8
4.8
4. 9
4.8
3. B
3. . 7
3. 6
2. 7
2. 6
3. 4
3. 9
3. 6
2. 5
2. 9
1 .8
1 .2
FC3R THE PREV
T T
1 .7
1 . 3
1 . 4
1 . 9
jl • ji.'
2.4
1.9
1 . 3
1 . 1
0. 9
0.6
0.7
1 . 1
1 . B
2.0
Moni tori ng
CHAN 4
Boderis
ppmdry
63. 1
70. 0
79.2
79. 9
69. 1
60. 1
58. 2
59.5
IOLIS 15
53. 7
69. 3
82. 7
74. 1
56. 6
49. B
50 . 5
60. 5
72. 1
77.5
80. 0
82. 0
74.6
68. 6
70. 4
70. 1
IOLIS 15
69. 2
63. 5
64. 9
68. 4
69. 2
71.0
76. 4
81 . 1
81.2
91.3
88.6
73.0
63.9
63 . 0
58.5
58. 4
FOR THE PREVIOUS 15
1.5
1.6
1.2
1.7
2.0
i.s
71.5
58.8
57. 1
57-3
61.6
63.7
MINUTES
MINUTES
MINUTES
06-11-1987
B-98
-------
Ogden Martin Systems -
CHAN 1 CHAN
TECO LSI
TIME comwet DDmdr
12
12
12
12
12
12
12
12
12
13
AV
1 "^
AVf
13
1 3
1 3
13
13
13
13
13
13
13
13
13
13
13
13
13
AV
13
13
13
13
13
13
13
13
13
51
52
53
54
55
56
57
58
59
00
£RAGE
00
^RAGE
00
ol
o2
c )~^
04
05
06
07
08
09
10
13.
12
13
14
15
IRAGE
15
16
17
18
19
20
21
22
23
13:24
13:25
13:26
13:27
13:25
13:29
13:30
422.3
458.6
455. 1
469.8
500. 4
462. 1
487. 9
499. 7
473. 4
489. 5
VALUES FOR
442. 7
VALUES FOR
419.7
449. 4
450. 6
445. 1
433. 3
449. 1
455. 3
462. 2
527. 0
541 . 2
517.2
458. 2
423. 9
396. 9
392. 7
405. 4
VALUES FOR
453.8
425. 8
461. 4
446. 3
448. 5
462.7
438.7
460.0
474.5
444.2
413.0
422.6
406.2
414.0
458.3
475. 1
<->
1 .
1 .
1 .
0.
0.
0.
0.
0.
0 .
THE
1 .
THE
5.
0.
0 .
0 .
— 0 .
-0.
_ -1
-0.
- 0 .
-1.
~~ Jil m
-3.
-iL. •
_ o
-1 .
-0.
THE
1 •
-0.
0.
(I).
0 .
0.
0.
0.
0.
0.
0.
10.
36.
48.
54.
61.
HC1 Monitoring 06-11-1987
3 CHAN 4
Bodens
X ppmdry
1
8
5
0
7
4
4
6
6
5
PREVI
o
LAST
0
7
6
7
"T
7
1
7
7
~T
~T
o
8
4
'—i
X_
6
PREVI
0
o
7
7
8
7
8
7
5
2
6
7
0
5
8
6
59.7
52.5
48. 7
50. 6
60. 6
63. 8
64.2
66. 4
61 .2
56. 1
OUS 15 MINUTES
58.8
HOUR: 60 MINUTES OF VALID DATA
63. 3
49. 1
47. 4
52. 9
57. 3
60. 7
59. 4
55. 7
54. B
47. 4
43.5
42. 3
42. 5
46. 2
52. 3
58.2
OUS 15 MINUTES
51.3
62.7
62.2
55.2
47. 9
41 . B
38. 6
46.2
52.8
51.8
47.0
45.2
41.9
41.2
45. 4
48.3
B-99
-------
Ogden Martin Systems - HC1 Monitoring 06-11-1987
CHAN 1 CHAN 3 CHAN 4
TECQ LSI Bodens
I I_ME ELE.rnwe_t _P_PJ]i dry, ppmdry
AVERAGE VALUES FDR THE PREVIOUS 15 MINUTES
13s30 443.4 14.5 48.5
13
13
13
13
13
13
13
31 459.1 69.9 49.1
32 42B.1 82.5 43.1
33 396.1 89.1 38.7
34 384.7 84.9 36.8
35 394.6 81.5 42.8
36 409. 4 82. 1 52. 7
37 432.6 89.5 59.4
B-100
-------
Ogden Martin Systems - HC1 Monitoring 06-11-1987
CHAN 1 CHAN 3 CHAN 4
TECQ LSI Bodens
TIME opmwet oomdrv oomdrv
1
1
3:
3 1
13:
1
3:
13:
13:
1
1
1
1
1
1
1
1
1
1
1
3:
3
3
•^
T
3
3
3
3
3
4
44
45
46
47
43
49
50
51
52
53
54
55
56
57
58
59
00
AVERAGE
14: 00
1
1
1
1
i
1
1
1
1
1
1
1
1
4:
4:
4:
4:
4:
4:
4:
4:
4:
4:
4:
4:
4:
14:
1
4:
01
02
03
04
05
06
07
08
09
10
11
12
13
14
15
438.
451.
454.
435.
425.
415.
453.
453.
433.
433.
430.
457.
456.
452.
471.
445.
433.
7
0
1
9
|T
9
1
T;
8
9
9
5
4
7
9
9
1
VALUES FOR
443.7
447.
456.
497.
491 .
450.
438.
435.
413.
420.
483.
499.
474.
442.
451 .
465.
6
•Tj
1
4
6
7
7
5
Tj
9
6
9
1
0
8
1 05 .
1
1
1
1
1
1
1
1
1
1
1
1
1
16.
26.
36.
48.
60.
49.
SJ'O •
"TT
32.
34.
38.
44.
51.
156.
159.
1
62.
THE
140.
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
63.
61 .
62.
63.
66.
65 .
58.
50.
50.
51.
49.
50.
57.
56.
49.
0
2
5
2
7
5
4
6
-T
6
4
1
3
7
6
1
9
LAST
8
9
6
0
4
cr
9
1
5
T
5
4
8
7
2
8
56.
66.
78.
83.
81 .
75.
72.
71.
70.
72.
76.
83.
87.
87.
88.
89.
84.
HOUR:
78.
84.
83.
85.
83.
73.
66.
64.
68.
73.
80.
84.
74.
63.
60.
58.
8
5
1
T,
7
8
9
7
9
2
7
9
8
2
1
5
4
17 MINUTES OF VALID DATA
1
4
6
5
-7
cr
8
"T
0
o
B
8
6
5
T;
0
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
14:15 457.9 157.2 73.6
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
16
17
18
19
20
21
22
23
24
23
26
27
28
29
438.
434.
411.
414.
425.
400.
421 .
438.
434.
429.
455.
449.
436.
452.
6
6
8
T
2
4
1
6
7
9
8
4
3
4
1
1
1
46.
45.
47.
150.
1
1
1
51.
51.
50.
145.
1
1
1
1
1
1
41.
44.
47.
35.
23.
20.
5
6
0
0
5
5
Tj
2
8
0
7
8
1
1
55 .
59.
62.
62.
64.
61.
60 1
62.
61.
55.
46.
42.
41.
46.
4
3
9
9
2
*"?
4-
1
0
9
1
6
2
7
2
B-101
-------
Ogden Martin Systems - HC1 Monitoring 06-11-1987
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodeno
TIME ppmwet. _ppmdr.y____ pprndry
14:30
AVERAGE
14s 30
14:31
14:32
14:33
14:34
14:35
14:36
14:37
14:38
14:39
14:40
14:41
14: 42
14:43
14:44
14:45
AVERAGE
14:45
14: 46
14: 47
14: 48
14:49
14: 50
14:51
14:52
14:53
14:54
14:55
14:56
14:57
14:58
14:59
1 5 : 00
AVERAGE
15:00
AVERAGE
15:00
IStOl
15i02
15i03
15:04
15:05
15:06
15:07
15:08
484.2
VALUES FOR
435.2
498. 4
467. 2
459.6
456. 2
450. 6
472. 3
502. 1
496.9
482. 4
500. 8
476.5
473. 6
509. 0
502. 8
496. 1
VALUES FOR
483. 0
540. 2
567. 1
547. 1
520. 5
541.9
621 . 1
664.3
647. 4
672. 9
646.6
622. 3
632. 3
596.6
596. 7
657.2
VALUES FOR
605. 0
VALUES FOR
495.2
643.3
602.3
578.5
593.8
596.7
600 . 9
619.7
609.9
127.9
THE PREV
141.9
133.4
141.7
149.9
146.7
137.4
133.4
137.3
145.7
156. 2
161 .8
159.0
157.6
153.6
1 50 . 9
155. 3
THE PREV
148. 0
159. 0
160. 7
167. 4
175. 1
180. 5
177. 7
176. 0
183. 3
194. 5
206. 4
217.9
224.0
224.3
224.7
220.9
55.4
IOUS 15 MINUTES
55.8
61.6
57.2
50. 4
48. 9
51.7
59. 1
68.3
68.6
63.9
64.6
64. 8
65. 2
68. 1
65. 9
65. 8
IOUS 15 MINUTES
61 . 6
74. 2
87. 1
87. 4
82. 3
81 . 4
85. 7
81 .4
82. 4
92. 5
97. 5__
103. 8
109. 6
1 09 . 9
109.9
109. 9
THE PREVIOUS 15 MINUTES
192. 8
THE LAST
160. 0
219.2
222. 1
220. 1
193.9
167.5
150.5
134. 1
118.6
93. 0
HOUR: 60 MINUTES OF VALID DATA
71.0
109-9 X
105.7
78.3
50. 1
31.7
22.9
20. 1 ,
18.3
B_102
-------
Ogden Martin Systems - HC1 Monitoring
06-11-19B7
TIME
15:
15:
15:
15:
15:
15:
15:
09
10
11
12
13
14
15
AVERAGE
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
16
17
IB
19
20
2.1
22
23
24
25
26
27
28
29
30
AVERAGE
15
:30
15:31
15
.32
15:33
15
15
: 34
:35
15:36
15
15
15
15
15
15
15
.37
.38
:39
40
41
42
43
15:44
15
45
AVERAGE
15l
45
15i46
15t47
15:48
15s49
ISiSO
15:51
CHAN
TECO
1 CHAN
LSI
_ppmwet c
594
619
621
600
640
599
558
m
•
•
•
m
m
•
8
7
4
7
4
9
1
VALUES FOR
605
564
646
707
732
718
747
704
654
667
654
621
641
604
606
663
•
•
.
.
*
.
.
•
B
m
m
m
m
m
m
•
~7
•_•
9
9
9
0
6
1
1
0
9
7
'"T1
5
7
1
0
VALUES FOR
662
625
608
605
651
681
622
584
563
585
595
591
575
612
609
587
•
u
•
m
m
f
m
•
.
„
.
•
.
B
•
"•T
8
9
5
7
8
5
T
•_»
4
o
7
2
0
">
jl.
4
0
VALUES FOR
606
572
549
548
549
541
532
•
•
m
m
m
m
•
6
6
4
4
4
8
6
3
CHAN 4
Bodana
ipmdry ppmdry
99.9 15.9
93
87
82
81
77
74
THE
134
71
64
59
53
49
54
83
96
106
1 IB
122
1 18
1 15
1 19
123
THE
90
149
178
194
201
207
218
230
230
226
225
227
233
227
218
219
THE
212
226
221
212
203
191
188
.
.
•
m
m
•
m
m
.
.
m
m
.
m
m
m
m
m
r
.
-
'
.
m
m
m
•
.
•
H
.
.
m
•
m
m
m
m
m
m
m
.
.
6
6
3
9
0
4
PREV
8
1
8
1
T
1
8
7
5
5
8
5
6
9
1
5
PREV
5
5
5
1
1
8
6
-,
9
8
8
6
1
-7
sl>
4
PREV
6
6
7
7
9
8
6
14
14
13
12
11
9
IOUS
35
8
7
9
10
10
10
10
10
1 1
1 1
1 1
1 1
1 1
1 1
15
IOUS
10
17
17
17
18
r-^ r-,
27
30
TJT,
34
39
46
50
51
55
58
IOUS
34
54
46
40
36
34
35
•
.
•
•
m
•
1
•
•
.
.
•
.
B
„
m
m
m
.
.
„
.
-
1
«
.
.
»
.
•
.
.
.
•
.
•
,
•
*
•
9
8
4
3
2
7
5
T
1
6
1
0
T;
4
9
1
1
6
1
"T
6
6
0
5
7
9
4
5
pr
8
9
7
"^
6
8
9
4
7
8
6
15
•
m
m
*
m
m
•
9
5
9
3
1
9
6
MINUTES
MINUTES
MINUTES
B-103
-------
Ogden Martin Systems - HC1
TIME
15:52
15s53
15i54
15s55
15; 56
15:57
15:58
15:59
1 6 : 00
AVERAGE
16 tOO
AVERAGE
1 6 s 00
1 6 1 0 1
16:02
16:03
16:04
1 6 s 05
16:06
16:07
1 6 : 08
16: 09
.16: 10
16: 11
16: 12
16: 13
16: 14
16: 15
AVERAGE
16: 15
16: 16
16: 17
16: 18
16: 19
16:20
16:21
16:22
16:23
16:24
16s25
16:26
16t27
16:28
16o29
16:30
CHAN 1
TECO
ppmwet
547.8
55o . 5
562.6
582.0
574.3
542.6
523.3
516. 1
521. 1
VALUES
547.6
VALUES
605.5
544. 7
530.5
512.6
515.5
526. 3
531. 1
547.0
574.5
577.2
549. 0
549.9
612.8
660.2
689. 1
688. 4
VALUES
573.9
679.5
631 .5
654.2
676. 1
649. 4
630. 6
631.9
622.9
646.3
634.8
600 . 3
600.8
610.1
60 1 . 1
641.5
CHAN 3
LSI
PpmdryL
187.4
188.9
185.4
184. 1
184.7
187.5
188.5
183.7
180. 0
FOR THE PREV
194.4
FOR THE LAST
158. 1
176.7
174.7
177. 0
175.6
172.6
171.7
166. 7
160.0
145.6
134.5
126.4
120.8
1 16.2
122.3
1 32 . 5
FOR THE PREV
151.6
140.5
146.4
142.9
144.0
164.2
186.2
195.0
198.0
203. 1
203.3
206.4
206.8
202. 2
200.4
201.6
Monitoring 06-11-1987
CHAN 4
Bodene
ppmdry.
37.0
37.7
38.5
41.0
40. 7
38.2
38.5
39-7
41.8
IOUS 15 MINUTES
40. 1
HOUR: 60 MINUTES OF VALID DATA
30 . 2
43. 9
42. 5
42.6
43. 7
41. 1
35. 7
28.0
f~-\ •— I Q
^-i. . a
19.0
15. 9
13.9
13. 7
13.7
13. 8
14.3
IOUS 15 MINUTES
27.0
14.5
14.0
15. 5
20 . 0
22.8
23.2
24.9
29.2
35.4
39.9
43.4
47.4
52. 1
55.5
70.5
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
16i30 634.1 182.7 33.9
B-104
-------
Ogden Martin Systems - HC1 Monitoring 06-11-1987
TIME
16:31
16:32
16:33
16:34
16:35
16:36
16:37
16:38
16:39
1 6 : 40
16:41
16:42
16: 43
16: 44
16:45
AVERAGE
16:45
16: 46
16: 47
16:48
16: 49
16:50
16:51
16:52
16:53
16:54
16:55
16:56
16:57
16:58
16:59
17:00
AVERAGE
17:00
AVERAGE
1 7 : 00
17:01
17:02
17s03
17:04
17t05
17i06
17807
17i08
17i09
17i 10
17i 11
178 12
17s 13
CHAN 1
TECO
pprpwet
616.4
564.5
569.0
532.9
507.6
=i4>=i T
o ^ \_J . •—'
531.9
497.8
501.8
477.5
480. 3
498.7
479. 8
442. 8
452.4
VALUES
513.3
457.0
439. 8
477. 9
508. 3
511.6
489. 7
495. 9
505. 4
504 . 6
529. 4
563. 4
560. 1
559. 6
528. 5
527. 7
VALUES
510.6
VALUES
558.0
559.6
508.5
450 . 2
477.0
538.3
551.4
579. 3
563.4
603.3
600.5
574.3
502 . 7
17O.4
CHAN 3
LSI
BLRlQdr_y
199.4
204.6
206.7
200. 2
198.5
195.4
189.6
204.4
211.7
210.2
'"i •( '-n T
.£_ 1 jL. m O
212.6
209-9
195.7
162.3
FOR THE PREV
200. 9
137. 1
155. 6
179. 0
169.5
159.0
144.5
129. 5
120. 4
133. 1
154. 4
163. 7
156.0
139.6
128. 2
125.6
FOR THE PREV
146.4
FOR THE LAST
170. 4
142. 1
152.5
161.7
154.2
136.2
122.8
120.5
127.8
147-6
157.4
155.0
150.8
143.2
CHAN 4
Bodens
ppmdry
81.9
79.6
81.4
86.5
82.8
94. 9
108. 9
1 09 . 9
109. 9
109. 9
1 09 . 9
109. 9
87. 6
53.7
57. 1
IOUS 15 MINUTES
90. 9
76. 1
84. 1
80.7
68. 0
51 . 2
40. 7
45. 0
5B. 7
68. 6
66. 0
57. 5
50. 0
44.2
51. 4
60. 9
IOUS 15 MINUTES
60 . 2
HOUR: 60 MINUTES OF VALID DATA
53.0
70. 1
67.5
53.2
45.9
43.8
45.2
56. 3
64.8
66.5
62.0
54.3
17.9
4.6
B-105
-------
Ogden Martin Systems - HC1
CHAN 1 CHAN 3
TECO LSI
TIME_ oomwet oomriry
17: 14
17: 15
AVERAGE
17: 15
17: 16
17: 17
17: 18
17: 19
17:20
17:21
17:22
17:23
17:24
17:25
17: 26
17:27
1 7 : 28
17:29
17:30
AVERAGE
17:30
17:31
17: 32
17:33
17:34
17:35
17:36
17:37
17:38
17:39
17:40
17:41
17:42
17:43
17:44
17:45
AVERAGE
17:45
17:46
17:47
17:48
17i49
17s 50
17i51
17:52
17:53
17:54
17:55
17:56
105.6
85.5
VALUES
458.0
73.2
68. 5
63. 1
60 . 6
58.6
57.8
41 .7
55. 1
50.5
48.8
49. 7
42. 3
40. 0
45.2
42. 9
VALUES
nr T/ ^71
48. 5
39.3
42. 9
40. 8
41.0
41 . 2
36. 1
44.6
33. 1
36.5
41 . 2
45.4
47. 9
43. 1
45.6
VALUES
[~4l7lf
44. 1
43. 1
191.9
366.9
432.5
463.4
478.0
487.9
496.0
502.4
508.3
143.8
153. 1
Moni tori
CHAN 4
Bod&ns
ppmdrv
2.5
2.0
FOR THE PREVIOUS 15
144.6
159.3
124. 1
1 0 1 . 1
82.6
70. 0
59.3
51.5
46.5
41.9
38.3
36.5
33. 1
28.4
27. 7
26.6
43.8
1.9
1.4
1.7
1.0
1.3
1.5
1.5
1.6
1.5
1 . 7
1.2
1.3
1.5
1 . 7
1 . 3
ng
MINUTES
FOR THE PREVIOUS_15 MINUTES
61 . 8
23. 7
21.3
19.5
18. 4
16. 8
15.9
14.9
14.7
14. 4
14. 2
14.0
13.7
13.2
12.9
12.6
FOR THE PREV
| 16.0
T
11.1
12.2
12. 1
15.9
13.7
13.4
12.7
12. 1
11.5
11.2
10.9
1 1 . 5 \
35U5L
f4778 \
47. 7
47.2 \
47. 2
48. 1
48.3
46.8
', 47. 4
\47. 0
147.0
47.3
48.0
48. 2
4ZvL/
<~1±TLL>
\
\
/
*-r r r
U^
IOUS 15 MINUTES
46. 6
43.8
2.4
1.0
1.3
1.7
1.5
2.4
21.3
3~T T
>— • • •—'
38. B
44.7
06-11-1907
B-106
-------
Ogden Martin Systems - HC1 Monitoring 06-11-1987
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodens
TIME DDmwet oomdrv oomdrv
17:
17:
17:
18:
57
58
59
00
AVERAGE
18:
00
AVERAGE
18:00
IB:
18:
18:
18:
18:
18:
18:
18:
18:
18:
18:
18:
18:
18:
18:
01
02
03
04
05
06
07
08
09
10
1 1
1 2
13
14
15
AVERAGE
IB:
18:
18:
18:
18:
18:
18:
18:
18:
18:
18:
18:
18:
18:
18:
18:
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
AVERAGE
IBi
18:
IB:
18:
ISi
18:
30
31
32
33
34
35
519.
515.
522 .
526.
8
7
5
5
VALUES FOR
406.
6
VALUES FOR
239. 9
522.
527.
537.
530.
536.
532^
1 -_J • J> ^J •
543.
541.
541 .
/-5-3-9_s.
531.
539.
405.
169.
5
8
6
7
6
0
^_'i
••' \
7J
_5j
7
Tt
6
_,.
VALUES FOR
502.
127.
Ill .
94.
89.
91.
75.
74.
63.
67.
65.
59.
63.
58.
59.
56.
""*«
6
0
2
0
4
7
7
-T
-T
9
1
0
8
5
0
VALUES FOR
77.
61.
47.
56.
54.
46.
1
0
3
1
9
6
10.
10.
9.
9.
THE
1 1 .
THE
58.
9.
9.
9.
8.
7.
8.
7.
7.
6.
7.
12.
23.
-T-T
44.
50.
THE
16.
53 .
57.
59.
61 .
64.
66.
67.
69.
70.
72.
73.
75.
76.
77.
78.
THE
68.
78.
79.
80.
81.
81.
5
2
7
4
45.
38.
"T
3
PREVIOUS
8
LAST
5
3
2
T"
9
9
0
5
0
6
1
o
7
^_
7
6
PREV
T
9
•"-
-T
6.
1
•-• •
HOUR:
28.
3
-T
IQLIS
3
7.
1 .
7.
-T
±_ m
1 .
1 .
1 .
1 .
1 .
1 .
1 .
1 .
1 .
1 .
1
6.
1 .
2 45.
4
7
0
4
5
1
7
0
9
1
2
0
0
PREV
1
7
9
9
1
4
-
-
-1
2
4
4
4
4
~T
-
-
—
IOUS
1
—
1
1.
1.
5.
4.
-T
~T
"T
"T
7.
1 .
2.
1.
1.
1
9.
1.
0.
9.
32.
43.
7
4
4
5 MINUTES
1
60 MINUTES OF VALID DATA
7
5
9
5
5
1
7
9
7
4
9
7
6
6
4
3
5 MINUTES
6
4
8
8
~T(
8
6
"T
_/
9
6
8
2
4
6
3
5 MINUTES
4
T;
8
5
6
9
B-107
-------
Ogden Martin Systems - HC1
TIME
18:36
18:37
18:38
18:39
18: 40
18:41
18:42
18:43
18: 44
CHAN 1
TECO
ppmwet
48.6
50 . 9
54. 4
42.5
43.4
56.3
45.5
43.3
41 .9
CHAN 3
LSI
ppmdry
82.3
82.8
83. 3
83. 6
84.2
92.4
87. 6
86.4
86.5
18:45
2.7
88.
Monitoring
CHAN 4
Bodens
EPJDJiir. Y-
47.6
45.3
49.3
56.2
58
06-11-1987
1
7.
63.6
64.4
55. 1
49.3
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
18:45 49-7 83.9 42.8
18:46
18:47
13:48
41.8
43.4
41.9
87. 8
88.0
SB. 2
47.4
49.6
45.9
B-108
-------
SUMMARY OF HC1 MONITORING DATA
RUN: B
SOURCE: Ogden Martin Systems - Characterization Test
TEST DATE: 6/12/B7
GAS VALUE
INITIAL CAL FINAL CAL
***TECO (INLET)***
0.0 ppm HC1
490.0 ppm HC1
***LS I
0.0
259.0
(MIDPOINT)
ppm HC1
ppm HC1
***BDDEN. (OUTLET)
0.0 ppm HC1
65.0 ppm HC1
***
**•*
2.3
511.5
1.5
260.6
-1.0
NA
42.7
552.0
-6.7
214.3
-2.5
65.9
MEAN CAL
22.5
531.8
237.5
-l.B
65.9
UNCORRECTED RESULTS
HOUR
1
2
HOUR
1
3
3
Highest
Lowest
TIME
10: 00-11
11:00 - 12
12:00 - 13
***RESULTS
TIME
10:00 - 11
11:00 - 12
12:00 - 13
:00
:00
: 00
INLET
(wet)
461.3
451. 1
422.5
CORRECTED FOR
: 00
: 00
: 00
-HOUR AVERAGE:
1 Min. Avg. :
1 Mi n . Avg. :
INLET
(dry)
4B2.5
471.3
439. B
464.5
609. 1
359. 1
MIDPOINT
(dry)
152.5
96. 1
CALIBRATION BIAS AND
MIDPOINT
(dry)
167.3
106.5
136.9
175.7
73.2
OUTLET
(dry)
34. 1
24.5
14. 1
DRIFT***
OUTLET
(dry)
34.5
25.3
15.3
25.0
45.8
10.3
NOTE: Inlet concentrations were measured on a wet basis and
corrected to a dry basis using Method 4 results.
Moisture = 12.5 7.
B-109
-------
SUMMARY OF HC1 MONITORING DATA
RUN: 9
SOURCE: Ogden Martin Systems - Characterization Test
TEST DATE: 6/12/87
GAS VALUE INITIAL CAL
***TECO (INLET)***
0.0 ppm HC1
490.0 ppm HC1
***LSI (MIDPOINT)***
0.0 ppm HC1
259.0 ppm HC1
***BODEN. (OUTLET)***
0.0 ppm HC1
65.0 ppm HC1
HOUR TIME
1 14:30 - 15:30
2 15:30 - 16:30
3 16:30-17:30
4 17:30-18:00
2.3
511.5
1.5
260.6
-1 .0
NA
UNCORRECTED
INLET
(wet)
459.3
485.3
474. 1
560.5
FINAL CAL
42.7
552.0
-6.7
214.3
-2.5
65.9
RESULTS
MIDPOINT
(dry)
106.3
117. 1
125.6
•* ere- IT
***RESULTS CORRECTED FDR CALIBRATION BIAS AND
HOUR TIME
1 14:30 - 15:30
2 15:30 - 16:30
3 16:30-17:30
4 17:30 - 18:00
3.5-HR AVERAGE:
Highest 1 Min. Avg.:
Lowest 1 Min. Avg.:
INLET
(dry)
481.4 •
510.0
497.7
592.9
510.2
674.9
40.3
MIDPOINT
(dry)
117.5
129. 1
138. 3
170.5
134.3
215.2
103.2
MEAN CAL
22.5
531.8
-2.6
237.5
-l.B
65.9
OUTLET
(dry)
9.9
8.7
11.3
14.0
DRIFT***
OUTLET
(dry)
11.2
10.1
12.6
15.2
11.9
17.9
7.9
NOTE: Inlet concentrations were measured on a wet basis and
corrected to a dry basis using Method 4 results.
Moisture = 12.7 7.
B-110
-------
ONT I NUQLJS EMISSIONS M O IM I T O R I IM 13 SETT —LJF"
,URCE: Ogden Martin Systems - HC1 Monitoring
,TE: 06-12-1987 TIME: 08:47
INF'UT ZERO
J3_CHA_N DES-GRLP U.NI1S SPAN ^QLIAJBE OFFSET
1 TECO ppmwet 2250 10.00 V 07.
3 LSI ppmdry 520 1.00 V 07.
4 Bodens ppmdry 100 9.10 V 07.
/ERASING PERIODS: 15 MINUTES,
3 EMISSION RATE CALCULATIONS
-------
Ogdt?n
Martin Sytatwniw -• HC1
CHAN 1 CHAN 3
TECO LSI
.__PJ?rnd_ry_
-0. 3
-0. 5
-0. 6
-0.8
-0.4
-0. 6
-0. 7
-0.9
_ 1 M
1 • I.'
-1 .2
-1.2
1 . 2
— 1 "^
1 . •_.'
-1 .4
-1.7
-1 .9
-1.8
-1.5
-1. 6
-1. 7
-1.8
-1 . 8
-1 .9
-1.9
-1 . 9
-1 .9
-1.9
- 2. 0
08:
08:
08:
08:
08:
08:
08:
08:
08 :
08:
08:
08:
00:
08:
08:
08:
08:
08:
08:
08:
08:
08:
08 :
08:
08:
08:
08 :
08:
08:
08 :
08:
08:
08:
08:
08:
08:
08 :
10
11
12
13
14
15
16
17
18
19
20
21
"} *"?
*L ,C_
23
24
25
26
27
28
29
30
31
•™ril?
-^ -rr
34
35
36 \
37
38
39
40
41
42
"$
45
46
18.8
23 . 0
14. 1
16.0
17. 5
1B.O
5.2
11.1
B. 1
12.6
B. 1
11.2
15.5
-1.0
i—j r—_t
~ 5 . •-•
-1 . 9
7 . 4
1. 5
i .8
.c! • ji'
6. 8
-1.7
6. 6
0 . 9
8.1
"r273 /
— '""."' cr
-0.1 ,
5.2
6. 3
5.5
3. 1
1 . 1
1 .7
1.9
5.5
-2. 4
-2.8
-1. 1
0. 3
Moni tor ing
CHAN 4
Bodens.
f\ f\ /qn /^ h~ v J
_- EJT
/
[
/
1
i
\_
10.3
0 . 6
-0.9
-1.5
- 1 . 0
-0. 8
-0.5
-0. 9
- 0 . 3
-1.0
-1.4
-1 . 1
-0. 6
-1 .2
38.9
34. 2
-0. 8
-1.3
22. 7
48.J— ,
44. 5
44. 6
44' 1 j
12. 6
:roT~Er
-O.9
-!'-
~"5?er
16. 4
19.9
21. 7
06-12-1987
6. 0
B-112
-------
Ogden Martin Systems ~ HC1 Monitoring 06-12-19B7
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodens
TIME.
08:49
08:50
08:51
08:52
08:53
08:54
08 : 55
08:56
08: 57
08 : 58
08:59
09: 00
AVERAGE
09: 00
09: 01
09: 02
09: 03
09: 04
09: 05
09: 06
09: 07
09: 08
09: 09
09: 10
09 : 1 1
09: 12
09: 13
09: 14
09: 15
AVERAGE
09: 15
09: 16
09: 17
09: 18
09: 19
09:20
09:21
09:22
09:23
09s 24
09s 25
09s 26
09:27
09:28
09:29
09:30
-PJ9.G5.wst... £
287.0
327 . 0
361.3
386. 3
423.7
458.2
458.9
446. 1
466.7
272. 3
397. 1
439.5
VALUES FOR
393. 7
454. 8
466. 9
461 . 7
473.6
485. 6
489- 2
466. 3
490. 2
48B. 6
500. 9
499. 1
494. 7
497. 3
495.2
50 1 . 8
VALUES FOR
485.7
,r5T37bT
' 509. 5y
' 512.5 \
<^51jX_2-j
500. 0
525.2
565.5
467.4
447.5
495.6
546.4
557.9
560.5
540.0
564.5
>j3fnd_ry_
0.9
10.2
21. 1
18.5
13.6
12.9
101.6
162. 2
51 . 3
36 . 0
27. 5
25.8
THE LAST
40. 1
T' T T>
32. 4
41.6
50. 1
41 . 5
28. 8
22 . 1
17. 1
15. 2
11.6
10.6
8. 2
9.2
5.9
5.3
THE. F'REV
21.5
4.5
1 .7
1.4
1 .4
1.6
1.2
1.3
14.9
38.0
137.7
143.2
123.4
108.7
108.5
110.3
23
21
26
34
37
38
34
T O
38
43
39
o3
HOUR
T T
3 1
37
46
53
52
46
43
47
cr T
^J_''
57
57
48
37
30
31
IOUS
44
37
40
39
C''wJ
"T O
33
34
35
35
34
30
24
21
22
26
ry
. 0
.5
. 1
. 1
.7
• s_<
o
.9
. 4
.0
o
. 2
: 12 MINUTES OF VALID DATA
.5
_ 2
. 1
. 6
O
. 6
r-,
. 7
-T
. 4
^r
. 5
. 0
.8
. 6
. 0
15 MINUTES
. 9
.0
. 6
. 6
2
. 2
. 0
.5
.2
•s;
. 3
. 4
.6
.8
.8
.5
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
09:30 521.1 53.2 32.2
B~il3
-------
Ogderi Martin Systems - HC1 Monitoring 06-12-1987
CHAN 1 CHAN 3 CHAN 4
TIME
09:31
09:32
09:33
09:34
09: 35
09:36
09 : 37
09:38
09:39
09: 40
09 : 4 1
09: 42
09:43
09: 44
09:45
AVERAGE
09: 45
09: 46
09:47
09: 48
09: 49
09:50
09:51
09:52
09: 53
09:54
09:55
09:56
09:57
09:58
09:59
10: 00
AVERAGE
10:00
AVERAGE
10:00
10:01
10: 02
10:03
10:04
10105
10i06
10i07
10: 08
10:09
10:10
10: 11
10s 12
10: 13
TECO LSI
640.6
720. 1
768.0
777.6
768. 4
863. 6
876.2
805. 2
818.3
733. 5
634. 1
601. 4
577.8
552.6
540. 4
VALUES FOR
711.9
553. 6
506. 0
503. 1
533. 1
622. 5
604. 4
554.8
547. 3
539. 2
511.3
540. 1
523.6
479. 3
491.2
485.5
VALUES FOR
533.0
VALUES FOR
562.9
470.2
488.7
504.4
500. 0
501.5
533. 0
508.7
490.8
cr «-^o tr
532 . 4
525.3
530. 2
483.7
115.5
130.9
187.0
182.3
157.3
1 69 . 0
163.2
167.2
176.2
181.3
187.6
193.2
196.7
200. 3
203. 9
THE PREVI
174. 1
211.2
216. 3
219.7
224 . 2
227.4
229.6
232. 9
235.8
238. 6
241 . 6
247. 9
252.5
256 . 2
259.7
264.0
Bodens
jDp_mdr_y.
34. 3
40. 7
41.9
40.7
41.9
50.7
55.5
58. 1
51.4
35.7
28. 0
28 . 3
37.4
45.2
49. 0
OUS 15 MINUTES
42.6
46. 7
39. 4
35. 3
40. 8
68. 6
83. 1
68. 7
52. 1
42.6
44.9
57.8
58. 1
47. 3
38. 2
30. 8
THE PREVIOUS 15 MINUTES
^37 - 2
THE LAST
121.5
267.4
270.7
276.7
301 .8
293.0
290.5
291.6
291.8
294. 1
295.4
296.2
298.5
300.2
50.3
HOUR: 60 MINUTES OF VALID DATA
42.5
29.6
37.2
45.2
44.5
41.0
37.7
34.9
37.5
42.7
44. 1
45.7
41.5
32.9
-------
Oyd»n Hart in Systarnw -- HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECQ LSI Bodena
TIME DDmwet pomdrv oomdrv
10: 14
10: 15
AVERAGE
108 15
10: 16
10: 17
10: 3,8
10:19
10: 20
10:21
10:22
10:23
10:24
10:25
10:26
10:27
10: 28
10:29
10: 30
AVERAGE
10: 30
10:3 1
10: 32
10: 33
10: 34
10:35
10:36
10: 37
10: 38
10:39
10: 40
10: 41
10:42
10: 43
10:44
10:45
AVERAGE
10:45
10:46
10:47
10s48
10849
lOaSO
10851
10s52
10853
10s54
10855
10:56
489.9
50 1 . 7
VALUES
505.9
473.2
478.7
471.7
438. 4
435.7
426. 3
461 . 1
490. 5
468. 2
464. 2
474. 5
467. 4
496. 3
512.8
475.8
VALUES
469. 0
482. 6
485.7
431 . 3
456.5
497. 3
446. 5
430. 9
438. 4
402. 2
413.7
456.4
470. 7
434.5
396.2
407.2
VALUES
443.3
423. 1
413.6
369 . 7
387.8
432. 1
411.7
435.6
455.4
420. 1
438.4
424.9
302 . 0
303.7
32. B
39 - 0
FOR THE PREVIOUS 15 MINUTES
291.6
305. 1
306. 1
307.4
308. 6
309. 1
310. 0
3 10.7
313.8
314.7
314. 4
315.2
315.2
314.6
315.3
295.0
FOR THE PREVI
3 1 0 . 3
259. 4,
i^siToT^ifl
\261. 1
i260._4_J
'2~S8T6
266.0
274. 3
263. 0
2O9. 7
171. 6
162.0
150. B
135.3
123.3
1 13.6
FOR THE PREVI
211.3
104.2
96.5
86. 7
78.9
71.2
54.5
53. 6
47.7
48. 0
44.5
40.6
39. 1
42. 1
41.4
37. 1
3 1 . 0
29. 4
29. B
33.7
35. 5
34.2
32. 4
31.3
30. 2
34.3
38.3
38. 6
OUS 15 MINUTES
34. 6
41 . 2
41 .3
35. 9
35. 0
34. 3
30 . 0
30 . 5
~T ~T "T
34.5
34. 9
34.8
39. 1
27.3
25. 8
30. 6
OUS 15 MINUTES
33.9
34. 6
37. 0
33.6
31. 1
29.2
27.5
29.5
29.2
25.7
24.3
24.4
06-12-1987
-------
Ogden Martin Systems - HC1
TIME
10! 57
10:58
10:59
11:00
AVERAGE
1 1 : 00
AVERAGE
1 1 : 00
11:01
1 1 : 02
1 1 : 03
1 1:04
1 1 : 05
1 1 : 06
11:07
1 1 : 08
1 1 : 09
11:10
11:11
11:12
11:13
11:14
11:15
AVERAGE
11:15
11:16
11:17
11: 18
11:19
1 1 : 20
11:21
11:22
11:23
11:24
11:25
11:26
11:27
111 28
11829
1 1 : 30
AVERAGE
Ili30
11:31
11:32
1 1 : 33
11:34
11:35
CHAN 1
TECO
ppmwet
419. B.
443.2
476. 1
454.3
VALUES
427. 1
VALUES
461 . 3
442. 1
439.6
461. 1
466. 3
429. 4
397. 0
416. 4
476. 0
479. 5
458. 6
464. 6
450. 3
432.6
438. 1
424.2
VALUES
445. 1
439. 9
425. 1
401.6
409. 9
459.4
499.2
470.7
434. 2
430. 6
423.8
433. 2
473.0
500. 3
471.7
464. 1
VALUES
449. 1
474.9
461.3
455.7
453. B
508. 1
CHAN 3
LSI
jjpmdry
38.8
28.5
28. 0
27.4
FOR THE PREV
56.6
FOR THE LAST
217.5
74 "~>
23.7
22.9
21.7
20.2
18. 7
16.8
15.4
14. 3
11-9
12.6
11.5
10.9
12. 3
16. 3
FOR THE PREV
16.9
21.5
26. 9
44. 3
61 . 7
68.8
71.9
77. 1
90. 2
105.3
108.8
1 06 . 6
109. 6
119.9
129.7
152.8
Monitoring 06-12-1987
CHAN 4
Bodens
ppmdry
29.4
31.3
27.5
20.7
IOUS 15 MINUTES
29. 0
HOUR: 60 MINUTES OF VALID DATA
34. 1
16. 9
IB. 1
l~~ir"'t D
-i.^1 . O
24. 9
T""l Q
jL.jL.mO
19. 5
20. 8
22. B
-53. 9
-11.4
19. 9
20. 1
20. 1
24.6
28. 3
IOUS 15 MINUTES
14. 4
28. 7
27.6
24. 7
ji, -Jj . w-
25. 0
27.9
27. 8
27.2
27. 4
27. B
29.4
35.3
41 .8
39.2
36.3
FOR THE PREVIOUS 15 MINUTES
B6.3
161 .9
155.5
1 50 . 8
152.2
157.2
30 . 0
36.3
36.8
39.3
42.3
45.8
B-116
-------
Ogden Martin Systems - HCi
CHAN 1 CHAN 3
TECO LSI
TIME oomwet oomdrv
11:36
11:
11:
11:
11:
11:
37
38
39
40
41
11:42
1 1 : 43
11
11
44
45
AVERAGE
11
11
1 1
11
11
1 1
1 1
11
11
11
11
1 1
1 1
11
11
12
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
00
AVERAGE
12
00
AVERAGE
12: 00
12:
01
12:02
12:03
12:
04
12:05
12:
12s
12:
12:
12:
12i
12:
12:
12:
12:
06
07
08
09
10
11
12
13
14
15
499.
462.
443.
422.
429.
452.
481 .
496.
486.
495.
5
8
0
4
4
7
1
7
4
~T
VALUES FOR
468.
494.
462.
477.
489.
471.
464.
440.
401 .
400 .
425.
424.
397.
417.
435.
425.
2
9
8
4
4
jj_
4
5
4
-T
9
5
0
-T
2
9
VALUES FOR
441 .
9
VALUES FOR
451. 1
416.
386.
372.
363 .
354.
340.
349.
330.
343.
314.
321.
333.
350.
363.
372.
7
1
4
1
8
4
0
4
8
2
8
6
2
0
4
1
1
1
1
1
1
1
1
1
1
62
69
75
69
59
51
48
58
71
64
m
m
B
.
m
B
.
m
m
•
THE
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
60
52
47
54
63
66
64
51
39
35
35
35
35
38
27
17
•
B
m
m
u
m
m
m
m
m
,
.
B
m
•
THE
1
44
•
THE
/
1
1
1
1
1
1
~tf^i
10
12
IB
17
08
06
94
92
92
90
87
86
81
75
73
•
•
.
•
.
.
m
m
m
.
.
m
m
,
•
1
3
7
8
7
-T
5
8
2
4
PREV
6
9
4
1
4
6
5
8
9
1
4
7
C7
u
4
5
"T
PREV
4
LAST
fP &*J
3
2
1
1
4
6
5
4
3
3
7
1
2
6
2
Monitoring 06-12-1987
CHAN 4
Bodsns
ppmdrv
44.
37.
31.
29.
30.
34.
34.
27.
21.
20.
IOUS 1
34.
/— , r~,
25.
28.
26.
21.
18.
16.
16.
18.
20.
19.
15.
13.
13.
14.
IOUS 1
19.
HOUR:
*j^24-
14.
14.
13.
12.
11.
12.
13.
14.
14.
14.
12.
10.
12.
16.
16.
6
i~\
3
0
3
4
1
4
7
4
5 MINUTES
1
9
-T
2
8
5
jil
8
-T
2
7
4
8
5
6
1
5 MINUTES
4
60 MINUTES OF VALID DATA
5
3
9
5
2
7
4
5
0
8
0
0
9
4
1
T
B-117
-------
Ogden Martin Systems - HC1
CHAN 1 CHAN 3
TECO LSI
TIME Domwet opmdry
AVERAGE
12i 15
12: 16
12
1 O
J. *i-
12
12
12
12
12
12
12
12
12
12
12
12
17
19
19
20
21
22
23
24
25
26
27
28
29
30
AVERAGE
12
1 <*£.
12
12
12
12
12
12
12
12
12
12
12
12
12
12
30
31
32
"? "^
34
"if cr
36
T'7
•-,' /
38
39
40
41
42
43
44
45
AVERAGE
12:45
12346
12s47
12:48
12s49
12:50
12s51
12:52
12:53
12:54
12:55
12:56
12sS7
12:58
VALUES FOR
354 . 1
405.8
438.0
464.9
526.5
497.5
453.0
429. 4
460.4
429- 5
377.8
366.5
368. 1
377. 8
374. 4
384. 8
VALUES FOR
423. 6
391.3
382. 9
388. 8
447. 1
470. 4
483.8
494.8
483.9
474. 7
480. i
479. 2
452. 0
467.2
473.9
502.0
VALUES FOR
458. 1
506.9
480.4
462.2
470.9
463.0
474.0
468. 1
458.8
482.6
441.7
412.2
426. 1
424.2
Monitoring
CHAN 4
Bodens
opmdry
THE?. PREVIOUS 15 MINUTES
96.4
79.0
87.2
88.4
85 . 8
84. 1
96.5
123. 4
129.4
120.6
113.4
108.8
101.8
96. 1
98.2
101. 0
13.5
15.3
14. 1
13.7
16.5
20. 2
20. 1
18.0
16. 9
14.8
12.4
12.9
14.8
16. 1
15. 2
12.3
THE PREVIOUS 15 MINUTES
100. 9
97.3
89.9
83.6
79.2
78.3
82. 6
85. 9
88.5
89.3
92. 7
95.6
107. 0
114.6
109.7
101.8
THE PREV
93. 1
95.5
96.6
108.7
1 14.9
105. 1
96.5
92.2
93.0
96. 1
96.3
92.6
86.0
81.5
15.6
10.8
10.3
-6. 0
11.1
13.0
13.2
13.4
12. 2
12. 6
15.2
16.3
14. 9
13.8
13.3
15.0
IOUS 15 MINUTES
11.9
18.0
17. 1
14.0
12.5
13.4
15.7
17.2
16.7
16.0
14. 1
12.8
14.3
16.6
B-118
06-12-1987
-------
Ogd*n Martin 8y«t»mia - HC1 Monitoring 06™i2-1987
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodena
TIME DDmwet oomdrv oomdrv
12:59
13:00
AVERAGE
1 3 { 00
AVE
13
13
13
13
13
13
13
13
13
1 3
1 3
j "^
1 "^
1 T
13
13
AV
13
13
13
13
13
13
13
13
13
13
13
13
13
13
IRAGE
00
01
02
03
04
05
06
07
08
09
10
11
12
1 3
14
15
:RAGE
15
16
17
18
19
20
21
22
23
24
25
26
27
28
13:29
13:30
AVERAGE
13:30
13:31
13:32
13:33
13:34
13s35
13:36
13:37
416.
420.
7
9
VALUES FOR
453.
9
VALUES FOR
422. 5
409.
408.
470.
525 .
473.
431 .
467.
435.
423.
446.
404.
391 .
410.
384.
377 .
8
1
3
o
5
8
T
6
2
0
9
4
9
T;
2
VALUES FOR
430.
391.
418.
403.
364.
348.
380.
391.
397.
426.
456.
478.
448.
413.
371 .
35 1 .
6
7
7
4
9
1
"7
5
4
1
1
0
1
2
8
2
VALUES FOR
402.
371.
384.
419-
426.
413.
4O8.
413.
7
8
7
1
4
4
4
4
77.
77-
THE
94.
THE
96.
74.
70.
65.
68.
84.
87.
85.
82.
85.
93.
81.
77.
71 .
63.
57.
THE
76.
51.
45.
38.
~^,f^1
27.
22.
18.
15.
12.
11.
10.
10.
10.
11.
1 1.
THE
22.
12.
12.
13.
14.
IS.
16.
15.
7
0
PREV
0
LAST
1
9
2
5
•7-
5
7
9
5
16
1
IOUS
1
5
5
HOUR
14
1
1
1
1
1
1
1
1
3
T
5
4
o
2
7
9
3 17
9
9
4
4
9
9
PREV
7
8
0
0
6
4
9
9
4
8
2
5
1
2
3
8
PREV
0
0
9
9
2
1
0
8
1
1
1
1
1
1
IDUS
1
1
1
1
1
1
1
1
1
1
1
1
1
1
IOUS
1
5
T
1
"T
-T
~T
4
-7
4
4
3
o
1
1
<— 1
ji.
3
"7
2
1
0
8
8
2
10
1
1
1
2
2
0
8
8
9
.2
.4
13 MINUTES
T;
: 60 MINUTES OF VALID DATA
. 1
. 0
. 6
. 0
. 6
7;
.2
. 1
. 4
. 5
. 5
. 0
. 9
. 1
.5
. 1
15 MINUTES
.3
. 9
. 7
. 3
.5
. 1
. 6
.6
. 1
. 4
. 2
.9
.7
. 0
.6
. 7
15 MINUTES
. 1
.6
.2
. 3
.8
.8
.2
-2
-------
Ogden Martin Systems - HC1 Monitoring 06-12-1987
TIME
13:38
13:39
13: 40
13:41
13:42
13:43
13:44
13: 45
AVERAGE
13 45
13 46
13 47
13 48
13 49
13 50
13 51
13 52
13 53
13 54
13 55
13 56
13 57
13 58
13 59
14 00
AVERAGE
1 4 : 00
AVERAGE
14:00
14:01
14:02
14:03
14:04
14:05
14:06
14:07
14:08
14:09
14: 10
14: 11
14; 12
14: 13
14: 14
14i 15
CHAN 1
TECQ
ppmwet
416.0
406.8
429.5
428. 1
396.3
458.3
468.6
462.7
VALUES
420.2
434.2
421 .3
421.2
459. 9
458. 1
422.8
422. 3
440. 4
462. 2
493. 4
520. 3
496.4
470. 1
447.9
442. 9
VALUES
454.2
VALUES
426. 9
464.9
486.9
462.2
456.6
469.3
442. 1
439.4
430. 0
435.9
445.4
426.7
439.7
435.7
430.3
446.9
CHAN 3
LSI
ppmdry
15. 1
14. 1
13.6
13.2
13.0
1 3 . 0
13. 1
13. 1
CHAN 4
Bod an B
ppmdry
11.1
11.1
10.8
10.1
9. 1
11.2
12.9
12.9
FOR THE PREVIOUS 15 MINUTES
13.9
1 3 . 0
12.4
11.9
11.4
10.7
9.2
8. 1
7.8
8.5
8.9
8.9
8.7
8.7
9.5
9.3
FOR THE PREVI
9.8
FOR THE LAST
30 . 6
10.1
10.2
10.9
12.9
12.3
11.9
12.2
15.5
36.4
82.8
108. 1
104.0
101.6
103. 6
101.2
10.8
11.7
11.8
11.9
15. 1
16. 5
16.9
15.9
13.9
13. 1
14.8
17. 6
17.8
15.8
13.5
13.3
OUS 15 MINUTES
14.6
HOUR: 60 MINUTES OF VALID DATA
13.0
17.8
21.7
19.4
17.3
14.7
12.5
13.2
14.6
15.4
14.7
13.6
12.9
11.8
11.5
13.5
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
14:15 447.5 48.9 15.0
14: 16
452.6
98.9
14.3
B-120
-------
Ogden Martin Systems - HC1 Monitoring i
CHAN 1 CHAN 3 CHAN 4
TECO LSI Badens
TIME Dcmwet oomdrv oomdrv
14s 17
14: 19
14: 19
14:20
14:21
14:22
14:23
14:24
14:25
14:26
14:27
14:28
14:29
14: 30
AVERAGE
14: 30
14:31
14:32
14:33
14:34
.14: 35
14:36
14: 37
14:38
14:39
14:40
14: 41
14: 42
14: 43
14:44
14:45
AVERAGE
14:45
14:46
14: 47
14:48
14: 49
14:50
14:51
14:52
14:53
14:54
14:55
14:56
14i57
14:58
14:59
15:00
442. 1
440. 9
427.5
424.9
449. 2
471.7
467 . 0
444.3
431 . 0
434.4
415.0
417.3
420. 1
425.9
VALUES FOR
437.6
413.9
443.2
413.5
429.3
447. 4
426.7
441 . 8
468.3
470. 7
451 . 6
453.6
444. 0
462. 8
443.7
453. 0
VALUES FOR
444. 2
464. 0
445.7
420.8
456.2
455.7
432.3
439.5
445.7
438.3
454.7
443.6
451.9
460.7
418.3
388.4
104.2
109.9
112.0
110.6
107.2
104. 1
108.6
1 18.5
119.3
1 15.6
113.2
1 17. 2
122.0
123.5
THE PREV
112.3
121. 1
1 18.2
1 16.9
1 14. 1
117.3
116.6
1 18. 6
114.0
109. 9
110.7
114.8
114. 1
110. 0
106.2
104.7
THE PREV
1 1 3 . B
106.3
109.8
111.8
107. B
103.3
100.4
103.6
109.9
104.9
99.2
95.0
96.7
104.7
104.3
99.6
13.3
12.0
9.8
9.7
12.0
12.2
12. 1
9.9
8.9
9.9
1 0 . 3
10.3
1 0 . 0
9. 9
IOUS 15 MINUTES
11.0
10.7
12. 1
11.8
12. 4
13.5
12.0
12.3
14.7
15. 4
14.6
12.6
11.4
11.4
11.9
13.6
IOUS 15 MINUTES
12.7
13. 4
12. 1
10.5
11.4
12.2
IT* r>
11.4
9.8
9. 1
11.0
12. 1
10.9
9.6
8. 1
6.7
06-12-1987
B-121
-------
Ogden Martin Systems - HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodens
TIME ppcnwet ppmdry ppmdry
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
15:00 441.1 103.8 10.7
06-12-1987
AVE
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
ERAGE
00
01
02
03
04
05
06
07
08
09
10
11
12
13
14
15
VALUES FOR THE
442.6 94.
415.
445.
463.
478.
473.
434.
420.
422.
440.
467.
484.
461.
438.
447.
455.
8
O
r~j
0
5
0
f~t
^
6
4
6
6
(.")
j—i
8
8
94.
93.
95.
97.
95.
93.
95.
106.
104.
96.
94.
98.
103.
104.
98.
LAST
7
5
5
9
5
5
1
0
8
4
8
9
>-)
7
6
6
HOUR:
12.
6.
9.
9.
8.
8.
8.
7.
6.
7-
9.
10.
9.
7.
7.
7.
60 MINUTES OF VALID DATA
7
6
7
9
4
8
8
9
9
1
0
T1
5
8
9
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
15: 15
449. 9
98.2
8. 4
15:
15:
15:
15:
15:
15:
15:
15:
15:
15:
15:
15:
15:
15:
15:
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
492.
536.
544.
513.
496.
493.
497.
488.
479.
504.
506.
496.
495.
492.
492.
1
7
8
6
•7|
5
7
5
5
"T
5
2
8
o
2
1
1
1
1
1
1
1
1
1
1
1
1
1
95.
99.
04.
06.
06.
07-
13.
15.
15.
11.
05.
08.
14.
16.
IB.
1
1
8
5
3
4
1
4
5
6
7
4
T
9
9
9.
8.
7-
7.
7.
8.
8.
7.
6.
6.
8.
8.
7.
7.
7.
0
9
8
-T
4
6
8
9
7
9
0
0
3
4
0
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
15:30 502.0 109.3 7.8
15J31
13i32
15i33
15«34
15B35
15i36
15e37
15! 38
15i39
485.9
462.6
431. 1
404.8
406. 1
433.7
456. 1
465.8
452.9
115. 1
109.7
110.7
114.0
114.2
110. 1
105.5
1 00-. 7
99.9
7.5
7.6
7. 4
7.2
6.8
6.7
7. 1
8. 1
8.6
B-122
-------
Ogden Martin Systems - HC1
CHAN 1 CHAN 3
TECO LSI
TIME ppmwet oomdrv
15:
15:
40
41
15s42
15-.43
15:44
15:45
AVERAGE
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
16
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
00
AVERAGE
16
00
AVERAGE
1 6 : 00
16
16
01
02
16:03
16
16:
16:
16:
04
05
06
07
16808
16:
09
16: 10
163 11
16i 12
16: 13
16: 14
16: 15
AVERAGE
16i
16:
16:
16:
15
16
17
18
438.0
431.4
455.4
465. 1
470.3
470. 0
VALUES FOR
448. 6
467.3
473. 9
463.2
469. 7
480. 1
496. 8
478. 1
496.7
500. 2
493.8
522.0
499. 9
533.6
531 . 6
520. 0
VALUES FOR
495. 1
VALUES FOR
473.9
536.9
513.8
513.2
493.9
482. 5
50 1 . 3
479. 5
465. 5
491.2
502. 9
491. 1
504.4
514.5
522.9
501.0
VALUES FOR
501.0
529.7
512.5
513.3
106.2
110.8
108.8
103.5
102.7
109. 1
THE PREV
108. 1
1 15.3
1 12.9
107.2
106.3
112. 2
1 16.9
1 15.8
1 12.5
109- 3
1 12.6
123. 4
124. 7
1 19.3
115.3
117.3
THE PREV
1 14. 7
THE LAST
107.6
132.9
130.7
127. 1
122. 5
120.8
123.4
125.6
125.2
125.5
1 20 . 2
114.7
113. 1
116.6
123.0
123.3
THE PREV
123.0
119.6
116.6
117.0
Monitoring 06-12-1987
CHAN 4
Bod ens
Pfjmdxv
7.
7.
7.
7.
7.
7.
IOUS 1
7.
6.
6.
7.
8.
7.
8.
7.
7.
9.
9.
8.
7.
9.
1 1.
1 1 .
IOUS 1
8.
HOUR:
B.
10.
9.
8.
9.
9.
9-
9.
8.
8.
8.
8.
9.
9.
8.
7.
IOUS 1
9.
7.
8.
9.
B
O
f-^t
7
9
6
5 MINUTES
5
4
4
0
0
9
0
1
8
6
1
9
7
4
er
U
2
5 MINUTES
4
60 MINUTES OF VALID DATA
0
5
0
8
5
0
7
9
9
5
T
5
6
2
7
2
5 MINUTES
0
5
8
1
B-123
-------
Ogden Martin Systems - HC1
CHAN 1 CHAN Z
TECO LSI
TIME oomwet ocmdrv
16s 19
16:20
16:21
16:22
16:23
16:24
16:25
16:26
16:27
16:28
16:29
16:30
AVERAGE
16:30
16:31
16:32
16:33
16:34
16:35
16:36
16:37
16:38
16: 39
16: 40
16:41
16:42
16: 43
16:44
16:45
AVERAGE
16:45
16: 46
16: 47
16:48
16:49
16:50
16:51
16iS2
16:53
16:54
16i55
16:56
16s57
16:59
16:59
17iOO
486.0
496.2
478.8
498.4
498.2
484. 4
499. 4
504.6
473.4
496. 1
484.9
488. 1
VALUES FOR
496.3
487. 1
492. 4
470. 1
469.8
449.2
449. 8
441.3
431 . 0
458. 9
468. 8
448. 8
439. 9
454. 6
467. 0
494. 4
VALUES FOR
461 .5
457. 3
448.5
447.4
431 . 4
424.6
437.2
433. 0
446.3
477.4
450.4
458.7
464.3
465. 1
497. 1
496. 1
124.2
127.3
125.0
119.8
117.8
122.5
127- 1
122.7
116.9
119.3
127.6
128.6
THE PREV
122. 1
125.4
121 . 3
1 17.8
1 22. 1
128.7
127. 7
123.3
118.3
114.1
1 16. 5
121 . 7
122.8
1 15.2
106.3
111.3
THE PREV
1 19.5
126.8
127.0
1 19. 1
111.7
112.0
118.4
121. 1
118.4
111.5
108.3
114.9
121.8
124.3
121. 1
115.4
Moni tori ng
CHAN 4
Bodens
ppmdry
9. 1
8.9
8.9
10. 7
11.1
9.9
9. 1
10.4
11.5
12.0
12. 1
11.2
IOUS 15 MINUTES
10.0 £- 1 Hou
A \ r
AV €»
1 0 . 3
11.2
11.9
12. 3
11.5
10.3
10.4
1 0 . 8
13.1
1 3 . 0
10. 1
8. 4
9. 1
1 0 . 2
11.1
IOUS 15 MINUTES
10.9
1 0 . 0
8.6
8.6
1 0 . 0
11.1
11.2
9.7
9-7
11.2
11.4
11.1
10.6
10.0
10.7
11.2
06-12-1987
:3
/I7.I
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
17«00 455.7 118.1 10.3
B-124
-------
Ogden Martin Systems - HC1 Monitoring 06-12-1987
CHAN 1 CHAN 3 CHAN 4
TECQ LSI Bodens
TIME DDtnwet oomdrv oomdrv
AVERAGE
17:00
1 7 1 0 1
17:02
17:03
17:04
17:05
17:06
17:07
17:08
17:09
17:10
17: 11
17: 12
17: 13
17: 14
17: 15
AVERAGE
17: 15
17: 16
17: 17
17: IB
17: 19
17:20
17:21
17:22
17: 23
17:24
17:25
17:26
17:27
17:28
17:29
17:30
AVERAGE
17:30
17:31
17:32
17:33
17:34
17:35
17:36
17i37
17«3S
17:39
17:40
17:41
17«42
17i43
VALUES FOR
478.6
515. 1
498.3
484.2
483.5
487. 0
475. 2
493.6
514. 8
474.3
475. 4
499. 0
474. 6
486. 3
490.7
467. 6
VALUES FOR
488.0
467. 2
514. 7
472.3
496. 1
496. 0
491 . 7
512. 2
487. 6
498. 6
485. 8
473. 4
471. 4
483.7
511.4
507. 5
VALUES FOR
491.3
460. 4
485. 1
506. 5
469.7
474.6
463.8
484.6
519.9
529.3
552.9
516.4
514.7
527.4
THE LAST
120.7
1 15.6
126. 1
136.8
134.6
139.2
136.6
125.0
1 18.2
135.9
149.2
141.2
126.8
122. 4
130.0
141 .2
THE PREV
1 31 . 9
142. 1
134. 1
124.2
125.3
134. 1
133.2
131.3
126.6
133.0
139. 4
141. 1
136. 9
130. 0
127-2
132.2
THE PREV
132.7
138.5
142.2
134.9
126.0
128.5
135.2
138.0
136.2
129-7
129.3
139.4
149.8
149.7
HOUR: 60 MINUTES OF VALID DATA
10.1
11.7
11.7
11.8
11.5
9. 4
8. 4
11.4
13.8
12. 1
9. 8
15.8
10.8
12. 1
12.5
10.8
IOUS 15 MINUTES
11.6
9. 4
11.0
1 0 . 0
1 0 . 0
10.5
10.2
11.6
12. 6
14. 1
13.5
12. 5
12.3
14. 3
16.2
16.4
IOUS 15 MINUTES
12.3
13.1
12. 1
12.0
12.7
13.7
13.8
12.8
12.9
13.8
14.9
13.6
12. 1
12.5
B-125
-------
Qgden Martin Systems - HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodano
TIME _B£_mwet ppmdry ppmdrv
06-12-1987
17:
17:
44
45
AVERAGE
17:
17:
17:
17:
17:
17:
17:
17:
17:
17:
17:
17:
17:
17:
17:
18:
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
00
AVERAGE
18:
00
AVERAGE
18:00
18:
18:
18:
IS:
18:
18:
18:
18:
18:
18:
18:
18:
18:
18:
18i
01
02
03
04
05
06
07
08
09
10
11
12
13
14
15
AVERAGE
18:
ISi
18:
18:
18:
18:
18:
18:
15
16
17
18
19
20
21
22
554.
556.
._T7 F
4
1
VALUES FOR
507.
574.
587.
614.
589-
599.
597.
630.
613.
631.
634.
621.
633.
618.
628.
623.
7
5
5
5
5
9
7
j£
5
8
9
9
Tj
0
.c.
4
VALUES FOR
613.
•-•
VALUES FOR
525. 1
662.
640.
652.
642.
588.
575.
612.
638.
599.
632.
565.
230.
122.
1 00 .
88.
9
7
8
2
T|
8
8
4
9
9
9
7
8
3
5
VALUES FOR
490.
84.
80.
74.
76.
66.
72.
65.
3
0
8
2
1
1
5
4
= .fT. ..:..-
143.
138.
THE
137.
156.
166.
161 .
154.
154.
170.
179.
181.
173.
169.
177.
196.
195.
1B7.
180.
THE
173.
THE
143.
179.
194.
200.
201 .
197.
192.
186.
179.
170.
161 .
151.
135.
115.
98.
87.
THE
163.
76.
69.
61.
52.
44.
37.
30.
3
5
PREV
T,
3
7
1
8
5
1
~T
1
9
9
5
9
6
0
B
PREV
7
LAST
9
6
Tj
1
4
8
7
7
9
9
3
8
8
1
2
1
15.
16.
IOUS 1
13.
15.
13.
13.
14.
15.
15.
14.
12.
13.
16.
16.
15.
13.
12.
14.
IOUS 1
14.
HOUR:
12.
16.
16.
16.
16.
18.
20.
20.
21.
20.
22.
13.
0.
-2.
_2 .
-2.
PREVIOUS 1
5
5
0
4
5
6
7
1
13.
-2.
-2.
-2.
-2.
-2.
-2.
-3.
7
7
5 MINUTES
5
5
9
-T
1
0
3
1
2
7
6
B
6
5
7
4
5 MINUTES
4
60 MINUTES OF VALID DATA
9
2
7
1
5
9
B
2
7
B
9
4
0
1
4
5
5 MINUTES
1
7
3
0
3
5
6
1
B-126
-------
Ogden Martin Systems - HC1
TIME
18:23
18:24
18:25
18:26
18:27
18:28
18:29
18:30
AVERAGE
18:30
18:31
18:32
18:33
18:34
18:35
18:36
18: 37
18: 38
18: 39
18:40
18: 41
18:42
18: 43
18: 44
18: 45
CHAN 1
TECO
ppmwet
64.5
61.8
58.4
57.9
53.2
56. 7
53.4
60 . 2
VALUES
65.7
52.3
55.4
51.3
47. 3
54. 9
53. 0
45. 8
47.3
47.5
43.9
43. 3
45. 0
43. B
40. 0
46.0
CHAN 3
LSI
jspmdry
24.9
20. 1
15.2
12.5
10.7
9.2
7.0
4.8
FOR THE PREV
31.8
3.8
2. 9
1.5
1.2
0 . 4
-0. 8
-0. 6
-1.0
/""1 1
JL. m 1
-2. 1
~"~ -fc- • jL.
~*~ .LI! • • '''
-2.4
-2. 8
"T •)
•_' • 1
Monitoring
CHAN 4
Bodeno
ppmdry
-2.3
-2.4
-1 .7
-1.9
-2. 2
-3. 0
-3. 1
-2. 8
I OUS— t-S\ MINUTES
P2.5J
-1.7
-2. 1
-2. 0
38. 3
43.0
4^jX,
f 43.8U
U3.6'
L4^
izTb
-3. 1
1 • 0>
IB. 9
36. 6
46. 9
06-12-1987
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
18:45 47. B -0.6 24.3
18:
18:
18:
18:
18:
18:
18:
18:
18:
18:
18:
IS:
IS:
IS:
19:
46
47
48
49
50
51
52
53
54
55
56
57
58
59
00
40.
44.
45.
44.
41 .
46.
35.
41.
41.
46.
41.
42.
44.
41.
41.
6
8
0
8
3
1
7
5
*-%
*!.
5
7
3
7
8
8
— "^
-4.
-4.
-5.
-5.
-5.
-5.
O »
(-£~'
\-6.
\-6.
-6.
-7.
-7.
-7.
B
~T
6
Tj
6
8
9
T1
7?
7
7/
•^^"
9
1
4
7
53.
57.
60.
61 .
63.
64.
64.
64.
65.
66.
65.
r£5^.
65.
^87
10.
6
1
0
8
•3
4
-T
B
4
1
JL
9
_9
2
5
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
19:00 42.7 -6.0 58.5
AVERAGE VALUES FOR THE LAST HOURi 60 MINUTES OF VALID DATA
19800 161.6 47.1 23.4
19i01
41.
-7.6
B-127
-------
Qgden Martin Systems - HC1 Monitoring 06-12-1987
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodems
T_I ME ppmtsiet ppmdry ppmdry
19:
19t
19t
19:
19i
19:
02
03
04
05
06
07
44.
46.
163.
357.
426.
464.
6
5
8
0
8
0
-7.
-7-
-8.
-5.
22
67.
7
8
0
7
4
4
1.
0.
2 m
10.
13.
20.
6
6
8
5
6
1
B-128
-------
Qgden Martin Systems - HC1 Monitoring
CHAN 1 CHAN 3
TECO LSI
TJME ppmwet ppmdry
21:11 545. 1 191.6
21: 12 544. 4 194.2
21:13 550.0 198. 1
21:14 53
21:15 53
21:16 53
21:17 r5~4
21:18 54
21:19 55
21:20 55
21:21 k5_5
21:22 53
21:23 52
21:24 24
21:25 14
21:26 11
9.7 199.3
9.6 200.3
4. 7 202. 1
STE^ 203.4
8.5 204.9
9-7\ 206.0
2.9^ 207.0
y^45j 208.5
9. 1 209.0
1.6 210.1
3. 1 2^_4J_9
-i_ • x jL- -L M" • •_•
4.0 / 2 1 4 . 4
21:27 95.9 ^214.2J
2 1 : 28 9
21:29 8
3 . 6 V2-T3 .-8»
5.7 214.6
CHAN 4
Bodeno
ppmdry
38.7
27.3
24.0
26.6
27. 6
23.9
20 . 5
20.7
22. 5
20. 7
IB. 7
16.0
16.0
16.0
15. 4
15.0
12. 1
10.5
10.1
06-12-1987
SUMMARY OF HC1 MONITORING DATA
RUN;
B-129
-------
SUMMARY OF HC1 MONITORING DATA
RUN: 10
SOURCE: Ogden Martin Systems - Characterization Test
TEST DATE: 6/15/87
GAS VALUE INITIAL CAL
***TECO (INLET)***
0.0 ppm HC1
1222.0 ppm HC1
***LSI (MIDPOINT)***
0.0 ppm HC1
259.0 ppm HC1
***BODEN. (OUTLET)***
0.0 ppm HC1
65.0 ppm HC1
HOUR TIME
1 12:30 - 13:30
2 13:30 - 14:30
3 14:30 - 15:30
4 15:30 - 16:00
6.5
. 1210.0
0. 1
259.0
-0.4
NA
UNCORRECTED
INLET
(wet)
552.2
603. 1
677.0
612.0
***RESULTS CORRECTED FOR CALI
HOUR TIME
1 12:30 - 13:30
2 13:30 - 14:30
Z 14:30-15:30
4 15:30-16:00
3.5-HR AVERAGE
Highest 1 Min. Avg.:
Lowest 1 Min. Avg.:
INLET
(dry)
629 . 3 .
690.0
778. 1
700.6
699.3
958. 9
522. 1
FINAL CAL
42.7
1250.0
-7.3
2B6.7
-0.7
71.4
RESULTS
MIDPOINT
(dry)
1 •_> j . .*.
147.0
137. 7
11B. 1
BRATIDN BIAS AND
MIDPOINT
(dry)
130.0
141. 1
132.4
114.0
131.6
184.0
97.7
MEAN CAL
24.6
1230.0
-3. 6
272.9
-0.6
71.4
OUTLET
(dry)
20.4
21.7
7.0
5.4
DRIFT***
OUTLET
(dry)
18.9
20.1
6.6
5.4
13.9
35.1
4.4
NOTE: Inlet concentrations were measured on a wet basis and
corrected to a dry basis using a*
Moisture = 15 •/,
B-130
-------
Qgdsn Martin
CHAN
TECO
Systems -
1 CHAN
LSI
TIME ppmwet oomd
08: 18 3
08: 19 3
08:20 2
08:21 6
08:22 6
08:23 3
08:24 5
08:25 3
08:26 3
08: 27 0
08:20 1
08:29 ^— LU
08:30 -3
08:31 -0
08:32 8
08: 33 9
08:34 6
08:35 5
08:36 5
08:37 7
08:38 7
08:39 3
08:40 5
08:41 5
08:42 5
08: 43 ^_5
08: 44 6
08: 45 -0
08:46 3
08:47 26
08:48 114
08:49 197
08:50 238
08:51 271
08:52 283
08:53 298
08:54 307
08:55 320
08:56 331
08:57 335
08:58 342
08:59 339
09:00 350
.7 0
.8 0
.4 0
. 3 0
. 2 0
. 0 0
. B 0
. o o
. 0 0
. 6 0
. 3 0
— SLj. 0
.9 0
.5 0
.8 0
- 1 0
. 7 0
. 5 ' 0
. 7 0
. 3 0
• ^ ft
3 \~'<
• 9 (j
.2 11
_^6J 71
.2 125
. 8 149
.0 167
. 3 1 79
. 3 IBS
. 4 195
. 5 200
. 3 206
.4 211
.2 215
.7 219
. 4 224
. 6 226
. 0 229
. 7 232
. 7 234
. 0' 2 •-' 6
HC1 Monitoring
3 CHAN 4
Bodens
.r_y P.P..!Hd_ry
.3 1.7
.4 0.4
.4 0.1
.4 -0.3
.4 -1.5
.4 -0.8
.4 -0.4
.4 -0.8
.5 -0.5
. 4 -0. 1
.3 -0.4
.4 -0.6
. 3 -0. 0
.6 72.0
.7 1.7
. 6 , -0. 0
.2 — 0 . 0
.3 15.5
.2 44.4
. \ -11.3
. 0 -2.1
.5 -0^9
. 9 r^oT4)
. 2 fO. 4 /
. 3 ^rrl
.8 26.8
.7 39.0
.5 39.7
.7 39. 1
.6 42.2
.2 46.8
. 5 49. 1
.9 43.3
. 0 39.6
.4 39.8
. 6 44. 1
.3 47.5
.6 47.5
. 8 42. 9
06-15-1987
AVERAGE VALUES FOR THE LAST HOUR: 43 MINUTES OF VALID DATA
09:00 90.4 82.2 20.6
09:
09:
09:
09:
09:
09:
09:
01
02
03
04
05
Oh
07
352.
355.
354.
358.
357.
366.
365.
9
B
B
B
0
1
9
238.
239-
241.
242.
244.
245.
246.
6
7
4
9
6
7
1
38.
40.
50.
55.
51.
47.
43.
B-13
5
1
7
3
2
0
4
1
-------
Ogden Martin Systems - HC1
CHAN 1 CHAN 3
TECO LSI
TIME
095 08
09 : 09
09: 10
09: 11
09: 12
09: 13
09: 14
09: 15
AVERAGE
09: 15
09: 16
09: 17
09: 18
09: 19
09: 20
09:21
09:22
09:23
09:24
09:25
09: 26
09: 27
09: 28
09:29
09: 30
AVERAGE
09: 30
09:31
09:32
09:33
09:34
09: 35
09:36
09:37
09 : 38
09:39
09:40
09:41
09:42
09:43
09i44
09s 45
AVERAGE
09s 45
09:46
09:47
09: 48
09:49
09:50
ppmwet
367.4
366. 2
373. 4
376. 1
377.8
rz.eTTB"
\ 381.2
] 38 1 . 9J
VALUES
367.8
379. 1
381.9
380. 4
427.8
406. 2
583. 0
724. B
772. 1
795.2
806. 4
806. 5
817. 6
818. 4
816. 3
823. 4
VALUES
649.3
822.4
818. 9
831.7
832. 3
832.4
831.9
839.6
835 . 0
837 . 3
850.9
842.8
849. 1
845.2
844.8
846.2
VALUES
837.4
849.8
847.5
853.4
866,. 8
855.2
ppmdry
247- 1
247.3
241.4
217-0
j\ 178.5
F 137.5
I 104.9
' 83.0
1
FOR THE PREV
210.4
68.7
57.4
48.7
43. 9
40. 1
33.8
67. 0
98. 4
149. 7
189.9
208.2
223.9
234.6
242. 1
241 . 2
Moni tori ng
CHAN 4
Bodens
ppmdry
46.6
51.2
47.7
42.6
40. 7
42. 1
51. 1
55.4
IOUS 15 MINUTES
46.9
50. 1
43.0
46. 1
54.2
58 . 0
61 .9
54.5
56.4
63.7
68.7
72. 9
72. 1
66. 6
61 . 4
60. 5
FOR THE PREVIOUS 15 MINUTES
129.8
244. 0
247.3
248.8
250. 0
251. 1
253. 1
254.7
256.3
257.2
257.9
259.2
260.3
261.4
261.5
261. 1
59. 3
59.9
63. 6
67.5
63.9
59.3
59.2
78. 1
92.8
78.6
65.5
63. 2
64.7
64.3
61.6
56. 1
FOR THE PREVIOUS 15 MINUTES
254.9
263.5
264.8
264.8
264.9
265.0
66.6
51.3
53.9
57.8
63.7
69.6
06-13-1987
B-132
-------
Ogden Martin Systems - HC1 Monitoring 06-15-1987
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodens
TIME ppmwet ppmdry Domdrv
09:51
09:52
09:53
09: 54
09:55
09:56
09:57
09:58
09 : 59
10:00
AVERAGE
10: 00
AVERAGE
10: 00
1 0 : 0 1
10:02
10: 03
10: 04
10: 05
10:06
10: 07
10: 08
10: 09
10: 10
10:11
10: 12
10:13
10:14
10: 15
AVERAGE
10:15
10: 16
10: 17
10: 18
10: 19
10: 20
859. 7
866. 9
866.6
868. 7
872. 2
870. 7
874.3
865. 9
880.0
879. 2
VALUES
865. 1
VALUES
679.9
874. 8
889. 3
879- 3
885. 5
884. 3
880. 6
886. 1
884.3
885. 6
882. 7
885.7
880. 6
889.9
886.8
894. 7
VALUES
884. 7
929. 6
1003. 4
984.7
910.2
910. 3
265.0
264.6
266. 1
264. 6
262.8
f 259.0 /
\258.5 1
'259.0
259. 6
259.3
FOR THE PREV
262.8
FDR THE LAST
214.5
258. 5
215. 3
164.3
133. 1
1 12. 4
94. 6
82.8
75. 3
66.9
61 . 1
54.5
51 .7
50. 1
53. 4
54.0
FOR THE PREV
101.9
51.4
49.2
48.5
48. 0
47.5
77.2
76. 1
67. 2
60. 2
63.3
70.8
70.3
69.0
67.2
67.6
IOUS 15 MINUTES
65.7
HOUR: 60 MINUTES OF VALID DATA
59.6
71 . 3
76. 4
74. 9
64.7
61. 1
63.7
65. 0
65. 1
62. 2
61 . 6
57.3
56.3
58. 7
65. 4
68. 7
IOUS 15 MINUTES
64.8
66.6
62.6
55.5
57.3
64.2
B-133
-------
Qgdon Martin Systems - MCI Monitoring 06-15-1987
CHAN 1 CHAN 3 CHAN 4 CHAN 2
TECO LSI Bodens
TIME Domwet
10:
10:
10:
10:
1 0 :
1 0 :
1 0 :
10:
1 0 :
1 0 :
10:
10:
10:
10:
1 0 :
1 0 :
10:
1 0 :
10:
1 0 :
1 0 :
1 0 :
1 0 :
10:
] 0 :
1 0 :
1 0 :
1 0 :
1 0 :
1 0 :
10:
10:
1 (J :
10:
1 0 :
1 0 :
10:
1 1:
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
4G
49
50
5i
52
53
54
55
56
57
58
59
00
168.
110.
75.
62.
62.
64.
60.
50.
47.
44.
48.
33
34.
• ''* jl'' •
3 0 .
40.
26.
29.
3r~'
24.
•-'• v-J .
26.
28.
38 .
28.
~: '--
3 3
26.
26.
26.
24.
33
26.
~< "T
35.
24 .
^ *l' .
27.
B
4
9
C"
S.J
6
1
7
7
6
5
-T
8
1
8
/]
4
6
0
1
9
4
9
•^r
0
4
cr
4
~7
6
1
4
7
6
6
5
9
8
J.
ppmdry ppmdry
112.
3 0 2 .
225.
157.
128.
106.
113.
77.
52.
40.
34.
26.
24.
.ii! -I1' •
24.
24.
T'3
r—, r-,
21 .
21 .
19.
17.
16.
15.
14.
14.
14.
i 3 .
13.
1 2 .
12.
1 1 .
1 1 .
o
7.
7.
6.
5.
0
"T
-T
6
1
0
7
5
4
0
8
7
4
-^
B
7
9
5
7
0
6
9
cr
4
8
4
1
7
-^
8
-T
9
1
2
6
0
8
il'
55.
51 .
cr rr
61 .
64.
60.
54.
55.
61 .
69.
71 .
66.
60.
60.
6-~j
j_ .
69.
71 .
66 .
63.
56.
57.
64.
63.
62.
53 .
c," '-;.
56.
59.
56.
51 .
54.
64.
67.
67.
61 .
44.
28.
26.
2
9
2
5
9
0
1
j^.'
9
4
6
<:>
T
9
8
1
1
7
0
5
-T
.•''
5
1
9
B
B
4
7
4
9
3
7
9
-*L.
4
B
7
ppm C
0.
0.
0 .
19.
50.
50.
50.
50.
50 .
50 .
26.
15.
15.
15.
15.
16.
16.
16.
15.
4.
0 .
0 .
0 .
0 .
- 0 .
- C) .
-- 0 .
-0.
— 0 .
21 .
49.
50.
50.
50.
31 .
15.
14.
14.
:0
1
0
1
6
5
7
8
7
8
B
0
3
4
6
8
1
0
0
9
8
7
7
7
4
1
'-i
jj1
i
ii!
6
9
3
9
9
6
0
7
8
AVERAGE
1
1
1
1
1
1
1
1
1
1
1
1
00
01
02
03
04
05
VALUE
42.
25 .
35.
l~?r~'
28.
26.
B FOR THE
1
CT
J
^
"T
2
1
47.
5.
cr
vJ .
5.
5.
5.
LAST
0
3
7
9
9
7
HOUR:
56.
40.
E=" '-j
54.
48.
46.
3B
7
7
o
cr
wJ
0
1
MINU
T1
1
1
—
-
TES OF VALID DATA
0.
4.
4.
4.
0.
0.
6
7
6
r~)
5
4
B-134
-------
Qgden Martin
CHAN
Systems - HC1
1 CHAN 3
TECO LSI
T I ME ppmw
1 1 : 09 -2
11:10 rL
11:11 7
11:12 3
11:13 9
11:14 5
11: 15 Y-?
e*t pjDmdry
.7. 5.3
Tot 5. 1
.7 4.8
.7\ 4.5
.4 4.2
.9^ 4.1
T^T 4.2
11: 16 102.7 4. 1
11:17 650. 9 4.5
11:18 903. 7 4.8
11:19 1007
.5 105.0
11 : 20 1048. 8 259. 1
11:21 1078.3 319.5
11:22 1084.5 355.2
11:23 1121
1 1: 24 112:
11:25 112~
. 8 379. 1
r,.6 363.2
i.2 285.2
1 1 : 26 1 136. 3 242. 1
11:27 1137.0 215.8
11:28 115'
k4 207.5
11:29 1159-9 213.4
1 1 : 30 1 155. 1 224. 2
11:31 1158.9 221.0
11:32 1168.9 212.5
t \ : 33 1 158. 7 205. 9
11:34 115C
11:35 1171
1 1 : 36 115:
11:37 [7 18 J
;.4 198.6
. 1 2 10.1
l^H 216. B
.0 209.3
1 1:38 jl 176. 1 202. 2
11:39 PllB8.4 205.7
1 1: 40 i\l 178. 4 211.8
11:41 1)1166.7 214.7
11 : 42 1.1 175. 1 212.9
11:43 \1164.7 202.3
11:44 \U84.5 194.3
11:45 1176.6 193.3
11:46 1194.3 207.5
11:47 1182.6 207.6
11:48 1185.8 197.6
11:49 1194.7 188.5
11:50 1202.7 179-9
11:51 1186.8 187. 2
11:52 1189.3 194.0
11:53 1197.1 190.0
11:54 1197.5 185.9
11:55 1186.2 173.0
11:56 1199.6 163.0
11:57 1203.7 169.6
11:58 1185.4 190.4
11:59 1209.0 208.8
12:00 1207.4 207.2
Moni tor i ng
CHAN 4
Bodens
ppmdry
56. 8
48. 4
34.9
25.7
34.6
55. 9
51.9
44. 0
36. 5
45.2
59.5
70. 6
76. 4
73.6
63. 8
56. 6
53. 7
53. 8
59. 3
60. 7
62. 2
65. 1
67. 9
76. 7
84. 1
79. 4
79.3
79. 4
62. 4
82. 5
83. 9
79- 7
73.9
71 . 9
79. 0
77. 7
74.5
64.5
54.5
56. 3
59. 1
58.5
53.5
45.7
40.2
42. 0
50. 6
60.9
62. 1
59.9
54. 0
06-15-1987
B-135
-------
Ggden Martin Systems ~ HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodens
11 ME" Pfin)west._ PJ?_.1ldr_y J2prndr.y
06-15-1987
AVERAGE VALUES FOR THE LAST HOUR: 52 MINUTES OF VALID DATA
12 00 971.4 176.5 60.7
12
12
12
12
12
1 "^
X (U.
1 2
1 2
12
0 1 f
02 \
03
04
0'5
06 J
07
08
09
•— — •
1
1
1
1
1
1
1
1
1
^
^
•7.
o
ji.
o
^
TI
o
.^^^3
17.
0 3 .
05.
08.
1 1 .
06.
05.
16.
J 2 .
""N
9
0
4
4
9 ,
J
.'; I
~ I
7
8
6
T
j^.
j^.
^
1-7
j;!.'
jL.
1
1
06.
0 0 .
12.
36.
49.
39.
12.
92.
R1 .
6
5
1-'
6
9
*.'.'
9
7
0
57.
69.
84.
86.
69.
51 .
37.
41 .
S4_
3
9
1
1
-T
1
5
6
A
12
12
1 '','•''
10
1 1
12
13
14
120
190. 6
204.
208.
202.
195.
6
4
6
o<
57. 0
58. 1
56. 0
48. 9
49. 8
B-136
-------
Cgden Martin Systsmc - HC1 Monitoring 06-15-1937
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodens
T I_M_E PP-dM^t ppmdrX-
12:17 696.9 192.8
12:18 659.2 178.8
B-137
-------
Ggden Martin Systems -- HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECG LSI Bodens
06-15-1987
TIME Bpmwe?t ppmdry _ppmdry
12: 22
12:23
12:24
12:25
12:26
12: 27
12: 2(3
12:29
1 2 : 30
AVERAGE
12:30
12:31
12; 32
12: 33
12:34
12:35
12: 36
12: 37
12: 38
12: 39
1 2 : 40
1 2 : 4 1
12: 42
12:4 3
12: 44
12: 45
AVERAGE
12:45
12: 46
12: 47
12:40
12: 49
12:50
12:51
12:52
12:53
12:54
12:55
12:56
12:57
12:38
12:59
13:00
AVERAGE
13:00
13:01
13:02
13:03
614. 6
605. 3
603. 7
613. 0
610.4
598.8
567. 7
594.9
632. 0
VALUED FOR
604. 5
609. 7
567. 8
605. 5
570. 1
552. 1
552.8
528. 8
548. 2
566. 5
533. 1
540. 4
535. 1
549. 6
509.7
482. 6
VALUES FOR
550. 1
476.5
487. 9
527.5
518. 1
cr t~t •— i -— i
i_J jL. jl . jL.
507. 0
520. 7
508. 2
540. 6
536.2
537. 5
512.2
500. 5
485.2
490. 4
VALUES FOR
511.4
504. 2
504 . 0
507.7
179. 7
177.7
169. 0
161.5
156. 7
155.9
159-8
158. 8
149. 6
THE LAST
163.2
141.8
144. 8
150.2
151. 1
151 . 1
145. 5
135. 4
132. 9
135. 8
143. 6
147. 9
137. 0
128.4
125. 5
128. 3
THE PREVI
1 40. 0
131.5
128. 3
122.5
1 19. 4
122. 8
124. 0
128.0
131 .4
131 . 6
127.6
126. 5
127. 4
126.5
129.7
128.2
THE PREVI
127.0
125.9
124. 1
124.6
36.2
~^i O ^
24. 8
/—,/—, i-~ |
j^. *L- • *i-
2 1 . 0
20. 1
18. 6
18. 7
19. 4
H 0 U R : 9 MINUTE S 0 F VALID D A T A
*~*r T CT
il •„'! • 1..J
20 . 5
19. 4
20. 1
18. 7
16.0
15.9
15. 9
18.4
21.5
19. 2
16.9
15. 1
15. 7
16. 3
16. 3
CJI.IS 15 MINUTES
17.7
16. 6
16.3
17. 2
17.0
19. 1
21 . 8
23. 7
00 0
J— -ll_ • /
22. 8
20. 5
1 9 . 0
19- 4
19- 7
18. 8
18.2
GUS 15 MINUTES
19.5
20. 1
70 5
22. 9
B-138
-------
CgcJsn Martin Syctsma •- HC1
CHAN 1 CHAN 3
LLf
13
13
13
13
13
13
13
1 "T
1. '*J
13
13
13
13
AV
13
13
13
13
13
13
1 3
1 T
j. •_.'
1 3
13
13
1 3
13
13
13
13
1E
04
05
06
07
08
09
10
11
12
13
14
15
JRAGE
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
AVERAGE
13s 30
AVERAGE
1 3 : 30
13:31
13:32
13:33
13:34
13i35
13:36
13i37
13i38
13»39
13:40
13:41
13:42
13:43
13:44
13:45
TECD
_PPJP.wet.
543. 1
533 . 6
497. 4
513.7
560. 7
543.8
558. 3
529. 9
537. 3
554.5
538. 0
562. 0
VALUES
532.5
539. 6
571 . 4
583. 3
578. 3
589. 9
604. 1
616. 4
632. 4
655. 6
670. 0
681 . 1
638. 6
612. 9
611.9
635. 6
VALUES
614. 7
VALUES
cr er *— r '-.
v_J ._> jL. . jL.
690. 3
695. 0
674.0
687. 1
709. 3
638.6
634. 9
665.3
678.5
702.2
642.4
564.9
533.2
490.6
508.3
LSI
pptndry
127.7
126.5
130. 1
135.8
131.4
133.4
135. 1
132. 0
130. 2
127. 7
127. 2
131. 0
FOR THE PREV
129.5
132. 1
137. 0
136. 7
135. 2
138. 2
135. 8
137. 3
137. 2
139. 8
149. 6
164. 9
169. 9
161 . 2
149.5
139. 9
FOR THE PREV
144.3
FOR THE LAST
135.2
136. 1
147.5
166. 5
172.3
164.8
162. 1
165. 7
159.6
164.2
182.7
192.9
182.5
174.2
161.8
151.7
Monitoring 06-15-1987
CHAN 4
Bodenfc
_ppmdry_
26.7
29. 7
28.0
29.0
29. 3
26.2
22. 5
18.9
19. 2
20 . 6
20. 8
22.5
IOUS 15 MINUTES
23. 9
22. 2
23. 0
21 . 9
19.3
19. 1
19. 3
19. 6
21 . 5
24. 7
26. 6
25.0
19. 1
15. 6
14. 7
16.6
IOUS 15 MINUTES
20. 5
HOUR: 60 MINUTES OF VALID DATA
20 . 4
21 .6
23. 9
23. 6
25. 0
25.2
23.7
25.8
33.8
38.3
36.9
32.6
29.8
29 . 0
28.3
32. 1
B-139
-------
Ogden Martin Systems - HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodens
TIME ppmwet
AVERAGE
13:45
13:46
13:47
13: 4B
13:49
13:50
13:51
13: 52
1 3: 53
13:54
13:55
13: 56
13: 57
13: 58
13:59
1 4 : 00
AVERAGE
14: 00
1 4 : 0 1
14:02
14: 03
14:04
14:05
14: 06
14:07
14:08
14:09
14: 10
14: 11
14:12
14:13
14: 14
14: 15
AVERAGE
14: 15
14: 16
14: 17
14: 18
14: 19
14>20
14s21
14s22
14:23
14s24
14:25
14i26
14s27
14:28
VALUES
634.3
551 .7
563.9
562. 1
556.9
558. B
569. 1
570.7
594. 0
587. 4
588. 7
569.6
531. 1
542. 7
561 . 3
554. 5
VALUES
564.2
608. 1
599. 4
538. 7
531 . 0
547. 3
550. 1
570.6
602. 7
538.6
462.4
476. 6
534 . 8
555.4
604.8
612.3
VALUES
555.5
592. 9
571.5
555. 1
527.5
574.3
618.5
675.9
680. 6
639.3
688.2
780.5
741. 1
728.2
_ppmdry ppmdr.y.
FOR THE PREVIOUS 15
165.6 28.6
144.8 35.0
151.3 32.5
161.1 27.9
158.3 24.4
150.7 22.3
142.5 21.3
138. 4 21.2
136.8 24.4
140.2 25. 1
155.2 23.0
155.6 19. 1
152.4 16.3
140.7 16. 1
131. 9 17. 1
127.5 18.6
FOR THE PREVIOUS 15
145.8 23.0
131 . 1 20. 7
136. 2 21. 1
143.2 20.3
145.6 20.0
138. 1 20, 6
132.6 21.5
132.2 24.6
133.3 26.6
143.6 24. 1
152.1 21.1
1 /L ~r T o r\ f~i
J- t •_'.-' £ U . ±-
1 30 . 5 20 . 0
122.4 20.9
125.7 23.0
138.6 22.8
FOR THE PREVIOUS 15
136.6 21.8
152.7 20.3
149.4 16.8
140.2 13.6
133.2 11.6
127.3 12.3
122.9 13.5
126.0 14.9
136.0 14.0
147.0 11.9
146.0 11.1
135.8 12.8
132.7 12.0
146.1 11.5
MINUTES
MINUTES
MINUTES
06-13-1787
B-140
-------
Ggden Martin Syetama - HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodens
06-15-1987
TIME
14:29
14:30
AVERAGE
14:30
AVERAGE
14:30
14:31
14: 32
14: 33
14:34
14:35
14: 36
14:37
1 4 : 38
14:39
14: 40
14: 41
14: 42
1.4: 43
14: 44
14: 45
AVERAGE
14: 45
14: 46
14:47
14: 48
14: 49
1 4 : 50
14:51
14:52
14:53
14:54
14:55
14:56
14:57
14:58
14:59
15:00
AVERAGE
ISlOO
15:01
15:02
15:03
15:04
15:05
15:06
15:07
-PpnMet PJP.mdry__ __ ppmdry
756.5 152.8 11.5
743. 4
VALUES FOR
658. 2
VALUES FOR
603. 1
697. 1
711.7
667. 9
627. 1
622. 6
588. 1
632. 9
627. 0
634. 1
620. 9
627. 6
672. 5
656. 8
611.4
600. 6
VALUES FOR
639. 9
607. 3
615. 1
592. 6
609. 8
591. 8
551.5
589. 2
553.5
576.5
594. 7
577.7
624.6
613.2
619.7
610.3
VALUES FOR
595.2
6O9.9
646.7
703.7
675.2
731. 1
798.0
786.5
152.5
THE PREV
140. 0
THE LAST
147.0
151 . 1
148.5
141 .9
139.1
140. 8
136. 2
132. 7
124. 4
124. 2
127.5
126. 0
123. 0
119.0
120. 4
125. 4
THE PREV
132. 0
123.5
122.5
121 . 6
122.3
121 .6
120. 1
1 16.6
1 12. 6
111.1
109. 0
109. 1
111.5
112.0
115.6
118. 2
THE PREV
116.5
117.2
1 13.2
109.5
111.2
119.0
122.8
131.2
10.7
IOUS 15 MINUTES
13.2
HOUR: 60 MINUTES OF VALID DATA
21.7
9.7
8. 9
8.5
8. 2
7.8
7.8
7.5
8. 0
7. 8
7.3
6. 1
6. 1
6. 4
5.9
6. 1
ICH.JS 15 MINUTES
7. 5
6.5
7. 1
7. 0
6. 7
5. 9
5.5
5. 3
5. 2
5. 7
5. 3
5. 4
6.2
6.3
6. 6
6.3
IOUS 15 MINUTES
6. 1
5. 1
4.7
5.3
4.8
5. 0
5.9
6.9
B-141
-------
Cgden Martin
CHAN
TECO
TIME
15:
15:
15:
15:
15:
15:
15:
15:
oa
09
10
1 1
12
13
14
15
AVERAGE
15:15
15-
15:
IS-
IS
15
15
15
15
15
15
15
15
15
15
15
16
17
18
19
20
21
22
23
2.4
25
2 to
27
28
29
30
AVERAGE
15
AVE
15
15
15
15
15
15
15
15
15
15
30
:RABE
30
31
32
33
34
35
36
37
3S
39
15:40
15:41
15
42
15i43
15:44
15:45
AVERAGE
15:45
15
: 46
Systems ~
1 CHAN
LSI
HC1 Monitoring 06-15-1987
3 CHAN 4
Baden®
ppmnet. _E>piridry
775
801
828
797
798
793
779
774
.
w
m
m
m
f
m
•
8
7
6
9
-T
7
'-I
JL.
6
VALUES FOR
753
766
783
772
789
748
748
733
712
723
705
704
665
661
640
641
-
m
f
m
m
m
„
.
B
„
m
B
.
B
•
4
6
6
6
4
4
0
4
4
1
5
0
4
1
8
T
VALUES FOR
719
-
7
VALUES FOR
677-0
638
648
628
629
619
636
641
654
671
673
639
620
632
638
637
a
m
m
m
,
m
„
„
*
.
m
m
m
•
4
9
0
0
0
6
1
4
6
9
9
0
7
6
8
VALUES FOR
640
630
•
•
7
5
1
1
1
1
1
1
1
1
51
54
51
50
51
57
71
79
.
,
.
.,
m
.
.
•
THE
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
T
1
39
74
67
61
63
70
78
78
69
61
55
51
55
cr cr
wJ^J
51
44
HE
62
•
.
„
.
.
.
m
f
m
m
B
„
M
.
•
•
THE
137.
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
36
30
26
30
-T-T
30
25
19
17
21
24
28
26
21
19
n
B
m
.
„
m
m
m
B
„
m
m
m
•
THE
1
1
26
19
•
•
-T
6
1
0
6
9
8
9
PREV
5
i-^
6
9
5
6
7
7
4
0
4
7
"^
~T
4
5
PREV
6
LAST
7
O
9
9
7
9
5
0
1
9
5
7
4
"•>
5
3
ppmdr y
7
7
6
6
6
7
8
8
IOUS
6
8
7
8
8
9
9
9
8
7
7
7
7
6
7
7
IOUS
8
HOUR
7
6
6
6
6
6
6
cr
,_J
6
5
5
5
5
5
5
5
PREVIOUS
2
7
5
4
.
.
.
.
.
•
.
•
1
•
.
.
.
B
B
.
.
.
.
„
m
.
m
B
•
1
•
•
B
.
.
.
•
.
.
.
.
.
.
.
.
•
1
•
•
5
1
9
~7
5
5
6
7
5 MINUTES
5
7;
9
1
8
5
~T
4
0
6
0
8
jil
9
1
0
5 MINUTES
0
60 MINUTES OF VALID DATA
o
4
3
o»
5
3
1
7
0
3
7
5
1
-T
9
Tj
5 MINUTES
B
9
B-142
-------
Ogdean Martin Sy*tsjfn« - HC1 Monitoring
06-i5-1987
TIME
15:47
15i4B
15:49
15s50
15:51
13s 52
15:53
15:54
15:55
15:56
15:57
15:58
15:59
16: 00
AVERAGE
16:00
16:01
16:02
16:03
16:04
16: 05
CHAN 1
TECO
ppmwet
623.6
595.2
596.9
575.5
574. B
577.8
563. 1
550. 8
559.9
580. 6
589.5
583.6
582. 2
564. 7
VALUES
583. 2
571 . 6
550. B
531 .4
526.3
534. 7
CHAN 3
LSI
ppmdry
116.6
116.5
1 17.7
118.0
1 17.8
111.5
106. 1
102. 4
100. 9
103.3
105. 1
107. 2
1 03 . 7
101.8
FOR THE PREV
109. 9
99.4
97.5
98.3
104. 3
136. 4
CHAN 4
Bodens
_ppmdry;
5.2
4.8
5. 1
5.5
5.2
5. 1
4. 8
4.3
4.5
4. 9
5. 0
4.8
4.5
4.3
IOUS 15
4.9
4. 2
3.9
4. 2
7. 2
11.6
MINUTES
B-H3
-------
QgcJwn
Martin Syst
CHAN 1
TECQ
LIME Rpmwet
16:08
16:09
16: 10
16: 11
16: 12
16: 13
16: 14
16:15
16: 16
16: 17
16: 18
16: 19
16:20
16:21
16:22
16: 23
16: 24
16: 25
16: 26
16: 27
16: 28
16: 29
16:30
382.7
154. 1
118.7
100. 4
92. 6
81.6
71 .8
73. 1
72.4
60. 3
66. 3
58. 5
59. 7
54.6
60. 8
50. 1
54. 1
59.4
69. 1
53. 3
56.3
50. 2
63. 6
em* -
CHAN
LSI
06-13-1987
11
AVERAGE VALUES FOR THE LAST HOUR:
16:30 85.4 96.9 9.
MINUTES OF VALID DATA
16:
16:
16:
16:
16:
16:
16:
16:
16:
16:
16:
16:
16:
16:
16:
31
32
•,'.'' O
34
35
36
37
38
39
40
41
42
43
44
45
65.
53.
59.
56.
42.
47.
41.
47.
36.
45.
47.
44.
44.
34.
54.
4
T;
1
o
-T
8
8
-7
4
9
~T$
o
8
9
4
9.
-T
0 .
0.
-0.
-1.
-1.
o
f-}
~~ '_!' .
T
_-T
-4.
-4.
-4.
5
1
7
1
8
7
8
-?
-T
o
5
7
0
'—i
JL.
7
--• •
44.
44.
44.
45.
45.
45.
45.
44.
v44-
[45._
-12.
1 •
~~ 1 •
-0.
19.
6\
7
4
O
j^!
9 )
6
9
_1_,
4
-r
o
1
O
\
\
1
AVERASE VALUES FOR THE PREVIOUS IS MINUTES
16:45 48.1 -1.2 30.3
16:
16:
16:
16:
16:
16:
16:
16:
46
47
48
49
50
51
52
53
39.
44.
50.
43.
38.
51.
41.
42.
~T
6
"T
*-i
*L.
9
T
8
5
cr
<_> .
— 5 .
-5.
~5 .
-6.
-6.
~6 .
-6.
1
5
6
7
1
2
-T
7
36.
45.
50.
^jo .
58.
60.
62.
64.
1
7
9
6
4
7
5
1
B-144
-------
Qgden M<
TIME
16:34
16:55
16:56
16s57
16:58
16:59
17: 00
AVERAGE
17: 00
1 7 : 0 J
17:02
17: 03
17:04
17: 05
17: 06
17: 07
17: OS
17:09
17: 10
17: 11
17: 12
17: 13
17: 14
17: 15
AVERAGE
17: 15
17: 16
17: 17
17: IB
17: 19
17: 20
17: 21
17: 22
17:23
17:24
17: 25
17:26
17:27
17: 28
17: 29
17:30
AVERAGE
17:30
AVERAGE
17:30
17:
17!
31
32
ar
c:
T
.fi
V
V
1
1
1
1
1
1
1
1
1
1
1
V
tin Systems -
HAN 1 CHAN
ECO LSI
jDmwet ppmdr
44. 3
47.9
46. 1
40. 7
41.3
35. 8
39 . 0
Al.UES
43. 1
34. 6
41 . 7
3B.B
38. 0
43.3
55. 2
50 . 5
46. 3
40. 3
51 . 1
29. 3
38. 7
37. 0
45. 6
49. 6
ALLIES
42. 7
42. 8
44. 8
414. 7
851 . 7
004 . 0
071 . 1
111.1
142. 0
169. 9
162. 3
179. 4
188. 4
200. 6
203. 9
214. 9
ALUES
933.4
VALUES
266. B
1
1
213.
19B.
2
-6.
-6.
-6.
-7.
-6.
-7.
-7.
FOR THE
-6.
-7.
-7.
-6.
-y
-7.
-y
-7.
-7.
-7.
-7.
-7.
—j
-7.
-7.
FOR THE
-7.
-7.
-7.
-7.
-0.
76.
123.
145.
165.
186.
199.
227.
238.
242.
245.
FOR THE
121.
FOR THE
26.
2
52.
60.
HC1
3
1
4
6
0
8
0
0
PREV
1
1
1
8
0
1
5
8
7
5
PREV
0
7
5
8
0
6
7
1
B
PREV
4
LAST
7
6
7
Monitoring 06-15-1987
CHAN 4
Bodens
_P_pmdrv
65
66
66
66
67
69
69
10 US
60
70
( 71
70
56
1 2
4
1
0
0
IOUS
43
0
0
0
0
0
-0
0
o
-42
-66
-rtr
•_' wJ
27
-0
13
19
IOUS
HOUR
32
19
19
. 0
. 0
. 9
. 8
. O
15 MINUTES
' 9)
.7J
T1
. 9
. 5
. 6
. 5
. 9
. 6
15 MINUTES
. 8
. 6
. 1
r— j
. 1
. 1
. 6
. 9
. B
. 6
. 7
15 MINUTES
. 4
: 60 MINUTES OF VALID DATA
. 1
. 1
. 1
B-145
-------
Ogden Martin Systems - HC1
CHAN 1 CHAN 3
TECO LSI
Moni tor
CHAN 4
Bodens
TIME EJP_mw_et_.. __ pprndry ppmd.ry
17733 "
17:34
17:35
17:36
17:37
17:39
1 7 : 39
17: 40
17 : 4 .1
17: 42
17: 43
17: 44
17: 45
AVERAGE
17: 45
17: 46
17: 47
17: 48
17: 49
17: 'ou
17:5 1
17: 52
17:53
17:54 \
17:55
17: 56
1 7 : 5 7
17: 58
17:59
1209- 4
1215. 9
1219. 6
1231 . 0
1227. 7
1235.3
1227. 0
1235. 3
123B.9
1222. 3
1237.0
1240. 1
1226. 0
VALUES FDR
1225. 1
1244. 1
1235. 7
1248. B
1243. 6
1243.3
1249. 7
1240. 6
1 26U. 0
1 2Tr/T2A
1248. 9.\
1242. 4;j
1246.7'j
1249.4!
1254. 31
262. B
263. 7
266. 2
267.2
270. 3
273. 5
275. 0
275. 6
276. 8
277. 6
278. 4
279. 9
281 . 2
THE PREV
270. 8
281 .2
2B1 . 6
282. 2
2B2. 6
204. 1
283. 6
284i_4
2~B6.".0\
ui" """ * __~^
-4. 1
- 0 . 3
-0. 1
-0. 5
-0. 4
-0. 4
- 0 . 3
- 0 . 0
- 0 . 0
-0. 1
-0. 4
-0. 3
-0. 4
IOIJS 15
2. 1
- 0 . 4
— 0 . 3
( "i . 0
13.3
35. 7
0 . 2
22. 8
19.4
19.3
1 9 . 4
i 8 . 9
3. 3
0. 1
-0. 1
06-15-1987
MINUTES
B-146
-------
SUMMARY OF HC1 MONITORING DATA
RUN: 11A
SOURCE: Qgden Martin Systems - Characterisation Test
TEST DATE: 6/16/B7
GAS VALUE INITIAL CAL FINAL CAL
***TECO ( I NLET ) ***
0.0 ppm HCI
1222.0 ppm HCI
***LSI (MIDPOINT)***
0.0 ppm HCI
259.0 ppm HCI
***BODEN. (OUTLET)***
0.0 ppm HCI
95.0 ppm HCI
3. B
1209.0
0.7
258. 0
0.6
NA
60.6
1267.0
-0.2
304.0
0.4
103.0
MEAN CAL
32.2
1238.0
0.3
281.0
0.5
103.0
UNCORRECTED RESULTS
HOUR TIME
1 10:00 - 11:00
2 11:00-12:00
3 12:00 - 13:00
INLET
(wet)
542.3
5^4. 1
626.3
***RESULTS CORRECTED FOR
HOUR TIME
1 10:00 - 11:00
2 11:00 - 12:00
3 12:00 - 13:00
3-HOUR AVERAGE:
Highest 1 Min. Avg.:
Lowest 1 Min. Avg.:
INLET
(dry)
599.0
CeO~l-8
697.7
f J *i— Q
(05^ ' Q
BIB. 5
486. 0
MIDPOINT
(dry)
212.2
216.3
27B.5
CALIBRATION BIAS AND
MIDPOINT
(dry)
195.5
199.3
256.7
217.2
292.0
167.0
OUTLET
(dry)
83.5
78.6
178.2
DRIFT***
OUTLET
(dry)
76.9
72.4
164.7
104.7
239.4
51.7
NOTE: Inlet concentrations were measured on a wet basis and
corrected to a dry basis using Method 4 results.
Moisture = 13.7 7.
B-147
-------
SUMMARY OF HC1 MONITORING DATA
RUN: 11B
SOURCE: Ogden Martin Systems - Characterization Test
TEST DATE: 6/16/87
GAS VALUE INITIAL CAL FINAL CAL
MEAN CAL
***TECO ( I NLET ) ***
0.0
1222.0
***LSI
0.0
259.0
ppm HC1
ppm HC1
(MIDPOINT)***
ppm HC1
ppm HC1
3.8
1209.0
0.7
25B.0
60.6
1267.0
-0.2
304.0
32. 2
123B.0
0.3
28 1.0
***BODEN. (OUTLET)**-*
0.0
95.0
ppm HC1
ppm HC1
0.6
NA
0.4
103.0
0.5
103.0
UNCORRECTED RESULTS
HOUR
1
*n
•-•
TIME
14:30 - 15:00
15:30 - 16:30
16:30 - 17:00
INLET
(wet)
564.6
504. 1
737.6
***RESULTS CORRECTED FOR
HOUR
1
*n
3
3
Highest
Lowest
TIME
14:30 - 15:00
15:30 - 16:30
16:30 - 17:00
-HOUR AVERAGE:
1 Mi n. Avg . :
1 Mi n. Avg. :
INLET
(dry)
640.0
567.3
848. 0
685. 1
1370.0
3B9.5
MIDPOINT
(dry)
TTT T
^, s-* •— • . ^'
197.3
299.6
CALIBRATION BIAS AND
MIDPOINT
(dry)
215.0
181.8
276.2
224.3
315.7
142.2
OUTLET
(dry)
129.9
107.2
213.3
DRIFT***
OUTLET
(dry)
119.9
98.9
197.2
138.7
251M
66.6
NOTE: Inlet concentrations were measured on a wet basis and
corrected to a dry basis using Method 4 results.
Moisture = 15.7 •/.
B-148
-------
Qgdran Martin Systems - HC1 Monitoring
06-16-1987
TIME
07:58
07:59
08: 00
CHAN
TECO
ppmw
_T;
— 5
0
1
et
. 9
. 3
.8
CHAN 3
LSI
. ppmdry
0. 6
0. 6
0.5
CHAN 4
Bodensi
_ppmdry
55.9
20.5
4.0
AVERAGE VALUES FOR THE LAST HOUR: 3 MINUTES OFr VALID DATA
08:00 -2.8 0.6 26.8
08: 01
08: 02.
08: 03
08: 04
08: 05
08: 06
08: 07
08: OS
08:
08:
08:
08:
08:
08:
ov
10
1 1
12
13
14
08: 15
AVERAGE
08: 15
08:
08:
08:
08:
08:
08:
08:
08:
08:
08:
08:
08:
08:
08:
16
17
ia
19
20
21
24
25
26
27
28
29
08: 30
— 0 .
i i .
8.
90.
570.
81 1.
930.
983.
1034.
1063.
1088.
1 103.
1 120.
1120.
1130.
7
9
~',
T(
9
1
6
7
9
1
5
5
1
5
9
FOR
u.
0.
0.
O.
0.
0.
0.
0.
0.
0.
0.
0.
o.
u
5
4
7
6
8
8
7
7
7
cr-
vJ
4
1 . 3
0. 3
- 0. 2
-0. 2
-1.2
-1.0
-0. 5
-0. 7
-1 . 1
-1.3
3. 6
122. 2
0 . 6
O. 6
THE PREVIOUS ID
0.6 8.1
0. t,
0 . 7
0. 5
0 . 3
0.
0.
3. 6
4
4
0. 7
0 . 8
0.8
0. 8
0. 8
0. 8
0. 9
1.0
1. 1
47.2
48.2'
48. 0
47. 8
47. 9
25. 0
1 . 2
0. 4
0. 8
0.9
9. 6
46.6
61.3
MINUTES
AVERAGE VALUES FOR ThJE-^REVIQUS 15 MINUTES
08:
08:
08:
08:
08:
08:
08:
08:
08:
08:
30
31
32
33
34
35
36
37
38
39
1
1
1
1
1
1
1
1
1
737.
139.
142.
162.
145.
164.
157.
160.
171.
186.
B (0
2 1
1 1
9 1
5 1
1 1
4 1
2 5
6 56
7 101
^--L
. TjT 25.
.2 66.
.2 71.
. 2 74.
.4 77.
.4 69.
.6 66.
.3 70.
.5 74.
.7 80.
9
3
2
4
2
4
5
1
2
4
B-149
-------
Ogden Martin Systems -
- HC1 Monitoring 06-16-1987
CHAN 1 CHAN 3 CHAN 4
TECO LSI
Bodens
T I_ME pp.mwrt ... ppmdr y.. pprpdr y
08:40 1173.8 125.0 77.5
08: 41 1 177. 1 156. 5 76. 0
08:42 1184.7 177.1 75.4
08:43 1182.5 18:
08:44 1192.4 18:
j.4 76.0
:.B 83.3
08:45 1183.5 190.2 61.0
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
08:45 1168.2 79.3 74.6
08: 46 3 188. 6 197.5 73.6
08:47 1198.9 20C
) . 9 71.2
08:48 1185.3 207.4 71.8
08:49 1203.2 2i:
\B 76.5
08:50 1197.6 218.2 74.1
08:51 1210.0 223
.3 69.6
08:52 1203.8 226.3 66.3
08:53 1209.6 233
.3 64.3
08 : 54 1211.7 234 . 8 63 . 3
08:55 1202.2 238.2 62.8
08: 56 1205. 1 24:
i1. 8 65. 0
08 : 57 1 205 . 7 246 .7 69.5
08:50 1208.1 247.1 73.7
08:59 1209.0 249.2 71.2
09:00 1196.6 249.4 64.1
AVERAGE: VALUES FOR THE
' PREVIOUS 15 MINUTES
09:00 1202. 2 228. 3 69. 1
AVERAGE VALUES FOR THE LAST HOUR: 60 MINUTES OE VALID DATA
09:00 777.4 77.2 44.5
09:01 /1211.CH 253
09: 02 \1213.7 j 25:
.8 64.6
T..7 73. 1
09:03 \1201.2 | 255.0 79.9
09:04 ^2\)S^3^/ 25
-------
Dgden Martin Systems - HC1 Monitoring 06-16-1987
CHAN 1 CHAN 3 CHAN 4
TECO LSI Badens
TIME DDmwet. oomdrv
09 : 20
09:21
09:22
09 : 23
09: 24
09:25
09:26
09:27
09: 20
09: 29
09: 30
AVERAGE
09: 30
09: 31
09: 32
09: 33
09: 3 4
09:35
09:36
09:37
09: 38
09: 39
09: 40
09: 41
09:42
09:43
09: 44
09: 45
AVERAGE
09:45
462.0
469.7
503 . 9
563.9
531 . 6
518.8
514. 6
482. 0
489.8
484. 1
495. 0
VALUES
501 . 4
503. 7
487. 3
483.9
515.6
490. 8
497. 1
509. 1
510. 1
505. 4
468. 7
440. 3
438. 9
449. 5
453. 3
469. 0
VALUES
481 . 5
195.7
197.7
20 1 . 8
200. 4
197.8
201 . 1
218. 7
230. 2
238.0
235. 5
231 . 1
FOR THE L.A5T
213.5
227.8
225.0
234.6
236. 8
239. 0
244.0
236. 2
2 3 0 . 3
236. 6
241 . 0
240. 2
229. 6
221 . 3
218.9
225. 6
FOR THE. PREV
232 . 4
ppmdr y
131 .8
136.8
143.7
151 .9
137.6
141 . 4
148. 1
141.3
142.5
131.7
121.8
HOUR: 11 MINUTES OF VALID
139. 0
120. 9
121.6
126. 8
127. 6
1 17. 5
109. 7
111.8
114.0
113.7
105. 2
99. 7
102. 1
111.2
117.3
117. 2
IOUS 15 MINUTES
1 14. 4
DATA
09: 46
472. 6
112.3.
-------
GqrH?n Martin
CHAN
TECO
T I
09
09
09
09
09
09
09
09
09
09
09
09
10
MET
j
2
•
*
j
;
:
«
;
:
:
•
:
4G
49
50
51
52
53
54
55
56
57
58
59
00
AVERABF
1 '")
10
10
1 0
10
10
10
1 0
10
1 0
10
10
10
10
1 0
10
.
;
;
:
2
3
:
:
4
:
:
;
:
:
?
:
I'M";
01
07
03
04
05
06
07
08
09
1 0
1 1
12
13
14
15
AVERAGE.
10
10
10
10
10
10
10
10
10
10
10
10
10
!
j
:
•
M
•
J
:
;
i
:
:
*
t
10)
10)
10s
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
,PP_mw
486.
476.
480.
484.
483.
482.
498.
509.
489.
482.
456.
441 .
452.
VALUE:
478.
480.
484.
471 .
526.
532.
554 .
552.
54-1 .
507.
526.
548.
557.
565.
548.
573.
1 CHAN
LSI
HC1
Monitoring O6-16-lt?a/
CHAN 4
Bodens
t _.. . ,...j3.pmcLr_y. .p.pjadr.y
6
rr
4
1
-T
cr
B
7
5
5
7
2
0
G FOR
7
7
1
6
6
1
cr
o
4
-7
1
"T
e
6
4
jL~
B
VALUES FOR
531 .
543.
517.
507.
513.
515.
534.
495.
511.
494.
524.
512.
492.
472.
466.
452.
6
1
jL
9
4
0
7
9
7
0
4
4
2
4
1
~T
jL
2
*,.
^_
2
o
2
j±.
2
^
jL.
2
*"?
19.
22.
30.
35.
37.
29.
24.
26.
•T-T
40.
37.
27.
21 .
THE
o
2
ji.
*i!
jL.'
1
_^!
^i
2
2
2
ji'
JL.
xv
2
-'
T
2
2
2
2
2
2
j^,
^1
2
2
2
2
2
2
1
1
29.
23.
28.
3'"'
1 0 .
97.
1 1 .
24.
31 .
24.
16.
12.
18.
28.
•TT;
27.
HE
21.
23.
23.
23.
*") T
JL, •_'* •
16.
13.
12.
13.
02.
00.
00.
06.
01 .
95.
91.
~T(
2
1
7
~T
4
7
2
4
7
8
~T(
4
LAST
6
1
4
8
B
6
9
—i
7
1
5
0
-^
9
9
4
PREV
4
5
5
T;
0
4
7
1
1
T;
0
7
9
1
T;
4
1
1
1
1
1
1
1
1
1
1
1
1
1
14.
20.
24.
22.
19.
2 0 .
24.
29.
24.
16.
1 1 .
1 2 .
12.
HOUR:
1
1
1
1
19.
13.
98.
89.
91 .
97.
04.
95.
88.
65.
90.
96.
00 .
95.
91 .
88.
10 US 1
95.
81 .
76.
75.
73.
72.
70.
64.
63.
63.
68.
65.
63.
61 .
59.
61 .
4
0
4
4
9
1
4
5
8
5
2
3
1
13 MINUTES OF VALID DATA
4
9
j^.
6
9
2
0
9
4
7
4
5
wJ
4
ji-
_,.
5 MINUTES
1
1
6
0
8
8
4
4
6
9
5
cr
B
5
6
6
B-152
-------
Qfjdwn Martin
CHAN
TECO
TIME Doniwe
AVERAGE
1 0 : 30
1 0 : 3 1
10
10
10
10
10
10
10
10
10
10
10
10
10
10
•32
: 33
:34
: 35
: 36
: 37
: ~5B
:39
: 40
: 41
: 42
: 43
: 44
: 45
AVEr.RAGEr.
10
] i'.)
10
10
10
10
10
10
10
10
10
10
10
10
10
1 1
45
46
47
48
49
50
5.1
cr -->
V J ^
53
54
55
56
57
58
59
00
AVERAGE
1 1:00
AVERAGE
11:00
111
1 1:
11:
11:
11:
11:
11:
11:
11:
01
02
03
04
05
06
07
08
09
S^
1
t
VALUES
503
454
478
548
577
551
551
627
5B2
543
549
621
585
541
556
634
•
.
.
.
.
.
.
.
.
.
,
.
.
.
•
5
4
8
cr
5
7
8
,-J
^T.
9
jj
9
6
~T
6
4
VALU£:.n
5toO
597
603
587
545
55C
572
551
537
546
594
576
571
590
582
594
•
.
.
.
.
„
.
m
f
,
.
„
m
u
•
VALUE
573
•
4
t,
jj
4
8
-»l'
5
•^
0
7
-^
0
tj
1
5
1
S
8
VALUES
542.3
560
541
518
534
523
526
521
526
520
,
•
M
m
m
m
m
„
7
7
5
9
7
9
5
0
6
^»t»mw -
CHAN
LSI
FOR THE
209.
181 .
191 .
189.
IBS.
IBS.
195.
198.
200.
219.
213.
2 0 3 .
205.
~i <—) cr
225.
212.
FGF< THE
202 .
205.
209.
215.
217.
217.
21 1 .
2O4.
213.
220.
219.
213.
213.
213.
221 .
234.
FOR THE
215.
FOR THE
212.
228.
219.
215.
218.
219.
224.
215.
206.
208.
HC1 Monitoring 06™ 16- 1987
3 CHAN 4
Baden®
v ppmdry
— t f^i LJ.'-jnj — t—
PREVIOUS 15 MINUTES
7
3
2
9
2
•T
8
0
5
0
"T
6
9
1
9
6
PREV
4
j
7
0
4
6
vj
.••'
-T
8
-T
6
2
-T
7
2
PREV
4
LAST
r-*,
1
9
j^_
3
6
5
9
2.
2
68
64
65
65
64
64
71
84
83
80
83
96
96
91
91
93
IOUS
79
87
87
84
81
79
86
91
93
95
94
86
90
101
104
97
IOUS
90
HOUR
83
89
BB
91
97
93
87
88
102
107
•
.
.
m
.
.
.
.
m
.
m
m
.
m
•
1
-
m
.
m
B
.
m
m
_
„
.
,
.
_
•
1
•
•
•
•
.
.
•
,
•
_,
1
B
1
2
9
4
-T
c>
o
9
9
-T
7
cr
2
7
5 MINUTES
8
cr
,_J
4
6
9
j-^
7
7
7
7
-T
5
9
7
C)
6
5 MINUTES
9
60 MINUTES OF VALID DATA
5
2
^
4
8
8
7
~T
0
1
B-153
-------
Ogdpn Martin Systema - HC1
CHAN 1 CHAN 3
TJLMF
11:10
11:11
11:12
11:13
11:14
11:15
AVFRAGF
11:15
11:16
11:1 7
1 i : 1 G
11:19
1 1 : 20
1 1:21
1 1 : 22
1 1 : 23
11:24
M : 25
11:26
1 1:27
1 1 : 56
11:5 7
12:2 7
AVERAGE',
12:27
12: 28
12: 29
12:30
12:31
12: 32
12:33
12:34
12:38
12:39
12:40
12: 41
12: 42
12:43
12:44
12:45
AVERAGE
12:45
12:46
12:47
12:48
12:49
12:50
12:51
12:52
TECO
ppmwct.
484. 3
494. 1
472. 1
4B2. 9
481 . 0
446. I
VALUES
509. 0
478. 1
478. 6
476. 1
496.5
517. 0
520. 5
5B7. 5
619.3
60S. 7
627 . 6
6OO. 4
606. 5
577. 9
514.8
6B4. 1
VALUES
559. 6
679.8
688.3
676. 5
666. 0
645. 2
638. 9
653. 7
620. 4
607. 9
593. 4
597.4
625. 9
649. 7
640. 8
615.9
VALUES
640. 0
595.4
599.4
626.6
641.9
626.9
633.5
644. 1
LSI
jpjpmdr y
o^?f~i /i
^_ jL U . H
*-> l~^~r /~»
^L -i. •_'• . *C
207.8
199. 2
195.7
201 .4
FOR THE FREV
213.6
206. 2
200. 7
193. 8
189.0
192.2
198. 8
200. 9
201 .4
204.5
211. 0
211.3
216.7
217.2
213.5
295. 8
FOR THE: PREV
2 1 0 . 2
296.9
301 . 6
301.2
311.7
316.8
312. B
303.5
30 1 . 2
301. 1
297. 7
289. 3
286.2
283.9
293.3
297. 8
FOR THE PREV
299.7
295.5
284.5
276. 1
277.2
292.7
303.. 9
297.0
Monitoring
CHAN 4
Bodens
ppmdry
97. 6
91.5
85.9
92 . 0
97. 2
93. 7
IOUS 15
93. 6
90. 2
86. 2
84. 2
87. 4
85. 4
83. 6
85. 2
82. 0
79. 5
83. 0
82. 6
82. 7^
74. 6
62. B,
201 . 9
IOUS 15
90. 1
202. 0
218.3
228. 2
2 3 ^' 3
217. 2
203. 0
207.7
O 1 O l~^
212.8
203. 2
202.6
209. 1
212. 5
212.3
192.3
IOUS 15
211.0
175.4
173.8
188. 1
214.2
221.9
217.3
212.4
MINUTES
f
IBHHI
•. • ' •
£ —
V
MINUTES
^ _
*—
MINUTES
06-16-1987
-------
Ogden Martin Systems - HC1 Monitoring 06-16-1987
CHAN 1 CHAN 3 CHAN 4
TIME
12:53
12:54
12:55
12:56
12:57
1 2 s 58
12:59
13: 00
AVERAGE
13: 00
AVERAGE
13
13
13
13
13
13
13
13
1 "•'
j. -.-'
1 3
1 3>
13
1 "*
1 •,„>
1 "^
1 '^
00
01
02
( J 3
04
05
06
07
OS
09
10
1 1
12
1 3
14
15
AVERAGE
13
13
1 "^
1 T
1 S.I
13
13
13
13
13
13
13
13
13
13
13
13
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
AVERAGE
13:30
13:31
TECO
_Remwft__
623.0
614. 7
586. 1
596.8
645. 2
729. 2
665. 1
681 . 7
VALUES
634. 0
VAL LIES
585. 6
702. 7
694. 1
835. 0
833. 8
835. 4
89/1 . 7
925. 9
923. 5
927. 0
990. 4
1119.8
1131.5
1110.4
1 O23. 4
1023. 9
VALUES
931 . 4
958. 0
927. 6
997. 3
963. 8
974. 6
911.7
903. 4
918. 6
931 .3
884. 6
831.9
850. 4
847. 1
777. 4
750.6
VALUES
895.2
734.4
LSI
_.— .. Jlp.n3.dry
291.3
287. 7
285.6
286. 6
290.5
293.4
292.6
306. 0
Bodens
ppmdry
205. 1
204.7
213.2
234. 9
251 . 3
258. 8
243. 1
234. 4
FOR THE PREVIOUS 15 MINUTES
290. 7
216. 6
FOR THE LAST HOUR: 60 MINUTES OF VALID DATA
253.5
302. 9
302. 9
312. 1
316. 5
329.6
336.5
337. 9
352.7
FOR
FOR
361 . 4
3'. 07 . 6
295. O*
267. 3
237 . 0
224. 6
THE P
307.8
215. 3
192.4
173. 1
1 60 . 8
149. 1
137.0
122.0
110.5
102.6
113.3
137.2
149.5
183. 1
247.6
286.9
THE PR
165.4
391.7
,
152. 8
243. 4
246. 3
2:53. 0
252. 0
247. 6
259. 6
27 1 . 6
271 . 4
269 . 5 nf&^
'-i 7 \ ~/ .j \ Co(s'J
1 1* "^
' 27 1 . 7
271.7
271 .2
269. 8
EVIQUS 15 MINUTES
262. 8
271.7
271. 7
271 . 7
271 . 7
271 .7
267. 3
263. 3
271 . 7
271.7
271.7
1 271.7
1 271.7
\ 271.7
\ 271.7
271.7
Ev/IOUS 15 MINUTES
270. 9
271.7
/ B-155
-------
Ggden Martin Systems - HC1 Monitor!
CHAN 1 CHAN 3 CHAN 4
TECO LSI
TIME _p£_mwe-!t _\ pJL(ndry_.,
13 32 ^32. \__^.A 43B.7 .
13
13
13
13
13
13
13
13
13
13
13
1 3
13
33 T72TT7\ ( 437. 1
34 I 678.8
35 [411.8
36 / 161.6
37
38
39
40
41 ^
42
43
44
45
AVERAGE
13
13
I"."1"
O
13
13
1 •-'
13
13
1 3
13
13
13
13
1 T
13
14
45
46
106.2
91.5
86.5
74.2
62.4
60.6
64.9
56. 3
67.9
VALUES
\ 446.6
\ 425.8^.
V"3~8B.7
373.6
369.6
377.8
383 . 7
375.0
369.4
367.6
365 . 9
372.9
Bodens
_____PJ3 m d r y
r>-t 1 "7 _
^^
271.7
271.7
271.7
269.7
271.7
271.7
271 .7
271.7
271.7
271.7
271.7
271 .7
271 .7
'OR THE PREVIOUS 15
274.1 392.3
(
137.4 | 378.6
47 1 727. 8 / 371.2
48 L-S24.U' 377.8
49 824.2 372.6
50 774.8 376.3
51 772. 1 383.8
52 732.0 385.5
53 760.8 394.5
54 763. 1 400. 4
55 679.3 404.9
56 657.2 408.6
57 678.5 398. 1
58 641.5 393.8
59 655. 1 391 . 0
00 652.0 375.4
271 .6
271.7
271.7
271.7
271 .7
271 .7
271 .7
271 . 7
271.7
271 .7
271 . 7
271 .7
271. 7
271. 7
271 . 7
271 . 7
r;g
/?
. *
^
MINUTES
06-16-1997
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
14 00 685.3 387.5 271.7
AVERAGE VALUES FOR THE LAST HOUR: 60 MINUTES OF VALID DATA
14:00
696.5
269.3
14:01
14:02
14:03
14:04
14:05
14:06
14:07
14i08
14:09
14: 10
14: 11
14: 12
14: 13
14: 14
642.4
629- 1
608.7
614.3
668. 2.
652.0
615. B
590.6
603. 4
629.3
596.9
593.5
571. 1
583.5
363. 4
361.9
357.3
346.8
334 . B
329.3
334.9
331.0
320.3
315.8
319.7
323.7
310.6
301.3
271.7
271.7
263.2
255.0
266. 1
265.3
252.6
250.4
257.0
262.5
242.9
223.2
209-7
216.2
B-156
-------
Oqden Martin Systems - HC1 Monitoring 06-16-1987
CHAN 1 CHAN 3 CHAN 4
TECO LSI Baden®
TJLMJL EfiUMet _ ppmdry, ppmdry
14:15 580.8 295.5 227.0
AVERAGE VALUES FDR THE PREVIOUS 15 MINUTES
14:15 612.0 329-7 249.0
B-157
-------
Qgdsn Martin Systems - Hf"
TIME
14: 18
14: 19
1 4 : 20
14:21
14:22
14:23
14: 24
14:25
14: 26
14:27
14:28
14: 29
14: 30
AVERAGE
14: 30
14:31
14:32
14:33
14: 34
14:35
14:36
14:37
14: 38
14:39
1 4 : 40
14:41
14: 42
14: 43
14:44
14: 45
AVERAGE
14: 45
14: 46
14: 47
14: 48
14: 49
14:50
14:51
14:52
14:53
14:34
14:55
14:56
14:57
14:58
14:59
15:00
CHAN 1
TECO
jDpmwet
567-4
551 .8
550. 6
547. 5
573. 9
558.2
563. 9
549. 2
557. 1
563.9
557. 2
543. 4
535.0
VALUES
555. 3
536.2
547. 2
562. 7
544. 5
550. 6
590. 6
6 1 3 . 9
584. 7
593. 8
5B6. 0
584 . 2
584.2
575. 4
587. 7
626. 3
VALUES
577. 9
607. 1
596. 0
607. 8
629. 6
609.9
583. 9
539. 6
537.5
526.0
528.2
588.3
547.9
533.7
585.6
555.9
CHAN 3
LSI
_p_pmdr_y
297.5
293. 1
282.7
271. 9
269. 9
271 . 8
278.8
280.2
2BO. 2
275.0
266.9
263. 5
265. 2
• \ Monitor inn 06-16-1997
CHAN 4
Bodens
£P.md.ry
216.4
205. 6
198.8
191.9
203. 8
209. 5
215. 1
205. 8
190. 5
175.7
177.0
179. 2
176. 1
FOR THE LAST HOUR: 13 MINUTES OF VALID DATA
276.7 195. B
264. 4
261 . 8
260. 9
257. 0
257. 1
253. 3
259. 8
259. 9
271 . 4
269. 4
263. 5
255. 2
254.9
255. 6
257. 3
FOR THE PR
260. 1
257. 4
260. 2
262.9
262.3
269.0
264.5
257. 6
246.9
241 . 0
240. 5
242.3
238.6
238.8
231 .0
231.5
177.3
175. 6
174. 3
163.3
148. 8
148. 1
155. 7
158. 5
153.4
142. 0
136.2
135.4
134.5
134. 9
141.0
EVIQLJS 15 MINUTES
151 . 9
139. 7
149. 1
160. 2
158. 5
143. 7
129. 0
122. 3
126. 9
132. 1
131.5
123.9
110. 0
113.9
127. 1
135.2
B-158
-------
Ggden Martin Systems - HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodens
mwet E2.p.rnd ry j
06-16-1987
TIME
AVERAGE
151 00
15:01
15:02
15
15
IS
15
15
15
15
15
15
15
15
15
15
03
04
05
06
07
08
09
10
1 1
12
13
14
15
AVERAGE
15
15
15
15
•) C."
1 vJ
15
15
15
15
15
15
15
15
15
15
15
15
16
17
18
.19
20
21
22
23
24
25
26
27
28
29
30
AVERAGE
15: 30
AVERAGE
15:30
15:31
15:32
15s33
15:34
15:35
15:36
15:37
15:38
15t39
VALUES FOR
571.8
551 . 4
536.9
535.2
523. 8
507. 1
513. 1
506. 4
453. 1
403. 6
358. 8
356. 2
389. 1
386. 3
376. 9
391 . 0
VALUES FOR
452. 6
439. 6
465. 9
564. 8
653. 0
644. 2
660. 2
706. 4
756. 1
747. 7
751 . 1
715. 1
712. 3
718.0
680. 2
625. 8
VALUES FOR
656. 0
VALUES FOR
564.6
669. 1
605.7
665 . 0
633.3
626. 0
633.6
629.5
597.0
560.9
THE PREVIOUS 1
249.6
241 . 9
244. 2
239. 0
229. 5
220. 6
214.8
215.8
217. 4
214. 1
199. 9
184. 5
172. 8
171.1
172. 6
167. 1
THE PREV
207. 0
162. 4
160. 3
164. 8
171. 0
189. 3
2OB. 3
214. 7
219. 7
233.5
247.5
255.3
254. 3
253.6
253. 0
259. 7
THE PREV
216.5
THE LAST
233. 3
256.9
242.3
242. 1
234.7
239.3
241. 1
242.9
246.7
237.8
133.
135.
122.
107.
98.
102.
111.
110.
95.
81 .
73.
75.
79.
77.
73.
72 .
IOUS 1
94.
75.
79.
89.
103.
111.
1 19.
136.
156.
173.
177.
175.
179.
186.
174.
155.
IOUS 1
139.
HOUR:
129.
161 .
152.
161 .
164.
170.
177.
161.
139.
123.
5 MINUTES
5
9
4
1
8
7
7
5
1
-7
2
2
8
+/
7r
4
5 MINUTES
4
cr
vJ
0
5
0
TT
9
Tp
7
"T
8
7
4
2
0
3
5 MINUTES
5
60 MINUTES OF VALID DATA
9
8
7
4
4
6
7
3
6
8
B-159
-------
Oqdean Martin Systems ~ HC1 Monitor!
CHAN 1 CHAN 3 CHAN 4
TECO LSI Baden s>
TIME. ..__.
15: 40
15:41
15:42
15: 43
15:44
15:45
AVERAGE
15: 45
15: 46
15:4 7
15: 48
15: 49
15: 50
15:51
15:52
15: 53
15: 54
15: 55
15: 56
15: 57
15:50
J 5: 59
1 6: 00
AVERAGE'
1 6: 00
1 6 : 0 1
16: 02
16: 03
16: 04
16: 05
16: 06
16: 07
16: 08
16: 09
16: 10
16:11
16: 12
16: 13
16: 14
16:15
AVERAGE
16: 15
16: 16
16: 17
16: 18
16: 19
16:20
16s21
16:22
pp_mwel
519.8
467. 1
429.9
414. 6
418. 4
436.7
VALUES
553. 8
467. 4
505. 4
541 . 5
513."'
475. :'
467 . 3
470. 9
460. 6
472. 4
531'. 6
540. u
47R. 1
4 4 7 . 3
425. 4
459. 6
VALUES
483. 8
526. 6
484. 7
503. 1
538. 2
508. 4
524. 1
552. 5
518. 4
508. 4
540. 0
519. 4
5 0 0 . 0
487.2
487.3
467. 4
VALUES
511.0
486.9
484. 1
505.5
510.0
494.8
471.6
448. 1
ppmdry
225.4
216.6
211.9
207 . 1
199.8
192. 2
FDR THE PREV
229. 1
183.3
181. 0
181.6
190.6
198. 7
i 93. 3
181.9
174.7
171.6
168. 9
169. 1
173. 4
175. 1
165. 0
157. 0
FC)F\ THE PRFV
177. 7
154. 4
158. 6
167.2
158. 7
155. 4
159- 1
157. 5
180. 4
198. 8
196.7
193.3
196.0
199.4
198. 2
201.2
117.3
118.8
118.3
112.7
103.8
101.2
10 US 15
139. 0
102. 9
111.5
121.0
116.9
105. 9
98. 2
94. 9
9 1 . 3
94 . 2
1 1 3 . 7
1 15.2
95. 2
82. 9
79 . 9
88. 6
IOLIS 15
1 00. 8
95.7
86. 8
87. 8
90. 2
84. 8
92. 7
102. 1
98.4
94. 7
96. 8
96. 7
94. 6
96. 0
97.6
96. 8
FOR THE PREVIOUS IS
178.3
203.2
201.3
20 1 . 9
202. 1
208.2
210.6
211.0
94. 1
97. 8
93.7
97.3
101.5
101.2
98. 6
96.6
ng 0
MINUTES.
MI NUT EG
MINUTES
06-16-1987
B-160
-------
Qqden Martin Systems - HC1 Monitorinq 06-16-1987
CHAN 1 CHAN 3 CHAN 4
16:23
16:24
16:25
16:26
16:27
16:28
16:29
16: 30
AVERAGE
16: 30
AVERAGE
16:30
16:31
16:32
16:33
16: 34
16: 35
16: 36
16:37
16: 38
16: 39
16: 40
16:41
16: 42
16: 43
16: 44
16: 45
AVERAGE
16:45
16: 46
16:47
16: 43
16: 49
16:50
16:51
16:52
16:53
16:54
16:35
16:56
16: 57
16:58
16:59
17:00
TECO 1.
465.5
451.9
440. 2
428. 0
458. 4
452. 1
445.6
476. 2
VALUES FOR
467. 9
VALUES FOR
504. 1
529. 4
cr cr p -j
569. 5
588. 5
611.3
636. 7
655. 2
700. 5
723. 6
7 J 3 . 5
711.5
725. 9
705. 7
770. 5
757. 4
VALUES FOR
663. B
681 .6
694. 2
702.3
706. 6
692. 2
711.5
690. 1
832.0
876.8
815.7
810.8
801. 1
894. 8
825.8
772.4
.SI
211.4
203. 1
204. 4
202.8
197. 7
198. 4
201 . 7
203. 3
Bodenss
94.6
90. 1
90. 6
91 .5
95.5
92.3
91.2
89. 9
THE PREVIOUS 15 MINUTES
204. 1
THE LAST
197. 3
197.7
199. 6
211. 0
223. 2
227. 5
236. 8
245. 5
251 . 7
256. 4
2 7 0 . 0
279. 4
2B8. 3
282. 5
284. 8
285. 1
THE PREV
249. 4
297.7
303. 6
296.5
296.3
295. 6
294.9
290. 5
290.5
289.3
311.8
305. 5
309.0
328.5
336 . 7
337 . 3
94.8
HOUR: 60 MINUTES OF VALID DATA
107. 2
95.5
104. 5
1 06. 7
109. 5
1 16. 8
128. 4
136. 8
146. 9
155. 9
163. 3
160. 6
164. 5
173. 5
195. 6
201 . 0
IQUS 15 MINUTES
144. 0
193. 4
190. 8
192. 1
183.8
175. 6
175.0
168. 5
199.7
189. 0
181 .8
244.0
269. Q\ 0£FMC.
269.6^) c£
232. 9
210.4
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
17t00 767.2 305.6 205.1
17:01
806. 0
320. 0
248.9
B-161
-------
Ofjrten Martin Systtsrnis - HC1 Monitoring 06-16-1987
TIME
17:02
17:03
17:04
17:05
17:06
17:07
1 7 : 08
17:09
17:1 0
17: 11
17:12
17:13
17: 14
17: IS
AVERAGE
17: 15
17: 16
1 7 : 1 7
17: 18
17: 19
1 7: 20
17:21
17:22
3 7: 23
17: 24
17:2::)
1 7 : 2 6
17:27
17: 28
17: 29
1 7 : 30
AVERAGE
1 7 : 30
AVERAGE
1 7 : 30
17:31
17:32
17:33
17:34
17:35
17:36
17:37
17:38
1 7 : 39
17:40
17:41
17: 42
17:43
17:44
CHAN 1
TECG
ppmwet
795.9
806. 1
795.3
782. 9
784.3
799. 5
786. 2
803. 9
806. 6
770. 0
761 .3
765. 6
793. 1
838.9
VALUES
793. 0
859. 0
848.9
847. 2
816. J
784. 9
790. 2
739. 8
7 14.6
695. 6
643. 0
647. 6
640. 5
64 i . 1
615. 9
6O9. 4
VALUES
726. 3
VALUES
737.6
602. 1
609.5
585. 0
581. 1
576. 0
573.6
558.9
520.3
490. 1
478.9
559.3
554.0
532,2
543. 2
CHAN 3
LSI
p.pmdry
312.6
327 . 4
330. 2
330. 2
321 .4
316.6
322. 1
330. 9
333 . 0
328. 7
319.6
317.5
-T •-/ o o
324. 7
FOR THE PREV
323. 8
326. 4
327. 0
330. 6
337. 0
342.5
341 . 2
333. 4
327.0
317.8
319.9
314. 1
305. 2
298. 0
289. 9
284 . 8
FDR THE PREV
319.7
FDR THE LAST
299.6
278. 4
275. 6
273.5
273.6
265.7
262. 1
257. 2
252 . 0
245.3
240.3
233.8
228. 8
233.8
234.9
CHAN 4
Badens
263. 6
270. 4
255. 6
240. 1
244.8
264.5
267.9
262.9
246. 3
236. 1
256. 7
266. 6
271 . 7
271 . 7
IQUS 15 MINUTES
257. 8
271 . 7
271 . 7
271 . 7
271 . 7
271. 7
27 1 . 4
260. 4
265. 6
262 . 2
252.0
238. 8
212. 2
198.8
187- 9
184.2
IOUS 15 MINUTES
246. 2
HOUR: 60 MINUTES OF VALID DATA
213. 3
182. 4
186. 3
172. 6
169-0
163.5
154.6
140. 0
131.6
1 30 . 6
128.1
139.9
137.7
120. 4
115.6
B-162
-------
Ogdsn Martin Systems
CHAN 1
TECO
TI_ME P P. n) w e t, jap m d r
17:45 531.6
FOR
AVERAGE
17:45
17:46
17:47
17: 48
17: 49
1 7 : 50
17:51
17:52
17:53
17: 54
17:55
17: 56
17:57
17:58
1 7 : 59
18: 00
AVERAGE:
18: 00
1 8 : 0 J
IB: 02
18: 03
1 8 : 0 4
1 G : 05
18: 06
18:07
18:08
18:09
18: 10
18: 1 1
18:12
18: 13
18: 14
IB: 15
AVERAGE
IB: 15
18: 16
18: 17
IS: 18
188 19
18:20
18:21
18:22
18:23
18:24
18:25
18:26
18:27
VALUES
553. 1
544.7
550. 1
568.7
590. 0
599. 4
595. 2
538. 8
532. 7
547. 2
525. 5
537 . 0
554. 2
539. 8
541 . 6
556. 7
VALUES
554. 8
562. 6
569. 4
56B. 0
568. 3
cr cr / '-;,
595. 0
594. 6
615.6
615. 1
621 . 3
612. 0
604. 1
586. 0
610. 1
612. 1
VALUES
592 . 7
590. 1
589- 1
616. 7
602.9
580.9
578.6
591 .5
581.0
598.4
598.2
638. 1
599.7
FDR
FOR
n - HC1 Monitor!
HAN 3
SI
pmdry
223.8
THE PREV
251 . 9
224.3
226.6
231 .6
232 . 5
237.4
245. 1
246. 7
240.4
230. 0
238. 6
253.0
254. 1
243. 8
233. 4
224. 9
THE PREV
237.5
231 . 8
242. 1
250. 9
245. 2
241 . 3
238. 8
244.7
260.7
251 . 5
250. 9
250. 5
254.2
257.8
260.7
257. 4
THE PREV
249.2
265.0
257.5
254. 1
251 . 0
242.8
238. 4
244.2
244.3
230. 1
221.0
231. 1
242.7
CHAN 4
Bodena
ppffldry
1 17.5
I DUG 15
146. 0
129. 3
133.8
148. 9
162.2
170. 7
149.5
124. 6
138. 7
178.3
203. 1
184. 5
162.6
136. 9
140. 9
158. 6
IGUS 15
154. 8
168. 1
161.0
153.3
147.3
149.4
165. 1
158. 8
151 . 9
151.0
156. 4
163. 9
173. 6
170.8
167. 6
150. 8
IOUS 15
159.3
145.4
144.3
133.2
1 19- 1
124.6
137. 4
122.3
106.2
110.4
125.3
131.8
105.9
B-163
ng (
MINUTES
MINUTES
MINUTES
06-16-1987
-------
Qgden Mar- tin 8
T I ME
18:28
18:29
18:30
AVERAGE
18:30
AVERAGE:
18:30
18:31
18: 32
18: 33
18: 34
18:35
18: 36
18: 37
18: 38
18: 39
18:4 0
18341
18: 42
18: 43
18: 44
18: 4';i
AVERAGE
18:45
18: 46
18: 47
18:48
18:49
18:50
18: 51
18:52
18:53
18:54
18:55
18: 56
18:57
18:58
18:59
19:00
AVERAGE
19iOO
19:01
19:02
19s03
19:04
1950S
19t 06
CHAN 1
TECO
p_pmwet.
609 . 8
605 . 9
621.5
VALUES
600. 1
VALUES
575.2
664.6
665. 4
647. 0
635. 1
641 . 9
691 . 7
690. 2
723. 1
73:?. 4
719.8
705. B
740. 0
786. 6
735. 0
7O2. 2
VALUES
698. 7
679.9
642. 8
587.3
570. 5
622. 7
639. 3
587. 7
586.3
634. 4
604. 1
603. 1
571.8
564.7
579.6
585.2
VALUES
604. 0
572.9
561 . 5
532. 1
525. 1
505.5
514. 1
yRtoms - HC1
CHAN 3
LSI
ppmdry
241 . 0
219. 6
211.8
Monitoring 06-16-1997
CHAN 4
Bodens
_...P.Pffid_ry.
92.0
94. 7
103. 6
FOR THE PREVIOUS 15 MINUTES
239.6
FOR THE LAST
244.6
224.7
231 . 3
212.1
192. 7
178.0
173.8
186. 9
212.6
219.3
214.3
211.9
210. 1
208. 0
214. 1
226. 0
FOR THE PREV
207.7
232. 9
229. 1
220.3
202. 2
191 . 9
181.4
170.3
155.6
145.9
147. 1
166.4
171 .9
166. 9
152. 4
140. 3
1 19. 7
HOUR: 60 MINUTES OF VALID DATA
145. 0
84. 9
65. 3
55 . 3
55 . 5
64. 5
79. 1
80. 9
76. 4
73.5
69. 0
67. 5
70. 6
71 . 2
71.6
75. 0
IOIJS 15 MINUTES
70.7
70. 4
59. 6
52.2
48. 4
41 . 4
29. 9
22.7
24. 2
33. 6
37.0
36. 8
31 . 7
27. 6
27.0
31 . 1
FOR THE PREVIOUS IS MINUTES
178.3
140. 0
152.3
156.2
149.8
141.8
135. 1
38.2
33.0
31.4
27.0
23. 9
23. 1
24.8
B-164
-------
TIMJL_
19:07
19:OB
19
19
19
19
19
19
19
MartJn Kywtflwifl -
CHAN 1
TECO
_p_B-fnwet
539.5
i09
10
i 11
; 12
i 13
i 14
: 13
HC1 Monitoring
CHAN 3 CHAN 4
LSI Badens
.__p_P.rn d r_y. P.p_m d_r y
06-16-1987
5'->'-> '->
*-j^nj-
507.8
528.2
529. 9
528. 9
563. 2
541
133.
134.
135.
130.
123.
121 .
128.
150.
152.
24.9
19.3
17.8
17. 6
17. 2
18. 1
18.3
17.8
AVERAGE:
1 9 t 15
VALUES
9
FOR THE PREVIOUS 13
139.1 22.4
MINUTES
1 9:
19:
19:
19:
19:
19:
19:
19:
19:
19:
19:
19:
19:
.1 9:
19:
16
17
18
19
20
2 1
'-"i '-i
t- -C,
23
24
25
26
27
20
29
484. 8
487. 5
55U. 8
549. 3
520. 0
512. 9
496. 3
505. 3
497. 4
520. 4
595. 8
343. 5
161.7
128. 9
1 18. 2
1
1
1
1
1
1
1
1
1
1
1
1
"^
J_'
1
1
"T
_,.
-T-
.fcl!
1
1
"->
j_ '
6 .
8.
8.
6.
4.
9.
1 .
4.
7 .
6.
T1
cr
x_J .
0
8
4
"T
B
5
1
jj
9
"•n
1
cr
133. B
15. 4
15. 3
19. 8
21.9
20. 9
20. 6
19-9
21.2
25. 8
21.2
0. 4
0. 6
0. 5
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTtYS
19:3U 431.5 127.1 15.3
AVERAGE VAl UEF- FDR THE LAST HOUR: 60
19:30 567.5 163.1 36.7
M i N u T E: ;•:.; o F v A L i D D A T' A
19:
19:
19:
19:
19:
19:
33
34
35
36
37
38
1 0 0 .
79.
76.
75.
SO.
70.
0
6
7
6
-T
O
82.
51 .
39.
~T T1
25.
21 .
4
1
4
0
6
0
0. 4
0. 7
0 . 2
0 . 3
-0. 2
0 . 7
_— r^
19:39
19:40
19s41
19s42
19l43
19:44
19i45
19:46
19: 47
AVERAGE
19:47
83
82. 0
78. 9
62. 4
89. 4
74. 8
66. 3
74. 4
74. 4
VALUES
77. 9
18.4
15. 5
12.9
11.2
10.2
6.7
6.2
5.5
3.9
FOR THE PREVIOUS 15 MINUTES
22.B 16.7
B-165
-------
Qgdf?n Martin
CHAN
TECG
III
19
19
19
19
19
19
19
19
19
19
19
19
20
20
20
Systems -
1 CHAN
LSI
ME ppmwet __P_RITl.dJ".
;
•
•
•
•
•
•
•
.
;
•
.
;
•
J
j
5
48
49
50
51
52
53
54
55
56
57
58
59
00
01
02
72.
72.
80.
65.
66.
73.
74.
69.
71 .
70.
62.
68.
66.
64.
59.
5
9
7
9
9
5
6
5
-T
7
0
7
'"V1
o
6
AVER AOL' VALUED FOR
20
;
02
69.
T;
2 .
0.
0.
-0 .
-0.
-1 .
1 .
-2.
_"T
-0.
-0.
0.
0 .
1 .
1 .
THE-
f^O.
HC1 Monitoring '
3 CHAN 4
Bodens
Y.
1
9
8
3
4
5
9
6
3
~T
~T(
7
9
1
0
-f
^
pjpmd
X32
46
4
0
0
o
26
55
73
81
86
89
93
95
95
RE VI DUG
} 53
*JL/
. 5
. 0
. 7
.5
. 6
.5
~^T
. 0
. 0
. 4
. 9
. 4
. 6
. 6
15 MINUTED
. 1
06-16-1987
20:
20:
20 :
20:
20:
20:
20:
20:
20:
20:
20:
20:
20:
20:
20:
0
"S
04
0
("i
0
;;,
6
7
00
o
1
1
1
1
1
i
1
1
9
0
i
4~
3
64. 6
59. 8
66. 4
61 . 5
56. 2
""513. 6
67 . 8
65. 31
56 . 1
5 5 . ("»
245. 6
4 776. 1
5 962.7
6 1043. 1
7 1097.2
0. 8
0. 7
0. 6
0. 5
O. /I
1 .5
14.9
97. 0
9B. 5
1 (JO. 3
1 00. 7
100. 8
cr
1 .
1 .
0 .
0.
0.
0 .
~T
9
0
7
T^Ji ~^ *"
102.
103.
J02.
4 "4-rJjrr
0 79.
1 19.
9 /
7,
^
5
-T
-0. 4
7.
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
20: 17 315.7 1.9 87.9
20:
20:
20:
20:
20:
20:
20:
20i
20:
20:
20:
20:
20:
18
19
20
21
22
23
24
25
26
27
28
29
30
1
1
1
1
1
1
1
1
1
1
1
133.
146.
177.
195.
21 1 .
215.
219.
225.
232.
231.
228.
1240.
1240.
~7
0
7
-T
1
"T
5
8
7
9
2
5
9
-0.
1 .
-0.
-0.
0.
1.
0.
0.
0.
0.
0.
0.
41 .
9
8
7
T.t
8
5
5
4
8
4
3
1
2
1
1
1
1
2
1
4.
"T
j/_ B
1.
4.
6.
7.
8.
9.
0.
9-
19.
2
12 .
5
cr
7
9
6
6
7
1
7
3
8
8
8
AVERAGE VALUES FOR THE LAST HOUR: 58 MINUTES OF VALID DATA
20:30 390.4 7.1 43.8
B-166
-------
Ogden Martin Systems - HC1
CHAN 1 CHAN 3
TECO LSI
"LIME fiP.cn we,t_ ppmdry
Moni tori ng
CHAN 4
Bodens
06-16-19B7
20:31
20:32
AVERAGE
20:32
20:33
20:34
20:35
20: 36
20: 37
20:38
20:39
20: 40
20 : 4 1
20: 42
20:43
20: 44
20:45
20: 46
20: 47
AVERAGE
20:47
20:48 f
20:49 \
20:50
20:51
20:52
20 : 53
1250.3
1247.9
VALUES FOR
1213. 1
1247.7
1248.9
1258. 1
1254. 4
1262. 2
1261 . 0
1255. 9
1264. 8
1257. 9
1259. 0
1270. 4
1268. 9
1270. 7
1279. 3
1263. 6
114.8
146.6
... f^-f • • • ~ a-'—
25.
26.
THE PREVIOUS 1
20.3
167. 1
192.0
216.8
O T, ~' D
248. 8
258. 6
266. 4
268. 8
271 . 1
274. 4
276. 9
280. 5
284.8
287.5
294. 0
15.
26.
25.
25.
27.
32.
-T-^;
32.
30.
34.
38.
39.
36.
34.
39.
46.
VALUES FOR THE PREVIOUS 1
1261 .5
,- • -v
1270. Of
1265. 4\
1270. 3
1261 .5 \
1258.3 /
1257. 5 '
20: 54 11267. 1
20:55 U279.5
20:56
20: 57
20:59 ^
1276. 3 |
1267. 3>
S-^Z-KTt)
254. 7
297. 4
296.5
298.3
299.8
"^0-1-r-i.
._j>i-*-r-v.
304. 4 \
302.5
-ij-fV? — T~
• j U ._! . _>
303 . 3
304. 2
304. 6
J
33.
51 .
44.
40.
43.
48.
51 .
48.
48.
52.
61.
64.
-*—
8
7
5 MINUTES
0
3
8
8
1
2
4
0
9
5
1
0
4
8
7
8
5 MINUTES
5
8
T;
5
8
9
6
1
1
9
7
1
B-167
-------
SUMMARY OF HC1 MONITORING DATA
RUN: 12
SOURCE: Ogden Martin Systems - Characterization Test
TEST DATE: 6/22/B7
GAS VALUE
INITIAL CAL
FINAL CAL
MEAN CAL
***TECO (INLET)***
0.0 ppm HC1
1222.0 ppm HC1
***LSI (MIDPOINT)***
0.0 ppm HC1
259.0 ppm HC1
***BODEN.(OUTLET)***
0.0 ppm HC1
65.0 ppm HC1
1.0
1227.0
-0. 1
NA
36.0
1280.0
-0.B
71.0
IB.
1253.
-0.5
71.0
HOUR
1
HOUR
UNCORRECTED RESULTS
TIME
11:00 - 12:00
12:00 - 13:00
13:00 - 14:00
14:00 - 15:00
INLET
(wet)
4B2.9
494. B
170.4
53.6
MIDPOINT
(dry)
OUTLET
(dry)
43.5
37-9
13.6
***RESULTS CORRECTED FOR CALIBRATION BIAS AND DRIFT***
TIME
1 11:00-12:00
2 12:00 - 13:00
3 13:00-14:00
4 14:00 - 15:00
4-HOUR AVERAGE:
Highest 1 Min. Avg.:
Lowest 1 Min. Avg.:
INLET
(wet)
459.5
471.3
150.3
34.7
279.0
13.
MIDPOINT
(dry)
OUTLET
(dry)
40.0
34.9
12.B
5.0
23.2
56.9
1.5
NOTE: Inlet concentrations were measured on a wet basis; they were
not corrected to a dry basis due to -fluctuations in the
moisture content.
B-168
-------
Oqrlrni ha i- I
(".!•
3. 1 1 by;. t r.' m»-'- • HI ,1 Hon 1 i or j in1]
IAN 1 CHAN 3 CHAN 4
TfLTG LSI Bcs dans
TIME ppuuMPt . ... ppmdry ppmdry
08:36 -10.4 1.6 53.2
08:37
OS: 38
08:39
08:40
08:41
08: 42
08: 43
08: 44
08: 45
08: 46
08: 47 f
08:48 t
OR: 49
08: 50
08 : 5 1
08:52 .(
08:53 \
08:54 v
08:55 '
-17.8 - 0 .1 41.5
2.9 -0.4 6.5
•18.5 -0.1 1.4
-10. 7 - 0 . 1 0 . 5
-10.8 -0. 1 O. 2
-B.6 >^21 -1.2
-1 .7 JO. 4,' -0. 9
,2 . 2 0 . 4 — 0 . 7.
5.2 ,0.1 -0. 7
-1.5 ' 0 . 0 - 0 . 7
"3.8 0 . 2 - 0 . /|.
5. j i 1 0.1 -0. 4
14.2 '( ' 0 . 2 - 0 . 6
-5. 8 '' ', 0. 3 '' -0. 9
- 1 - B ( 0. 3 52. 8
4. 0 J ; 0.0 j 76. 5
0 . 7 / — 0 . 2 0 . B
2-. 9 ' 0 . LJ 9 . 3
08:56 "--u.5^ O.J 47_-J\
08: 57
08: 58
08: 57
0 9 : 0 0
2\ 7 4. 1 T<7. B
4.7 50.0 47.8
8.5 1 04. 2 48.1,
41.7 133.9 48.0
21 •• J 9B7
AVERAGE
09: 00
09:
09:
09:
09 :
09:
09:
09:
09:
09:
09:
09:
09:
09:
09:
09:
01
02
03
04
05
06
07
08
09
10
1 1
12
13
14
15
AVERAGE
09:
15
VAl UE
— 0 .
1
1
1
1
1
1
1
1
399.
665.
789.
869.
930.
959-
992.
027.
043.
04B.
063.
094 .
1 02.
105.
1 16.
'5
7
0
6
ji'
4
B
0
7
9
7
TJ
8
1
5
5
0
VALUES
947.
*•}
FOR T
1
1
1
1
1
jll
2!
_^_'
J^.'
J^
2
2
»-•
^.-i
2
HE
1 1 .
53 .
70.
78.
88.
97.
06.
1 0 .
14.
17.
2'0 .
24.
27 .
29.
^ro
36.
FOR THE
207.
LAST
8
9
7
6
•T
0
9
6
7
1
8
HOUR:
19.
5
1
-
1
7.
^ .
0 .
0.
0 .
0.
8.
25 MINUTL'L OF VALID DATA
0
5
8
1
j.''
8
1
6
49- 3
5
cr
9.
8.
5 55.
7
6
6
2
PREVI
4
64.
7
6
cr
V-J
aus
T
1 .
0' .
B.
1
8.
(f,
4
B
B
-1!
B
7
5 MINUTES
o
09: 16
09: 17
09: IS
09: 19
09 : 20
09:21
1128.3
1 135.3
1133.4
1 133. 4
1 146. 0
1155. 1
?38. 0
?38. 1
1'39. 2
:39. 7
?41 . 8
?44'. 1
51. 4
57. B
59. 4
53. 5
45. 0
B-169
-------
Ogden Martin Systems - HC1 Monitoring
06-21-1987
CHAN 1 CHAN 3 CHAN
TIME:
09: 22
09: 23
09:24
09: 25
09: 26
09 : 2 7
09: 28
09 : 29
o9 : J.O
AVERAGE
09: 30
09 : 3 1.
0 9 : 3 2
09: 33
09: 34
i J 9 : 3 5
09: 36
09: 37
09: 3D
09: 39
0 9 : 4 0
09: 4J
09: 42
09: 43
09: 44
09: 45
AVERAGE
09: 45
09: 46
09: 47
09: 48
09: 49
09: 50
09 : 5 1
09:52
09:53
09:54
09:55
09: 56
09:57
09:58
09: 39
10:00
AVERAGE
10:00
AVERAGE
10:00
TECQ LSI
Baden
4
s
p P m w P t _ _ pp m d r Y P P. ™ d r y
1143.0 245.4 34.
B
1158.0 246.8 3B.3
114] .0 247. 7 48.
1163.6 246.4 51.
1167.3 24 t
1170.4 24F
j 166. B 25i
1163.5 251
,.3 47.
; . 3 51.
).2 56.
'.8 58.
1 1 74. 1 254. 0 60.
VALUES FOR THt
: PREVIOUS i
6
7
en
o
3
9
6
5 MINUTES
1151.9 245.3 51.2
1J74.4 25'
1172.7 25^
.0 59.
,.0 58.
1189.5 254. B 52.
] 2o 1.5 25^
,.::, 53.
1 185. 9 257. 3 55.
1184.5 258.3 51.
1 192. 7 258. 2 48.
B
4
4
9
8
6
0
1191.5 258.4 45.2
1185.2 258.8 42.
1189.9 260.0 46.
8
9
] 205.0 260.0 51.3
1192.8 259.9 49.
1J92.S 25_f
1205.5 /26J
1 ] 89. 3 26
\
VALUES FDR THt-
1190.2 25£
1203.3 26<
1195.2 \2'6t
1193.2 25C
1214.7 25E
1216.6 25E
1196.3 25C
1206. 6 ; 26<
1225.5 V26,
/-Jit 41 .
. A 38.
L . 7 / 44.
-: P EVIOUS i
3.2 49.
>.9 56.
).9 55.
X.9 45.
•i.3 46.
i.3 49.
7.5 i 52.
J. 4 / 46.
L.7J 39.
1219.9 256.3 34.
12] 5. 2 179.2 41.
1215.0 128.3 49.
1232.2 10:
:; . o 53 .
1226. 3 85. 1 50.
1232.5 7:
3.8 48.
1218.6 64.2 49.
VALUES FOR THE PREVIOUS 1
1214.1 198.0 47.
VALUES FOR THE LAST HOUR:
1125.8 227.2 46.
1
^
"T
2
5 MINUTES
3
1
4
1
_^
0
1
9
cr
9
6
0
5
5
9
4
5 MINUTES
9
60 MINUTES OF VALID DATA
6
B-170
-------
Ggden Martin Systems - HC1
CHAN 1 CHAN 3
TECO LSI
TIME
1 0 : 0 1
10: 02
10:03
10: 04
10: 05
10: 06
10: 07
10: 08
] 0: 09
1 0 : i 0
10: 11
Ui: 12
10: 13
1 0 : 1 4
10: 15
AVERAGF:
10: J 5
10: 16
1 0 : .1 7
10: IB
10; IS"
10: 20
1 0 : :> |.
1 ( ) : 2 ,:
1' i: 23
10: 24
1 O: 2I.-J
10: 26
10: 27
1 0: 28
10: 29
1 0 : 30
AVERAGE
10: 30
1 0 : 3 1
10:32
10:33
10:34
10: 35
10: 36
10: 37
10:38
10:39
10: 40
10:41
10:42
10:43
10s44
10:45
ppmwet pomdry
1234. 1
1225. 1
1226. 3
1214. 7
1230. 2
1221 .5
1 2 1 3 . B
1222.5
1231 . 5
1 233 . 2
1229. 9
1231 . 7
1232. 6
1224. 3
3 227. 3
VA^V-OR
^2i
J 238. 4
i (") v i" • . 2
6B9 . /
6i."-J. 4
6 ' ' ".' . 5
t>27 . 3.
5 [iC'. 1'.
IT" - ;- - c-
549. •_)
CL- C - ir: f-<
iJ> J J . U
576. 6
525 . (.)
524. 4
519. 1
5 .1 3 . 2
VALUES FDR
651 . 2
534. 6
529. 3
572. 8
553. 1
563. 9
587. 4
552. 4
559.0
572. 0
573. 3
573.6
592. 7
571 .6
575.8
563.8
54.5
48. 5
34. 3
30 . 6
27. 7
26. 5
24. B
23. 9
2 1 . 1
16.1
13.2
11.2
10. 1
9. 3
8. 6
THE PREV
24 . U
0. 3
8. 3
7 . 6
7 . O
/ . 0
7 . 0
O . L J
£j . j_'
5 . 7
5 . 9
6 . 0
5. 7
6. 0
6. 5
5. 6
THE PREV
6. 6
4. 8
4. 9
4. 8
5. 1
5. 8
5.6
4. 9
4. 4
4. 4
4. 1
3. 6
3. 5
4. 2
5. 1
4.7
Mon i tor i ng
CHAN 4
Bod ens
__ppmdry
52.6
57. 9
55. 9
49. 9
50. 5
47. 0
47. 9
56. 4
5B. 3
56 . 2
48. 1
45. 8
53. 4
59. 3
56. 4
10(15 15 MINUTES
53. 2
52. 6
'17. J
46. 3
48. 1
cr -7 ">
._! / . .il.
62. 1
c: c. ~
„ K 1 . ,:'
47. 2
39. 1
43.5
49. 5
46. 4
45.1
43. 5
45. 3
I Q US 15 MINUTES
48. 5
51 . 6
59. 3
64. 3
58. 0
49. 7
49. 0
51 . B
55. 0
52. 8
47. 3
49. 7
55. 7
53.6
52. 4
49. 1
06-21-1987
B-171
-------
0 g d P n M a r t i n B y a t, tv m s - H C 1 Monitorin g
LHAN 1 CHAN 3 CHAN 4
TECO LSI Bodesns
TIME!: ________ ppmwpt. _. . ..p.pmdi"y ____________ P_E. IP-dry
06-21--1937
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
1
1
J.
J
1
t
1
1
1
1
1
.1
i
1
]
1
0
0
0
0
(j
(••)
I )
o
0
o
0
o
o
0
o
1
AV
]
1
45
46
47
48
47
5 0
5 1
Hi. ' .
. J /„
S ~\
54
CJ *~)
!.-_ .'.
j /
•jR
.'j '• /
oo
-RAi it':
00
AVFRni/lF
1 .1 : 00
1
1
1
1
1
1
1
\
1
1
1
1
1
1
1
•i : O.i
1 : O ,:!
i : 03
1 : U4
1 : 05
1 : 06
.!. : 07
t : Of)
1 : 09
1 : 10
3:11
1 : 1 2
1 : 1 3
1:14
1: 15
AVERAGE
1
1
1
1
1
1
1
1
1
1
Is 15
1 j 16
1: 17
1: 18
li 19
1 : 20
1:21
1:22
1:23
1:24
565.
58£.
57 1 .
543.
533.
534.
520.
5 1 0 .
496.
4 ; <;• .
484 .
46,9.
472.
4 c ' 7
467 .
4 / 1 .
VAL UP
509.
VAL OF
738.
46,5.
486.
4-62.
473.
452.
493.
497.
467 .
480.
486.
507.
501 .
465.
460.
454.
VALUE
477.
474.
475.
466.
462.
433.
448.
463.
467.
469.
0
4
0
7
0
"7
'}
'•_ •
^
"7
8
5
0
5
7
!'; POR
S TuU
i •
7
6
61
9
6
0
^
u:
4
7
5
8
B
2
S FOR
1
7
5
4
7
5
4
4
1
4
4.
4.
4 .
4 .
4.
4.
•_ ' .
_'< .
1 .
i .
i .
i .
.1 .
j .
1 .
3.
1 Hf
X-.: .
Thlt
9 _
J1. ,
-J1' B
J-', .
^ •
_,.
•1' >
•J ' •
^' „
.*U- *
^:' .
•.''• •
i .
i .
i .
THE
2 .
1.
1 .
1 .
0.
(j .
-0.
-0.
-0.
-0.
7
^
4
c'
O
4
•7
4
5
r.-
6
5
7
9
t,
~?
PR I" VI
9
6
3 "
4
.•:;'
•/
r>
4
!j
4
6
0
(j
9
5
2
PREVI
6
TT
tr
vJ
1
4
2
0
o
1
T;
cr -^*
46.
44 .
43.
46.
47.
46.
46.
4 C.'.
3 8 .
3 7" .
•J"'O' .
46.
44.
40.
36.
OUfi 1
4 7 .
HOUR:
4 9 -
'• r
. '' ^ J .
42.
48.
51 .
48.
46 -
4 3 .
4 1 .
47.
56.
58.
5 (. i .
4J .
42.
49.
QUS 1
47.
56.
51 .
45.
36.
7,7,.
38.
43.
42.
41 .
-'
^
~!
6
O
.1
j.
(j
8
1
cr
,J
j
4
6
8
6
5 MINUTES
^
60 MlNUTLi', OF VALID DATA
4
''-I
9
4
^,
j
8
4
9
9
4
8
o
9
8
8
5 MINUTES
0
1
9
8
8
0
5
2
8
2
B-172
-------
Qqden Mart in Systems -
CHAN 1 CHAN
TIME
11 25
11 26
11 27
11 28
11 29
1 1 30
AVERAGE
1 1 : 30
11:31
1 1 : 32
1 1 : 33
11:34
t 1 : 35
11:36
1 1 : 37
1 1 : 3B
1 J. : 39
1 1 : 40
11:41
1 1 : 42
1 1 : 43
1 1 : 44
1 1 : 45
AVERAGE
11:45
11:46
11:47
1 1 : 48
11:49
11:50
11:51
1 1: 52
11:53
1 1 :54
11:55
1 1 :56
1 1 : 57
11:59
11:59
12:00
AVERAGE
12:00
AVERAGE
1 2 : 00
1 2 r 0 1
12:02
12:03
TECQ
ppmwE't
503.4
489.3
505. 1
503. 0
511.9
472. 6
VALUES
476. 4
480. 1
533. 8
508. 6
482. 5
505. 8
517.3
462. 3
428. 8
448. 1
465. 4
467. 2
cr cr ^i T
547. B
5O6. 3
498. 3
VALUES
493. 6
484. 9
506. 2
516. 7
472. 0
489. 3
496. 0
523. 4
497.9
453. 3
472. 2
469. 3
467. 4
453. 4
477. 6
490. 0
VALUES
484.6
VALUES
482.9
494.9
519.5
486.4
LSI
HC1 Monitoring 06-23-1997
3 CHAN 4
Bodens
_ _Ppmdr_y pprndry
0.
0 .
0 .
1 .
1 .
0 .
FOR THE
0.
i~)
_k-*1 m
A'' *
-T
"T
3.
X- .
^r
-T
-T
-T
-•
± ' B
-T
~T
fOR THE
T
3.
-?
Tj
-T
•T
^ n
2 •
J-'1 B
^ „
-T
2 .
2.
_,/! B
2.
2.
FOR THE
2 •
FOR THE
2-
2.
1.
1 .
7
6
6
T;
1
B
PREVI
6
0
B
6
0
4
4
8
0
9
cr
1
9
8
4
Jj
PREVI
1
1
o
TI
2
1
5
^
j.^'
-T
1
7
8
9
7
6
PREVI
8
LAST
"T
1
9
B
44
50
31
52
46
42
OUS
43
48
62
60
51
48
50
51
48
43
36
•.1 !' j^!
35
38
38
37
aus
45
-T E'_~
36
39
40
41
40
37
32
29
-T'T'
37
41
40
40
37
OUS
37
HOUR
43
38
37
29
B
•
•
1
•
•
.
.
.
.
„
f
M
m
f
m
B
B
•
1
-
„
.
.
B
m
m
m
m
m
f
»
.
B
•
1
•
•
*
•
•
„
„
^
1
o
4
4
1
5 MINUTES
7
0
1
7
5
7
9
-T
8
*j!
5
6
4
8
9
9
5 MINUTE'b
7
6
1
4
"T
4
9
7
"T
7
0
"T
cr
4
6
8
5 MINUTES
5
60 MINUTES OF VALID DATA
5
5
7
5
B-J73
-------
Oqdt?n Martin
CHAN
TECO
Systems -
1 CHAN
LSI
HC1 Monitor!
3 CHAN 4
Bad en a
TIM El ._ jp p row e t .. . . .p.p.m d r y
12
12
12
12
12
1 *"'
1 ^
J, yB,
t ' •'
4. r1.
1 7:
12
1 7
1 ,'
AV
1 2
1 2
1 ' ""
1 ->:_
• 1 ./'
12
1 2
„,.
1 y..''
1 '^
.1 :::
J. y..''
<
t ' ''
1 ' "'
\. ,l'u
1 ',"'
1 y'.
04
05
06
07
08
09
1 0
1 1
12
13
j 4
1 5
RAGI"
15
J 6
I/
18
19
20
2 .1
r-i /-
y'. f.
2:5.
24
2'o
2 6
2 /
28
29
3 <".)
AVER ARE
1 '"''''1
12
12
12
1 '•'
12
12
12
1 O
4, rfC.
12
12
12
3 0
31
3 '?
33
34
35
36
37
38
39
40
41
12i42
12: 43
12:44
12:45
AVERAGE
12:45
12:46
447
467
448
423
452
462
432
441
440
471
cr L.T ~
n; c: "-,
B
B
B
.
B
m
f
B
B
a
.
•
VAI lit"
173
5 1 2:
499
<1 9 ''I
52B
491
5 1 7
5 6 (.)
536
5;-,l
6 .I. 9
575
55R
592
5BO
568
-
,,
B
„
_
B
.
„
B
B
B
.
„
.
•
VALUE
546
599
558
5.32
504
521
523
533
518
501
512
525
515
545
526
490
•
.
B
.
B
„
.
B
„
m
m
m
m
m
•
7
7
-r
6
4
8
5
5
8
9
7
cr
5 FOR
0
8
7
6
5
6
9
-r
O'
7
~r,
'"',
6
6
0
7
7
S F'GR
5
0
8
cr
7
4
6
-T
0
7
5
5
0
6
4
5
VALUES FOR
527
488
•
*
2
9
2 .
2.
.I.-:' •
1 .
2 .
-i^.' •
r .
.*.:' •
j.-.'.' »
j^.' .
-•»
2-
THE
2.
o
.1.:' .
^_ .
j:'.'. .
".•i
^
ji' .
] .
0.
0 .
o .
0 .
1 .
-1' .
4.
THE
2.
6.
7.
7.
6.
6.
7.
7.
7.
8.
8.
8.
9.
9.
9.
9.
THE
7.
10.
~T
Tt
0
7
4
6
5
4
B
3,
~r
3
PRCV
3
6
7
5
4
4
-;.
^
^1
4
•-:
6
^
9
L:
1
cr
PRE.V
ij
1
4
j-_''
6
8
1
5
8
0
2
9
2
1
5
8
PREV
9
1
ng '
jDpmdry
23.
24.
25.
27.
32 .
-7- j™,
3 0 .
20.
2 5 .
29.
38.
3 7 .
10UC 1
3 0 .
29.
jL.'-_.' .
24.
."? (..> .
TO
"^ n."
-T _,
• -' -. ' .
30 .
28.
31 .
•_'• ^' .
36.
43.
47.
47.
I DUG 1
~r ~T
50.
52 .
51 .
52 .
53.
49.
43.
41 -
44.
50.
51 .
45.
41.
37.
38.
IQUS 1
46.
40.
B-174
6
5
6
T
3
7
5
0
-7
e
6
1
5
8
6
6
_.,.
,^
9
7
cr
8
9
V
'T
9
"T
0
3
5
9
1
2
9
cr
6
0
9
1
7
8
0
2
T;
7
7
5
9
9
hlNUTFS
MINUTES
MINUTES
06-21-1907
-------
Qgde?n Martin
CHAN
TECO
Systems -
1
T. I M E p_p mwe? t
12
12
12
12
12
12
12
12
12
1 '•'
12
1 -t'L
12
1 'J1
47
48
49
50
51
52
53
54
55
56
57
50
59
00
AVERAGE
13
: 00
AVERAGF:
] 3: OO
1 3;
13
13
i 3
1":
13
13
13
13
13
13
13
13
13
13
: 0 .1
: 0 ','•:•
: 03
: U4
: u5
: 06
: 07
:08
: 09
: 10
: 1 1
: 12
: 13
: 14
: 15
AVERAGE
13
13
13
13
: 15
s 16
: 17
: 18
13: 19
13s20
13:21
13:22
13
:23
13:24
13:25
13
: 26
13:27
13
s28
13:29
480.
459.
451 .
426.
419.
412.
395.
397.
421 .
434.
413.
438.
413.
435.
VALUE
432.
VALUE:
494 .
453.
432.
385.
356.
334.
309.
2 9 7 .
277 .
257.
228.
21 1 .
207.
192.
2 1 3 .
218.
VALUE
291.
203 .
195.
184.
166.
176.
160.
154.
150.
146.
154.
141 .
136.
133.
119.
9
8
8
1
0
-T
4
8
4
0
1
1
7
6
<-
cr-
8
9
B
t.
8
9
7
4
5
~:
7
6
4
5
"T
S
B
1
7
6
2
o
4
7
1
2
3
7
7
5
4
CHAN
LSI
HC1 Monitoring 06-21-1997
T
S.i*
CHAN
4
Bodens
PP m d r_y
10
9
10
10
9
10
10
9
9
10
10
10
9
9
FOR THE
10
F'DR THE:
5
10
10
10
10
10
10
.1 0
1 1
10
10
10
10
10
10
10
FOR THE
1O
1 1
1 1
1 2
13
1 3
13
1 3
13
12
1 3
14
14
13
13
B
a
.
.
B
B
„
B
.
B
m
m
,
-
-
.
.,
.
.
.
.
„
.
„
,
„
.
„
•
•
•
.
.
B
_
B
.
m
m
.
«
.
,
.
0
5
0
T,
4
1
4
9
7
2
T,
'-
7
7
PREV
0
LAST
5
1
o
^
6
4
5
9
j^'
9
6
5
6
8
9
9
PREV
6
5
5
4
4
6
4
~T
1
B
4
1
-7T
9
7
. .jDjD_m_d.r y
37
33
-T-T
3B
43
48
47
40
36
40
45
43
36
35
i cms
40
hi OUR
37
38
40
39
36
_,._,.
31
30
28
26
/— , : 1
18
16
16
17
16
IOUG
27
14
13
13
12
12
11
9
9
9
10
9
B
7
B
.
•
.
.
.
.
%
.
m
.
B
m
f
"
1
-
:
.
.
.
.
.
.
.
.
.
.
.
.
B
-
1
-
B
.
.
.
.
.
.
.
.
.
.
.
.
.
o
6
•T
2
4
7
9
5
7
r-,
1
ll
7
8
5 MINUTES
1
60 MINUTES Of" VALID
9
6
8
_.,.
„,.
jil
4
8
7
o
1
4
5
4
^1
4
5 MINUTES
5
T,
cr
2
9
7
2
"T
^l'
9
4
8
4
9
^i
DATA
B-175
-------
Ogden Martin Systems --
CHAN 1 CHAN
TECO
LSI
HC1 Monitoring
3 CHAN 4
Bodens
06-21-19S7
T I J*l E _______ p E m w rt ______________ p
13730'"" 123.0
8.4
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
13
13
13
13
13
13
•I "
1 3
1 ''"i
1 "'i
1 •«»
1 3
13
1 3
AV
1 3
13
.13
13
1 3
13
13
13
13
13
1 3
13
13
1 3
13
14
30
31
32
-jr «,*
34
35
36
37
38
39
40
41
42
43
44
45
:RAGE
4f=j
46
47
48
49
50
51
52
53
54
55
56
57
58
59
00
AVERAGE
1 4 : 00
AVERAGE
14:00
14s01
14:02
14:03
14:04
1 4 « 05
14:06
14507
14:08
156.4
114.2
131 .5
115.0
113.3
111.8
106. 9
1 17.9
111.1
127.3
126. 6
124. 4
1 33 . 5
132. 4
138. 0
131. 3
VALUES FOR
322. 4
1 30 . 5
132. 6
139. 2
132.5
123. 8
122. 9
113.8
112.7
1 15. 9
98. 8
101.9
84.6
86 . 0
85.0
88 . 0
VALUES FOR
111.2
VALUES FOR
170. 4
84. 4
76.6
79.8
69. 4
75.9
70.9
72.5
68.7
1 3 . 2
12.8
1 2 . 5
1 2 . 0
11.5
11.5
11.3
1 0 . 9
1 0 . 5
10. 1
9.4
9. 1
9 . 0
8. 2
8.5
8.3
THE PRfV
10.4
8. 6
8. 4
8. 1
7. 9
7. 4
7. 1
6.9
6. 7
6. 1
c- '~i
*-J . JL-
4.9
4.8
4.7
4. 4
4. 1
THE PREV
6. 4
THE LAST
10.1
3.7
3.9
3.5
3.5
3 . 0
"~> O
-u . tj
7 ~^
1.8
1 U. o
8. 2
7. 6
6. 8
6.8
7. 2
8 . 2
7.5
7. 6
7. 5
8. 2
9 . 0
9 . 2
B. 3
7.9
8. 2
TOLJS 15 MINUTES
7. 9
9. 2
9. 5
9.5
9. 2
8. 8
7. 9
7. 4
7. 5
7.8
8. 1
8.3
7.5
7. 9
8.2
8. 6
IOUS 15 MINUTES
8. 4
HOUR: 60 MINUTES OF VALID DATA
13.6
8. 4
7.8
7.2
7.4
7.9
7.7
7. 1
7.8
B-176
-------
Qgden Martin Syst.emia - HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECG LSI Bodana
11 ME p.p.mw.p.t .. pp.mcir y _p_p..rndr y
06-21-1987
14:
14:
14:
14:
14:
14:
14:
09
10
11
12
13
14
15
61 .
69.
75.
78.
74.
64.
63.
9
4
8
4
0
1
t>
1
1
1
1
1
1
1
.6
.5
. 6
. 7
. 6
-T§
. z
5.
7.
7.
6.
7.
7.
6 .
7
5
1
8
~'.
t.''
7
AVERAGE
14: 15
VALUES
FOR THE PREVIOUS
MINUTES
14:
14:
1 4:
14:
14:
] 4:
14:
14:
14:
1 4 :
J 4:
14:
14:
14:
14 :
16
17
IB
19
20
21
xl -<•'
2 ':'.
24
2 :~i
2.6
27
20
29
30
61 .
57.
57.
68.
62.
56.
6&.
t.O.
56 .
48.
55.
46.
54.
5:1 .
47.
9
9
1
4
-7
o
~^
6
9
1
7
J
O
j^'
5
i .
l .
l .
l .
o .
j .
1 .
1 .
l .
'\ .
0 .
- o .
- 0 .
0.
( j .
1
(j
'?
^
9
1
_/'
o
o
o
i
jj '
5
1
cr
7.
6.
6.
6.
5 .
wj .
C.
5.
5.
5 .
^) .
5.
5 .
5.
f\ .
1
4
.*U.'
2
9
~7
LL
^'
6
5
7
~i
"T
1
7
AVERAGE VALUES FDR TUT PR (TV I DUG
56.
'. 7
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
14:
3 1
'^,~'
.-,,,,
34
35
36
37
30
39
40
41
42
43
44
45
57.
65.
63.
49.
47.
52.
or /~i
•-i^. .
54.
38.
55.
47.
44.
41 .
45.
42.
1
9
6
B
8
6
1
1
9
1
8
0
9
5
-T
0 . 5
0 . 3
0 . 5
0. 5
— C) . 0
-0. 4
0. 1
0. 4
-0. 1
0. 1
0 . 3
0. 7
0. 9
1 .0
0 - 9
4.
4.
4 .
4.
4.
nr
U .
4.
4.
4.
4.
4.
4.
4.
4.
4.
T
7
7
9
Q
o
9
9
8
9
~T
5
~T
4
1
MINUT'ES
AVERAGE VALUES FOR THE PREVIOUS IS MINUTES
14s 45 50.6 0.4 4.6
14:
14i
14;
14:
14:
14:
46
47
48
49
50
51
50.
43.
44.
52.
49.
47.
7
7
*— l
.il.
1
7
2
0.
0.
0.
0.
1.
1 .
9
8
8
9
_j.
6
4.
4.
4.
4.
4.
4.
4
4
5
9
4
2
B-177
-------
Ogderi Martin Systems - HC1 Monitoring 06-21-1967
TI!VIE'_. ._
14
14
14
14
14
2 4
14
14
15
AV
15
AV
1 CT
J sJ
15
1 5
1.5
15
1 o
15
1 5
Irz
•.. >
1 5
J 5
15
35
15
1 5
15
AV
15
15
IS
15
15
15
15
15
3.5
15
15
15
15
15
15
15
AVE
1 15
52
53
54
55
56
57
58
59
0 0
.RAGE
I'M')
RAHE
OO
o :l
0 2
03
04
05
O6
o7
OB
0 '-•'
\ 0
.1 I
12
1 3
14
15
RAGE
15
16
17
19
19
20
21
22
23
24
25
26
27
28
29
30
RAGE
30
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodens
P_R ni w £\t: RP Old r y pp md r y
42. 1 1.6 4.3
39.9 1.7 4.2
41.3 2.0 4.3
53.5 1.7 4.2
39.3 1.3 4.7
48. 5 1.0 5. 0
44.7 1.0 5.4
47.7 0.8 4.9
41.1 O .8 4.7
VALUED FOR THE PREVIOUS 15 MINUTES
4 5.7 J . 2 4 . 6
VAL. Ul C FUR' THE I AGT HOUR: 60 hINUTEB OF VAl ID
CT" f- i\ 1 '"' ^~ X-
4 7 . o 0 . 9 4' . B
"•'5.2 1.3 4.3
43. 9 1 . "' 4. 1
4R. 2 J . 5 3. 8
45.2 1.6 3.2
3B.6 1.7 2.5
39.3 2.0 1.9
46. 5 1 .0 1 . 9
4 4 . G 2.2 1 . 5
32. 1 1.4 1 . 9
42.-^ 2.2 1.6
43. 0 3.3 1.5
40. 4 3.2 1.1
33.3 2.9 1.5
33.4 2.0 1.9
VALUES FOR THE PREVIOUS 15 MINUTES
42.2 1.9 2.5
35. 9 1.7 3.6
36.7 1.6 0.5
46. 2 1.7 --0. 2 '
48. 6 1.7 -Q. 9 1
43.2 1.7 -0.8
52.5 1.6 -0.9
49.9 1.7 -1-.5
46.8 1.7 -1-.7
49. 7 1.8 -1.. 1
50. 6 2.3 -O. 4
50.5 1.8 -0.2
48.2 1.8 -Q.9
65.3 1.7 ^il^Lj
47. 5 1.8 ^57o
44.4 1.7 1B.B
VALUES FOR THE. PREVIOUS 15 MINUTES
47.7 1.8 O.B
DATA
B-178
-------
Qgden Martin Systems -
CHAN 1 CHAN
TECO LSI
HC1 Monitoring
3 CHAN 4
Bodens
06-21-1987
l.i nt,
15
15
15
15
15
15
15
15
15
15
15
15
15
15
15
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
AVERAGE
IS
15
15
15
15
15
15
15
15
15
15
15
15
15
15
16
45
46
47
48
49
50
51
52
53
51
55
56
57
58
59
00
ppmwe
51 .
46.
49.
45.
47.
47.
49.
45.
29 .
46.
38.
36.
39.
43.
27.
-t .._ .E
c-
wJ
9
6
9
6
4
5
6
4
O
1
6
9
4
9
VALUES FOR
43.
37.
I~> cr
+i O .
43.
44.
49.
29.
36.
33
30 .
^ &
29.
3 0 .
34.
43.
40.
0
8
1
4
0
7
B
5
7
i
0
0
j.-'
4
7
'y
.P.rod
1
1
1
T1
O
T>
1
jiL
TI
1
1
1
1
1
1
THE
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
c.y pj
.7
.7
.8
. 0
*">
t—^
. \
. 0
. 7
cr
. U
. 6
. 6
. 5
. 6
3 m dr y
50 . 9
,47^3
MTTT
47. 1
47. 1
~47T5
42. 8
0. 9
-0. 7
-1 . 4
-0. 7
-0. 6
7. 8
32. 5
PREVIOUS 15
.8
. 6
. 6
.6
. 6
. 7
. 6
CT
. >_J
. 6
-7
. /
. 7
. 7
. 8
. 6
.5
. 7
27. 6
38. 0
39. 6
41 .5
44. 1
45. 9
48. 7
50. 7
51.3
53. 0
53. 9
56. 0
56. 4
57. 1
57. 9
5B. 0
MINUTES
AVERAGE V
16 00
At40EB FOR THE.
[353
AVERAGE VALUES FDR THE
16:
16:
16:
16:
16:
16:
16:
16:
16:
16:
16:
16:
16:
16:
00
01
02
03
04
05
06
07
08
09
10
11
12
13
42.
wO •
92.
541.
865.
989.
1051 .
1
1
1
1
1
1
1
1 07 .
129.
154.
177.
195.
208.
206.
o
4
^
*-"i
4
0
6
5
0
7
9
8
1
9
1 .
f~\
O
1 .
1 .
1.
2.
O
A. •
^
2.
^71
s_ '" •
"7
•»' •
3.
PREV
6
LAST
8
1
0
8
6
9
-T
5
0
0
6
1
6
7
IOLJS 1
50.
HOUR:
20.
59.
60.
61.
62.
63.
63.
64.
64.
65.
65.
66.
67.
67.
5 MINUTES
1
60 MINUTES OF VALID DATA
T
8
6
8
7
1
6
7
8
O
5
5
6
7
B-179
-------
Ogden Martin System* - HC1 Monitoring
06-21-1987
CHAN 1 CHAN 3
TECO LSI
TIME pj?.fi). w e? t . ... .. _ pp md r y. ,_ _..
16:14 1
16:15 1
221.4 4
226.3 4
AVERAGE VALUES FOR THE
16: 15 946.9 2
16: 16 1
230.7 4
16: 17 1232.0 5
16:18 1
16: 19 1
16:20 1
16:21 1
16:22 1
16:23 1
16:24 1
16:25 1
.16:26 1
16:27 1
16:28 1
16:29 1
16:30 1
238.6 5
245.5 5
251 . 6 4
254 . 8 4
255.3 4
267.7 5
268.2 7
264.4 7
275.2 7
277.4 6
273.0 6
278.8 6
281.8 5
AVERAGE VALUES FOR THE
16:30 1
16:31 fT
16:32 U
16:33 i
16:34 [1
16:35 1
1 6 : 36 1
16:37 1
16:38 \1
16:39 Y
16:40 1
16:41 1
259.7 5
\
28 J .01 4
270. 4 \ 4
281 . 7 1 4
277. 9 / 3
282. 9 / 3
285. 8/ 2
280 . 0 ' 2
OOT 1 I O
2"9T. 5 2
286.8 1
186.4 i
. 0
.7
PREVI
. 7
. 9
. 0
^y
. 1
T
. 4
. 6
CT
. 0
m -li!
. 5
. 9
. 8
cr
. 8
F'REVI
. 8
o
. 7
TT
. 4
. 0
.7
. 4
• -ii.
. 0
.6
.5
CHAN 4
Bodena
Rpmdry
68. 1
68.6
QUS 15
64. 7
68. 9
69. 2
60 . 4
72.6-
70. 1
70. 0
71.0
70.8
71.0
71.1
40. 1
B. B
4. 5
3. 1
2. 5
OUS 15
50. 3
1 . 7
1 . 1
1 . 4
0. 7
0. 6
0 . 7
-0. 1
0 . 2
0. 1
0. 6
0 . 5
MINUTES
B-180
-------
SUMMARY OF HC1 MONITORING DATA
RUN: 13
SOURCE: Ogden Martin Systems - Characterization Test
TEST DATE: 6/22/87
GAS VALUE
INITIAL CAL
FINAL CAL
MEAN CAL
***TECO (INLET)***
0.0 ppm HC1
1222.0 ppm HC1
***LSI (MIDPOINT)***
0.0 ppm HC1
259.0 ppm HC1
***BODEN.(OUTLET)***
0.0 ppm HC1
95.0 ppm HC1
1.0
1209.0
0.0
NA
26.0
1237.0
-1.0
102.7
13.5
1223.0
-0.5
102.7
HOUR
UNCORRECTED RESULTS
HOUR
1
*n
^7
4
T*T •
00:
01:
02:
T
«->e-
-_wJ
25
^C"
*-U
*"*c-
^_wJ
IME
- 00:
- 01:
- 02:
- 03:
*"te-
-_ J
25
25
25
INLET
(wet)
133. 6
T5"1 *?
386. 5
437.5
MIDPOINT
(dry)
OUTLET
(dry)
30. 3
39. 1
27. 1
***RESULTE CORRECTED FOR CALIBRATION BIAS AND DRIFT***
TIME
1
2
,ji
4
23:25
00:25
01:25
02:25
- 00:25
- 01:25
- 02:25
- 03:25
4-HOUR AVERAGE:
Highest 1 Min. Avg.:
Lowest 1 Min. Avg.:
INLET
(dry)
121.3
342.2
376.9
428.4
317.2
753.3
8.4
MIDPOINT
(dry)
OUTLET
(dry)
28.4
36. 5
21.8
25.4
28.0
97.0
2.0
NOTE: Inlet concentrations were measured on a wet basis; they were
not corrected to a dry basis due to -fluctuations in the
moisture content.
B-181
-------
Ogdc-?n Martin Gy
-------
Ogden Mart in Systems -- HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECO LSI Badens
T I ME pp.m w.E?t _pp mdr y ___ _pp mdr_y
06-22-1987
AVERAGE
2 1 : 00
1 172.
FDR THE PREVIOUS 15 MINUTES
270.2 1.4
AVERAGE VALUEC FOR THE LAGT
MINUTES OF VALID DATA
21
21
2 1.
2 1
21
21
'"? 1
* 1
2.1
21
21
21
21
2 1
2J
21
2 1.
ou
01
02
03
04
05
06
07
OB
09
10
1 1
1 2
1 -5
14
J 5
659.8 179.3 1.7
1211.6 263.5 0.9
1187.9 261.9 1.4
1200. 5 261 .1 53. 9
1208.6 258.7 98.7
1 198. 9 259. 3 -0. 1
1215.4 257.2 0.4
1210.7 257.8 -9.6
12JO.O 261.3 32.5,
12 JO. 4 259.8 preT3i
1213. 1 258. 5 48. 6
1210. 1 257. 7 48.7
1 2 J 4 . 5 257 . 4 (^JEb^L-
1204. 1 259. 4 55. 6
1198.7 258.5 15.6
1223. 1 257. 4 0. 6
AVF RAf'.f-:
2 .1. } 5
VIOUS 15
29.6
MINUTES
21
21
21
21
21
21
21
21
21
21
21
21
21
21
21
16
17
18
19
20
21
j£. .hi
23
24
25
26
27
28
29
30
1222.
960.
278.
155.
121 .
109.
1 04 .
100.
96.
85.
93.
76.
78.
67.
79.
-T
8
0
6
T
T-
8
0
0
8
~T
2
8
0
0
258.
260.
246.
165.
126.
102.
85.
73.
63.
53.
44.
38.
29.
24.
21 .
9
~TT
6
8
6
B
4
5
4
1
6
-,.
9
7
~T
1 U'
V-o.
\ 0 .
1 .
1 .
1 .
1 .
0 .
1 .
0 .
1 .
1 .
0 .
1 .
3 \
6
6
1
4
5
4
6
1
6
5
cr
9
0
AVERAGE
21
21
21
21
21
21
21
21
21
21
30
31
32
33
34
35
36
37
38
39
VALUES FOR THE
241.
70.
64.
68.
67.
64.
79.
58.
66.
58.
9
9
6
7
9
9
9
9
3
1
FREV]
106. 3
1
1
1
1
1
9.
6.
4.
*->
1.
9.
9.
8.
8.
5
5
4
4
1
8
o
7
ET1
OL.IS 1
0.
1 .
0.
0.
1 .
1 .
1 .
1 .
1.
1.
5
9
0
6
9
0
±.
1
6
5
B
MINUTES
B-183
-------
Qgden Martin 5/sLsms - MCI Monitoring 06-22-1987
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodens
TIM E. pp. rnw e t. pp m d r y.
21:
21:
21:
21:
2.1:
21:
40
41
42
43
44
45
AVERAGE
21 :
21 :
2 1 :
2.1. :
21 :
21 :
21-
2 J
21
2 J.
2 1
2 1
21
21
.21
2?
45
46
47
4R
49
50
51
'o 1'
5 "!<
54
55
56
57
5R
59
u 0
AVtRAGE
*•: ..•:
AVI
!-• , *-,
JL. *..
o "'.1
2 2
07,1
'T1'/
22
22
T7>
22
22
22
22
22
22
22
UO
"TRACE
01
02
03
04
05
06
07
OS
09
10
1 1
12
13
14
15
AVERAGE
22
22
22
15
: 16
! 17
22: 18
53 . 3
46. 7
66.5
60. 9
53. 4
62. 9
VALUES F'-OR
62. 9
62. 0
72. 9
50. 6
cr --. "?
v_jj.: . _•
IT" — i T1
^ J .J. . - '
39. 5
49. 7
52 . &
50. 0
54. 5
57. 0
4 D . 5
50. 2
46. 3
3 J . 6
VALUE'S FOR
50. 9
VALUE.!?: F"(")R
> - m T ~-***r
47. 1
51.2
44.3
56. 4
48. 9
45. 4
43. 5
50 . 9
41.6
39. 5
47. 5
46.2
37. S
34.9
26.3
VALUES FOR
44. 1
37.9
35 . 7
42.5
7.6
7. 2
6.5
5.9
5. 3
4. B
THF.:!. PREV
9.8
5.3
cr ~?
X.J - •.-'
4. 1
3. 5
3 . 6
2. 9
2 . 7
2 . 7
3. 4
2. 7
2 . '''
j._ . ../'
... _,
2. i
1 . 9
THf PRC-'V
3. J
THE: i A^T
2 . 2
1 . 9
3. 1
3. 1
3. 1
3. 1
~T O
-T cr
•J' . wJ
3. 1
3. 5
3. 0
2. 1
1.8
1 . 9
2 . 0
THE PREV
2.7
2 . 2
^-1 -7
4~ . •_'
2.7
jjp.md_ry.
1 . 0
1 . 0
1 . 2
1 . 6
1. 5
1.9
I DUG 15 MINUTES
1 . 3
2. 0
1. 7
1 . 4
1 . 6
1 . 9
1 . 3
2. O
1 . 9
2. 1
jL.'. . jl'
1 . 8
1 . 9
1 . G
1 . 9
2 . 0
ID Li 5 15 MINUTES
1 . G
HOUR: 60 MINUTE:!-:, OF" VALID DATA
. • \ i__
2 . 6
2 . 4
2 . 6
T1 T1
2. 4
3 . 0
2. 9
-T O
3. 6
5. 1
5.0
4.3
4. B
4. 3
5. 1
IOUS 15 MINUTES
3. 6
5.2
5.5
5.4
B-184
-------
Ggdc?f! Mart.in Systems -- HC1 Monitoring
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bodens
06-22-1987
jC j:.
22
22
22
22
22
'"?> '""i
22
'") O
2 2
'".* '">
22.
AV
??
77
2 '.?
'' 7
72
J . e.
'2 2
O O
V? j?
7 ^
T-1 'P
!2 "y.
-L- ^.
22
22
22
AV
22
2 2
22
22
22
22
22
22
22
2°
22
19
20
21
22
23
24
25
26
77
2B
29
3 0
RAGE
™
31
• '*» .'
:*,:"••.
r.4
~r cr
36
37
3B
39
40
41
4?.
43
44
45
"RAGE
45
46
47
48
49
50
51
52
53
54
55
22:56
22:57
22:58
22:59
23:00
36. 7
49. 5
45.9
38.5
54. 8
54. 1
50 . 6
46. 6
48. 9
59. 8
55. 5
59. 6
VALUES FOR
47. B
60. U
63. 0
BO. 3
74 . 0
75. 1
65. 7
57. 5
45. 0
46. 9
39. 7
44. 2
36. 9
30. 7
28. 6
1 9 . 9
VALUES FOR
51.2
25. 1
38. 2
IB. 6
25. 9
20. 9
29. 0
24. 2
26. B
22. 7
40. 0
18.3
25. 4
25. B
27. 7
23.5
. "Ji „ . ji
3. 6
-^ cr
5. 2
6.2
7. 3
7. 2
6. 5
6. 5
6. 4
6 . 3
5.9
THE PREV
5 . 0
5. /I
5. 7
5. 4
4. 6
/] ~J
5. 1
5. 7
6. 1
6. 6
6 . 4
5. 2
5. 1
5. 4
6 . 3.
6. 9
THE. PREV
5. 6
7 . 0
7. 2
7. 7
8. 6
9. 1
9. 3
9. 1
8.8
B. 8
8. B
9. 1
8.6
B. 9
9.0
8.9
5.7
5. 7
5. 7
5. 9
6. 4
6. 4
6. 7
6. 3
7. 4
7. 1
7. 6
8.5
IOUS 15
6. 4
9. 4
8. 9
8. 3
9 . 2
9. 1
8 . 7
6 . 3
4. 5
3 . U
1 . 4
1 . 1
1 . 0
0 . 4
0 . 8
0 . 8
I DUG 15
4. B
(.') . 7
1 . 7
0 . 6
0. 4
0 . 9
0. 6
0 . 7
0. 1
1 .0
2. 7
2. 4
1 . 3
0. 8
1 .2
"T '"?
MINUTES
MINUTES
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
23:00 26.1 8.6 1.2
B-185
-------
Or; den M
ILME
AVERAGE
23:00
23:01
23: 02
23: 03
23: 04
23: 05
23: 06
23: 07
23: OB
23: 09
23: 10
23: 1 1
23; 12
23: .13
2 3 : 1 ''•!
23: 15
AVERAGE
23: 15
23: 16
23: 17
23: IS
23: 19
23: 20
23: 21
23: 22
23: 23
23: 24
23: 25
23: 26
23:27
23: 28
23: 29
23: 30
AVERAGE
23:30
23:31
23:32
23:33
23:34
23:33
23:36
23:37
23:38
23:39
23:40
2.3: 41
23:42
23:43
a ,j L i n S
CHAN 1
TECG
ppmwt't
~
VALUES
42. 3
42. 0
2 2 . 3
31.8
2 3 . 0
39. 8
21.8
25. 6
31.9
32 . 9
3 .1 . 6
2 2 . 7
23. 8
27 . 5
28. 3
25. 0
VALUES
20. 7
29. 1
35.6
29. L
28. 6
27. 5
3G. 5
28. t,
44 . 8
40. 0
4 7 . 0
4 6 . 4
49. 5
45. 6
47. 3
49. 3
VALUES
39. 0
41 .8
43.6
45. 9
59. 7
72. 4
75.3
76. 1
71 .2
91.8
116.6
155. 0
211.8
187. 9
y stems - MCI
CHAN 3
l..S[
ppmdry
FOR THE LAST
5.5
8.8
8. 6
8. 3
7. 6
7. 4
7 . 3
7.6
8. 2
8. 4
8.6
9.5
9. 6
<•'-/ . 9
1 0 . 0
1 0 . 5
FOR THE PREV
8. 7
10. 7
1 0 . 8
10.8
10.9
11.1
11.2
11.3
11.5
12.2
12.5
12.6
12.4
12.3
12.5
12.9
EGR THE PREV
11.7
13.1
1 3 . 0
14.0
13. 7
13.4
1 3 . 3
13.5
14. 1
13.8
14.2
14.3
14.3
14. B
Monitoring 06-22-1987
CHAN 4
Bodena
jsgmdr y
HOUR: 60 MINUTES OF VALID DATA
4. 0
3. 9
4. 5
3 . 9
3. 7
3. 5
3 '~'
2. B
3 . 0
3. 4
•~' • iL.'
18.7
14.1
3. 1
3. 0
2 . 7
IGLIS 15 MINUTES
5. 1
2. 6
3 "/
Z. 1
3. 1
2. 8
3 '"'
2. 8
2. 6
2 . Q
3 . 0
3 . 0
2. 8
3 3
3. 4
3 . 0
IOLJS 15 MINUTES
3 . 0
3 . 0
2. 9
3. 3
4. 1
5. 0
5.6
6.8
B. 1
8.4
12.4
46.6
93.5
104. 9
B-186
-------
Ogden Martin
CHAN
TECD
Tir
23
23
AVE
23
23
2 3
23
^•-'
23
23
23
2.3
OT
23
2:.
2 T.
23
"•' 3
UO
AV
oo
1E
44
45
.'RAGE
45
46
47
43
49
50
51
52
53
54
55
56
57
5R
59
0 (' )
"RAGE"
OO
AVf.Fi'AGE"
0 0
00
. 00
;01
00: 02
(!) 0 : 0 3
00: 04
00: 05
00: 06
00: 07
00: 08
00: 09
00: 10
00: 1 1
00: 12
00: 13
00: 14
00: 15
AVERAGE
00 1 1 5
00: 16
00: 17
00: IS
00: 19
00:20
00:21
00:22
177.
168.
Systems --
1 CHAN
LSI
t _j
1
T
VALUES FOR
106.
175.
160.
152.
150.
172.
171 .
157.
134.
131.
131.
1.29.
141 .
1 6 7 .
151.
1 46.
VALUE
151 .
VAL I If
81 .
142.
137.
1 IB.
1 32.
128.
147.
129.
130.
134.
129.
131 .
163.
179.
200.
215.
3
1
5
cr
wJ
"T
1
4
8
a.1!.'
o
1
9
0
4
T'
4
S FOR
1
S FDR
3
T;
-T
7
9
9
O
2
8
T,
5
5
2
jil
5
0
VALUES FOR
148.
206 .
20 1 .
ISO.
176.
160.
155.
1 50 .
0
6
2
9
3
1
8
7
14
14
THE
13
15
15
15
15
15
15
14
14
14
14
13
12
13
13
13
THF
14
THE;
12
13
13
13
13
13
13
12
1 2
1 2
12
1 1
1 2
1 1
1 1
11
THE
1 ^
11
1 1
10
10
10
10
10
HC1 Mori i tor inq 06-22- 19B7
3 CHAN 4
Bod ens
. 0
. 1
PREV
. 8
.0
.4
.5
.7
. 5
. 2
. 9
. 7
. 5
. C)
. 6
. 9
. 1
. 5
. 7
F'RFV
H 5
LAirr
. 2
. 7
. 6
.5
. 5
. ^
. 0
. 8
.5
. 4
. 1
. 9
_,
. 9
.5
. 4
PREV
.6
.3
. 1
.9
. 9
.6
.6
.7
-..ppmcir y
88. 0
68
i a us
30
53
45
41
41
42
41
37
33
29
28
30
31
3^'
31
28
IQUS
3 6
HOUR
18
26
24
xl • J1
-li. 0'
^ . J.
/-•, -r
22
22
20
20
21
32
50
58
53
IQUS
29
47
43
39
35
31
29
27
. 4
15 MINUTES
. 7
. 9
. 8
. 7
. 3
. (1)
. 4
. 4
. 0
. 8
. 5
o
. 1
. 5
. 2
. 6
15 MINUTES
. 6
: 6 0 M I N U ' I' E S OF' V A L I D D A T' A
. B
. 4
. 5
. 1
• xL
. 6
~T
. 7
T
. 6
. 1
tr
. B
. 9
. 1
. 6
15 MINUTES
. 8
. 6
.5
T(
. 6
.7
T
. 1
B-187
-------
00
00
00
00
00
00
00
( )G
••(
"I
•
•
«
•
•
•
:
;
•
AVF
(')G
00
0 0
GO
GO
GO
oo
00
00
00
(JO
0 0
00
0 (' )
oo
i)G
:
,
•
;
:
:
;
J
;
*
3
-
;
:
:
"-
AVF
OG
00
00
00
00
00
00
00
00
00
00
00
00
00
00
01
'•
.
.
•
i
;
M
«
J
i
<•
,
;
•
•
•
•
•
•
on Mar t •• n
CHAN
TECO
E _JL>pn>w_p
23 '~ 137.
24 154.
25
26
.27
28
29
30
RAGE
3 0
3 I
•v "i
•. '.' .U.
•1}< j
34
35
36
37
38
39
40
41
4 2
43
4/1
45
'RAOF
45
46
47
40
49
50
51
52
53'
54
55
56
57
58
59
00
AVERAGE
01
•
•
00
AVERAGE
01
•
•
00
169-
173.
162.
165.
172.
1 94.
VALUE
170.
2 :l B .
253.
26B.
267.
262.
25''.' .
2 3 / .
247.
247.
242.
2 7 9 .
-?• -r cr
_'-• '.^J .
366.
3.70.
372.
VALUE:
281 .
344 .
3 5O.
341 .
356.
3 6 0 .
349.
369.
377.
350.
~T '"'T
3 (") 3 .
261 .
239 .
232.
256.
Syr-it: rams - HC1 Monitoring 06-23-1987
1 CHAN 3 CHAN 4
LSI Bod ens
7 ~ 10.6 27.3
7 10.1 31.2
6
7
9
ITT
v-J
1
5
5 FOR
8
B
CT
3
b
6
M
_,_;_'
~r
4
r-
, )
-T
4
0
B
--''
'3 FOR
T
o
0
5
8
9
B
~T
]
6
6
T1
7
0
0
1
VALUES FOR
321.
P-':I
VALUES FOR
23O.
3
1
0 .
9.
Q
9.
9 .
9.
THF
1
1
1
]
1
1
1
1
I
0 .
7 .
9.
9.
9-
9.
0 .
0.
0.
0 .
0 .
G .
G.
9.
0 .
9.
THF
1
1
1
1
1
1
1
1
1
1
1
1
0 .
9.
9.
9.
9-
0 .
0 .
1 .
1 .
1 .
1 .
•7
2*.
1 .
ji~ •
2.
THE
1
1.
THE
1
1 .
0
9
B
9
B
S
PREV
4
7
4
4
7
9
1
1
^z*
JL.'
5
6
":..
9
!••'
9
PRFV
0
3
-T.
e
7
f)
7
T
"7"
cr-
ij
7
0
1
9
1
4
PREV
0
LAST
0
36.
40.
43.
45.
50.
54.
IOUS 1
3B.
62.
71 .
BO.
Bi .
BO.
Bl .
Bl .
6B.
46.
_p. — ,.
27.
20 .
IB.
26.
33.
101.15 1
54.
33.
29 .
26 .
27.
32.
36.
34.
30.
2B.
31 .
T O
29.
27.
26.
29.
IOUS 1
30.
HOUR :
38.
•r
7
~^r
B
2
B
5 MINUTES
9
-,.;
0
0
4
6
cr
*..)
"T
p
c~
O
"T
~T(
6
B
\[ !
1
5 MI NUT EG
1
7
9
9
9
-?;
6
9
6
0
4
o
4
6
5 MINUTES
5
60 MINUTES OF VALID DATA
~Z
01:01 300. 1
12.4 31.9
B-188
-------
Ogrien M,artin Systems - HC1 Monitoring '
CHAN 1 CHAN 3 CHAN 4
TECG LSI Bodena
TIME
01:02.
01 :03
01:04
01 : 05
0.1:06
01 :07
0 1 : OS
01 : 09
01:1 0
0 1:11
0 1:12
0 l : 13
01:1 4
0 1:15
AVERAGE
01:] 5
0 1 : 16
01: 1 7
0 J. : 1 9
01:1 9
01 : 2u
0 1 : 2 i.
01 : 22
u 1 : 7 3
01 : 24
01 : 25
0.1 : 26
01:27
01 : 28
0 1 : 29
01 : 30
AVERAGE
0 1 : 30
01:31
01 : 32
01:33
01:34
01:35
01:36
01:37
01:38
01:39
01:40
01:41
01:42
01:43
01544
0 1 s 45
-BpmwtH p_
321 . 9
30 1 . 6
290. 9
283. 2
342. 6
361 . 1
346.5
337. 4
329. 2
37 3 . B
418. B
460. 4
452. 5
414. 9
VALUE:"; FOR
T cr cr c;
-_' t_' ^J m *- >
402. 6
446.5
4B5. 0
632. V
750. ;,:•
759. -\
7OO . O
632 . 2
55u. B
529. 4
496. 9
460. 9
439. 1:
409. B
391 . 1
VALUES FDR
539. 2
394.2
356. 1
343. 7
340. 7
3 ^' ° 3
301. 0
304. 5
TOT O
•_' j^ •_' . /
356.7
349. 6
333. 8
336. 4
318. 5
330 . 0
343.8
LP mcj r y_ p_E>.rnd r y
12.3 31.8
12.3
12.5
12.8
12. 7
12. 6
12. 6
12.7
12.6
12. 7
12. B
1 3 . 0
1 3 . 0
12.6
THE PRFV
12.6
12.4
12. 6
12. 7
1 2 . 5
12.5
1 2 . E.f
1 3. . 0
13. 1
1 3 . 0
12. B
1 2 . 7
1 3 . 0
13.B
1 3 . 0
13.1
THE PREV
12.9
12. B
12. S
12.7
12. 4
12.5
12.7
12.8
12.7
12.7
12.6
12.5
12.5
12.3
12. 1
12.0
28.7
25. 9
26. 9
3 3 3
35. 2
31.4
26.7
24. 7
2B. 2
33. 5
35. 7
31 . 9
27 . 2
IGLIS 15 MINUTES
30. 2
29. 9
36. 7
4 0 . 0
36. 6
31.4
-T i /_
52 . 0
53. 4
41.2
33. 4
3D. 7
::.Z. S
35. 2
30. 9
26. 7
10 US 15 MINUTES
36. 6
26. 0
26. 2
27. 0
26. 0
23.2
OT, T>
25. 6
27. 1
27. 4
25.5
24. 3
24. 1
23. 7
24.7
24 . 4
06-23-1987
B-189
-------
Og -Inn Mart i n
CHAN
TECO
TIME ppmwo
AVERAGE
01
01
01
01
01
0 1
01
0 1
01
01
OJ
OJ
OJ
0 1
01
0 2
AV
02
45
46
47
48
49
50
51
cr ^"
c.- ••:•
5 4
55
56
5 '/'
50
5 9
0 ( )
•RAHf-
00
AVfRAHF
O7 ; O(')
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
U.1
0 .2
O '!,
04
05
U6
0 7
08
09
10
1 1
.12
1 3
14
15
AVERAGE
02: 15
02s 16
02s 17
02: 18
02: 19
02:20
02:21
02:22
02:23
02:24
Systsms -
1 CHAN
LSI
VALUES FOR
337.
336.
367.
350.
•-' 1. • ' ^ •
325.
3 3 6 .
343.
328.
325.
3 i 0 .
3 0 2 .
33<"' .
-^ u.-
-------
Qgden Martin
CHAN
TEC C)
T I ME _ pp mwt'1
02
02
02
02
02
02
*
:
:
•
:
'•
25
26
27
28
29
30
AVERAGE
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
O2
j
•
:
:
:
:
:
:
:
:
:
2
:
;
;
:
30
3.1
32
ir "f
3 4
Ty !._•
36
37
33
39
40
41
42
43
4/1
45
AVERAbE
0 2
02
02
02
02
02
02
02
02
02
02
02
02
02
02
03
:
;
:
:
i
j
;
:
.
:
;
:
:
*
*
2
*
45
46
47
4G
49
30
5.1
52
53
54
55
56
57
KB
59
00
AVERAGE
03
:
00
AVERAGE
03
03
03
03
•
*
«
*
00
01
02
03
374
436
445
447
437
468
.
.
.
.
.
•
VALUE
424
477
438
432
453
460
447
482
477
480
484
507
475
435
425
425
VALII
460
4O2
397
394
394
371
376
349
3 3 ft
339
324
341
339
3 0 3
3 3 0
296
-
B
„
B
.
.
„
.
.
.
.
m
m
.
•
r:
-
B
„
B
m
„
„
.
M
f
m
m
m
•
VALUE
352
•
Systems -
1 CHAN
LSI
HC1 Monitoring 06-23-1987
3 CHAN 4
Bod en ft
*' PP. md r y._ _pp m d r y
6
4
6
5
8
8
S FOR
S
4
J
7
-;.
o
8
6
1
8
0
0
7
jj
6
i )
r, PGR
2
6
0
o
1
5
9
0
O
9
1
1
-T
9
6
7
S FOR
7
VALUES FDR
420
302
314
321
•
.
f
•
7
1
1
2
10.
1 C) .
o
13.
9.
Q
THE
10.
9.
10.
9.
9.
9.
9.
8.
6.
8.
8.
8.
8.
7.
7
7.
THE
S.
6.
6.
6.
cr
5.
cr
5.
4.
4.
4.
4.
4.
"T
T,
T
THE
5.
THE
8.
3.
"T
2.
0
6
6
2
9
8
PREVI
0
7
1
6
4
T;
0
9
7
T;
*1
T.
1
7
4
1
PREVI
7
8
5
T
7
5
2
C)
9
8
5
4
1
9
7
5
PREVI
u
LAST
5
4
1
8
2
2
jii
2
2
2
DUG
2
2
2
2
2
2
^
j.'
2
2
2
2
2
2
j^!
2
ous
2
2
ji_
^
> — i
j^'
2
-?_
T;
2
T,
4
4
2
4
4
-T
-T
-T
T;
-T§
(j
o
1
2
^.'
4
5
6
"^
7
8
"7
6
7
9
.
.
•
1
•
.
.
.
.
.
m
.
m
B
m
.
B
B
-
1
•
„
.
.
„
.
27.
o
*~,
S
"T
^i.
2
2
2
OUS
2
^
7
9
JL.'
9
6
7
7
8
HOUR
X.
3
3
"T
3
1
2
0
m
m
m
.
B
.
-
1
•
•
•
•
.
.
.
.3
1
6
2
;T
6
5 MINUTES
9
9
3
9
8
-T
2
.1.
9
5
8
6
'-1
0
5
P
5 MINUTES
4
1
7
7
8
4
0
8
9
9
7
8
"T
2
"T
8
5 MINUTES
•^
60 MINUTES OF VALID DATA
8
1
0
2
B-191
-------
Ogden Martin Systems - HC1 Monitoring
CHAN 1 CHAM 3 CHAN 4
TECO LSI Bad en a
T I ME p p mw f..; t . . . p p m d r y
03
03
03
0 3
03
03
03
0 3
03
03
0 3
03
AV
03
0 Z
03
0 3
0 3
03
03
0 3
03
( ) 3
0 3
03
03
03
0 3
03
04
05
06
07
08
09
10
1 1
12
13
14
1 5
'RAGE
15
16
17
3 0
19
2 0
21
r,'.' T'
2 3
24
25
26
27
20
29
30
AVERAGE
03
03
03
03
03
03
03
03
03
03
03
03
03
03
03
03
30
31
32
"^•^
34
35
36
37
38
39
40
41
42
43
44
45
355 . 7
380. 0
385. 4
374. 4
389 . 8
396. 1
399. 6
423. 2
445. 2
485. 4
5 12.5
568. 7
VALUED FGR
403. 6
6 .1 3 . 6
63e,. 4
6 J 2 . 8
599. 3
57::. 1
521 . 7
5T5. 7
543. 4
561 . 0
573. 1
562.3
557.9
574.7
553. 6
537. 0
VALUES FOR
570. 3
525. 3
536. 2
509. 7
504. 1
494. 1
463. 0
381 . 1
146. 0
90. 5
72. 6
63. 7
63.9
46.4
51 . 7
48.3
2.7
2.6
3.2
2 . 5
'"' ~\
2. 1
2 . 0
2 . 0
1 . 9
2 . 0
1 . 9
1 .6
THF PRFV
2. 4
1 . 4
J. . 2
1 . 3
1. 1
1 .0
0 . 9
~ 0 . '2.
0 . 2
0 . 3
0 . 9
1 . 0
0 . 4
0. 1
0 . 0
-0. 2
THE F'REV
0. 6
— 0 . 3
-0. 4
-0. 4
— 0 . 3
-0. 3
-0. 5
-0. 7
-0. 8
- 1 . 0
-1 . 4
-1 .9
~"~" .ri'1 • .t''
- 2 . 3
-2.4
-2.6
pgnidr y
29. 3
29.4
31 . 3
32.5
32. 9
3 0 . 2
30 . 2
3 2 . 2
32 . 9
28.8
26. 8
2 7 . 0
J.GU5 15 MINUTE!7,
3 0 . 5
29 . 6
2B. 9
27.2
26. 8
24. 8
l~. c ' c:
^ t. » . v_."
28. 1
29- 4
28. 5
2 8 . 3'
29. 6
35. 3
37. 6
32.8
3 1 . 0
1GLIS 15 MINUTES
29. 5
32.6
36. 3
36. 7
37. 2
35. 9
31.8
7. 2
1 . 0
0 . 2
0 . 5
-0. 6
0 . 0
-0. 9
-1 . 7
- 0 . 9
06-23-1997
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
03:45 265.1 -1.2 14.4
03s 46
42. 1
B-192
-------
Qgdon
TIME
03:47
03:48
03
03
03
03
0 3
03
03
03
03
03
03
04
49
50
51
52
53
54
55
56
57
58
59
00
Mart i n
CHAN
TECO
_gLE.)mwej
37.
38.
41 .
44.
18.
26.
43.
-T-T
O ~T
34.
25.
21 .
26.
~*i~s'
B}
1
t
8
8
6
8
B
cr
_J
4
4
9
4
6
9
7
5
Systems -- HC1
CHAN 3
-2.9
-3. 0
~T 4
— ._' . 1
-3.4
-3.7
-3. 9
-4.0
-3. 4
-4. 0
-4. 3
-3. 4
3.6
0.
— 1
4
4
Moni tori ng
CHAN 4
Bodena
06-23-1987
idr: y_
-1.
-1.
-1.
-0.
u.
-0.
c.i.
— 0.
*
-1.
-1.
-1.
- 0.
— (I).
AVERAGE VALUES FOR THE PREVIOUS
04:00 32.8 -2.6
MINUTES
AVERAGE VALUES FOR THE LAST
04: 00
317. 9
HOUR: 60 MINUTES OE VALID DATA
18.3
04:
04:
04:
04:
04:
04:
0 4 :
04:
04:
0 4 :
04:
04:
04:
04:
04:
01
02
03
04
05
06
07
08
09
10
11 1
12. 1
13 1
14 1
15 1
29.21
25.2,
\^--l)
'22. 01
1 8 . 0_
22. 5
285. 9
780. 2
953. 5
D27. 4
I) 66. B
J95. 2
140. 8
157. 5
—
-
-
...
-
-
8
1 3
16
18
19
20
21
22
1 .
T1
~\
T
•_' •
•J1' .
8.
TI
jL.. •
2 •
4.
8.
B.
6.
~T
2 -?
1 6
1 42
5 (47
7 47
5 /47
2 47
1 \4E
9 147
5 zR
1 3
1 -C
5 -C
9 -C.
4 -C
. T,
. 8
-vJIL.
TT)
• 9 \
. 4 ft
• 5y
.9
^
.5
. 9
. 3
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
04:15 511.8 93.3 25.6
04: 16
04: 17
04: 18
04: 19
04:20
04:21
04:22
04:23
04:24
04:25
04:26
04:27
04s 28
04:29
1158
1 166
1175
1188
1189
1193
1193
1204
1213
1209
1211
1211
1207-7
1212.9
229.2
188.2
1 16.7
83.5
60. 5
45.6
34.2
25.7
20.5
15.7
12.B
10.5
5.7
6.6
-1.
-0.
-0.
-0.
29.
48.
59.
65.
70.
74.
76.
79.
0
6
6
7
1
D
1
4
i
80. 3
B-193
-------
Ogden Martin Systems - HC1 Monitoring <
CHAN 1 CHAN 3 CHAN 4
I ECO L..GT Bod ens
TlhEi. . _ppmw|"'1 ppmdr y jppmdry
04:30 122O.2 20.6 82.6
AVERAGE VALUES FOR THF. PREVIOUS 15 MINUTES
04:30 1197.2 58.4 44.4
19S7
04:31 i:
04:32 i:
04:33 I!
04:34 i;
226.6 77.2
I'j.r.e 89.
L'26. 6 8
'"28 .8 1 (J
Q
4.
04:35 1222.6 82.
04:36 1,
04:37 i:
04:30 i:
04:39 JJ
O4 : 4 0 3 :
04:41 1"
04:42 3;
04:4.? j :
04:44 j ;
04 : 4!-i \ j "
226.2 84.
T'27 . .1 8
J2k. 2 7
''38 . c/ 7
PT?7Y\ 7
•30. ;i \ 5
''45. t, \ 5
•'33. i 4
"•24 . 6 / 4
~'45. 4 :
04 :
04:
04:
04 :
04:
04:
0 4 :
04:
04:
04:
04:
1 V ( \ I 1 C
£\ ' j
46
4 /
4!J
4V
50
51
52
5 '•.'
54
i-c r..-
O- J
56
57
58
' VAI Dl
123u.
11 .'-",.
3uO;.'.
2 0 3 .
3 80.
137.
3 24.
94 .
301.
90.
93 .
86.
78.
84.
c, r (
r'
t.
6
4
~\
n
J:1!
7
(j
4-
7
8
5
9
11 •, 1IIC.
7
-
._:•
j
1
1
3
2
8
1 .
7 _
1 .
L> „
4.
6.
3
8.
5 .
o
CJ
n\i v IT
4
4
j:;'
j-'l!
fa
LI:
i
1
6
97. 3
184.
15
8.
6
4
If; 1 5
9 i . 5
98. 5
98. 7
99. 4
99. 8
1 00 . 3
1 00 . 5
100. 7
Nj_Oio
1~03.1\
3 02. 5
102. 7
10Z.6 1
N~»x^^^-— »
63. 1
I-ITNUTT
B-194
-------
Appendix C.
Daily Calibration Sheets
-------
HCL CALIBRATION DRIFT
DAILY WORKSHEET
SOURCE AND LOCATION
DATE
TIME
AM
oc^
PFRSQN cnNDUrTINfi TFST
OPERATING
RANGE
CALIBRATION
GAS VALUE
MONITOR
RESPONSE
TO CAL GAS
DIFFERENCE
(RESPONSE-
CAL GAS VALUE)
PERCENT SPAN
(PASS/FAIL)
MONITOR
RESPONSE
TO INTERNAL
STANDARD
r* /"i^^^^c^fry-o
curii \\-\i \ j
•Z.G:R.O
BODENSEEWERK
/oo
&ST
<£4.S~
- 0,^
— o.^9^
72a*>s.
GAS CELL VALUE
(«^ ppm)
4^^-
- 0. S"
COMPUR
LIQUID STANDARD
(Values In mV)
sinpp •
IIO-
iii -
119-
LEAR SIEGLER
z4o
A//A
tforfLc^P
A//A
A/ 4
NA
TECO
JZZ-5~C>
fto
^80
~/0
- o. I0*,
7*s4
NA
2
Sf
(OTHER)
're'end Post Test Calibration Check Worksheet
41I2DR15
-------
HCL CALIBRATION DRIFT
DAILY WORKSHEET
SOURCE AND LOCATION _
6 /4-/T7
DATE
TIME
PERSON CONDUCTING TEST
OPERATING
RANGE
CALIBRATION
GAS VALUE
MONITOR
RESPONSE
TO CAL GAS
DIFFERENCE
(RESPONSE-
CAL GAS VALUE)
PERCENT SPAN
(PASS/FAIL)
MONITOR
RESPONSE
TO INTERNAL
STANDARD
COMMENTS
BODENSEEWERK
/&&
£$-
<£?.f
4<^
^, <^%
/^5
GAS CELL VALUE
( <^ppm)
^#J
Zero -'A '^w
ZV/^= 0_ £.%**
COMPUR
LIQUID STANDARD
(Values In mV)
SinpE -
un«
in -
ii?-
LEAR SIEGLER
2-4- O
C^
Wf
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-^.^-^
/^s^-
NA
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^^
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52-8
3?
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NA
£?e^j> "3-?^**^
(OTHER)
-4112DR15
Pre andVPosb Test Calibration Check Worksheet
-------
HCL CALIBRATION DRIFT
DAILY WORKSHEET
SOURCE AND LOCATION
DATE _
TIME &-00
i
PERSON CONDUCTING TEST
OPERATING
RANGE
CALIBRATION
GAS VALUE
MONITOR
RESPONSE
TO CAL GAS
DIFFERENCE
(RESPONSE-
CAL GAS VALUE)
PERCENT SPAN
(PASS/FAIL)
MONITOR
RESPONSE
TO INTERNAL
STANDARD
J COMMENTS
BODENSEEWERK
/OO
A//1
^A
A//>
A//)
GAS CELL VALUE
( 44- ppm)
4^,3
zeto = -o.<}
COMPUR
LIQUID STANDARD
(Values In mV)
SIDPF •
110-
m -
ii? -
LEAR SIEGLER
^4o
&£~
&2.
-2./
c^. 9"%
/^55
NA
££&0 • O. O
TECO
zzro
4-30
4f7
^7
0.3'?+
?4 ~4->
-------
HCL CALIBRATION DRIFT
DAILY WORKSHEET
SOURCE AND LOCATION
DATE ^
TIME
PERSON CONDUCTING TEST.
OPERATING
RANGE
CALIBRATION
GAS VALUE
MONITOR
RESPONSE
TOCAL GAS
DIFFERENCE
(RESPONSE-
CAL GAS VALUE)
PERCENT SPAN
(PASS/FAIL)
MONITOR
RESPONSE
TO INTERNAL
STANDARD
COMMENTS
BODENSEEWERK
/£>&
£T~
7/.r
£. ?
&.W*
/>/*<<>
GAS CELL VALUE
( 4<£ ppm)
^ir
^^KO =- -I.«f-
COMPUR
LIQUID STANDARD
(Values In mV)
SLOPE -
IJO-
in -
119-
LEAR SIEGLER
57-46
6>S~
58.2-
-&.*
3.%°?*
PASS
NA
ZxF
-------
HCL CALIBRAliuN DRIFT
DAILY WORKSHEET
SOURCE AND LOCATION
HATF &&/8'7
TIME
7:36
PERSON CONDUCTING TEST
OPERATING
RANGE
CALIBRATION
GAS VALUE
MONITOR
RESPONSE
TO CAL GAS
DIFFERENCE
(RESPONSE-
CAL GAS VALUE)
PERCENT SPAN
(PASS/FAIL)
MONITOR
RESPONSE
TO INTERNAL
STANDARD
COMMENTS
BODENSEEWERK
/oo
S/A
/v*
fi/fi
fi>A
GAS CELL VALUE
( ppm)
V44r
7j£K&^ -0.4-
COMPUR
LIQUID STANDARD
(Values In mV)
sinpp .
no-
iji -
117-
LEAR SIEGLER
2- ^0
fJA
X^
/t/^
A/A
NA
2£ /^> » 0. 2-//>*~
TECO
22-sTb
4?o
y-io.b
O.6?
0.O°7c>
^^
NA
Z£te>-= l,5ff>*
(OTHER)
4112DR15
and Post Test Calibration Check Worksheet
-------
HCL CALIBRATION DRIFT
DAILY WORKSHEET
SOURCE AND LOCATION
DATE _
;*^ i
TIME /& : Ot>
PERSON CONDUCTING TEST
vag.
. IA.
34/0
OPERATING
RANGE
CALIBRATION
GAS VALUE
MONITOR
RESPONSE
TO CAL GAS
DIFFERENCE
(RESPONSE-
CALGAS VALUE)
PERCENT SPAN
(PASS/FAIL)
MONITOR
RESPONSE
TO INTERNAL
STANDARD
COMMENTS
BODENSEEWERK
/OO
6>g~
70.3
+S.2>
5~.37o
m$
GAS CELL VALUE
( ¥•/ ppm)
4£7
'Zee.c>^\.'^
COMPUR
LIQUID STANDARD
(Values In mV)
^inpp -
no-
in -
119-
LEAR SIEGLER
^4D
C,^
St.]
-(,3
-Z.t}0?*
P4$$
NA
^e**> '- &. s~
TECO
z^
(OTHER)
Pre andCFost/Tcst Calibration Check Worksheet
4112DRI5
-------
HCL CALIBRATION DRIFT
DAILY WORKSHEET
SOURCE AND LOCATION
DATE
TIME
SO:Oo
PERSON CONDUCTING TEST
OPERATING
RANGE
CALIBRATION
GAS VALUE
MONITOR
RESPONSE
TO CAL GAS
DIFFERENCE
(RESPONSE-
CAL GAS VALUE)
PERCENT SPAN
(PASS/FAIL)
MONITOR
RESPONSE
TO INTERNAL
STANDARD
COMMENTS
BODENSEEWERK
/$0
/t//7
A/A
^
A/A
GAS CELL VALUE
( W- ppm)
<#£•
-ze&o^ -o,
-------
HCL CALIBRATION DRIFT
DAILY WORKSHEET
SOURCE AND LOCATION
DATE
TIME
^
PERSON CONDUCTING TEST
T
<¥-
OPERATING
RANGE
CALIBRATION
GAS VALUE
MONITOR
RESPONSE
TO CAL GAS
DIFFERENCE
(RESPONSE-
CAL GAS VALUE)
PERCENT SPAN
(PASS/FAIL)
MONITOR
RESPONSE
TO INTERNAL
STANDARD
COMMENTS
BODENSEEWERK
/£>cs
&$-
76-0
•h n
H<7i.
PA<=&
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(
COMPUR
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(Values In mV)
SLOPE •
ijo -
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119.
LEAR SIEGLER
2-4-0
£^
^
- n
4-^*7*
/^vss
NA
^f^^^/.7
TECO
^^^0
#9o
53&<
4^.^
Z.l^
PAS5
NA
2e^o-vS~.r
(OTHER)
Pre and Post Test Calibration Check Worksheet
4112DRI5
-------
HCL CALIBRATION DRIFT
DAILY WORKSHEET
SOURCE AND LOCATION
DATE
)cs (Oreo Ovy
_
TIME
Q •' /-S"
o
_j
PERSON CONDUCTING TEST
i"7 •£
OPERATING
RANGE
CALIBRATION
GAS VALUE
MONITOR
RESPONSE
TO CAL GAS
DIFFERENCE
(RESPONSE-
CAL GAS VALUE)
PERCENT SPAN
(PASS/FAIL)
MONITOR
RESPONSE
TO INTERNAL
STANDARD
COMMENTS
BOOENSEEWERK
| OO
MA
KJA
^
KW
GAS CELL VALUE
( W ppm)
«.-*
COMPUR
LIQUID STANDARD
(Values In mV)
110-
iji -
117-
LEAR SIEGLER
2^4-0
^
^
^
AJA
NA
TECO
22-SO
4^0
4^
•+-3
NA
-~
(OTHER)
/f»r&)and Post Test Calibration Check Worksheet
4112DR15
-------
HCL CALIBRATION DRIFT
DAILY WORKSHEET
SOURCE AND LOCATION
DATE_J
TIME
/3- 3 s
PERSON CONDUCTING TEST
OPERATING
RANGE
CALIBRATION
GAS VALUE
MONITOR
RESPONSE
TO CAL GAS
DIFFERENCE
(RESPONSE-
CAL GAS VALUE)
PERCENT SPAN
(PASS/FAIL)
MONITOR
RESPONSE
TO INTERNAL
STANDARD
COMMENTS
BODENSEEWERK
/60
6>$~
-74-. o
•H?
?"%
p/&<
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(W ppm)
W.I
ze#&-- ~/-t
COMPUR
LIQUID STANDARD
(Values In mV)
SLOPE -
110-
in -
119-
LEAR SIEGLER
24-0
£$-
/0-7
+
4-10
^0%
+/>
o,s%
ffez
NA
z^tt - /9. z
(OTHER)
41 12DK15
ir>d T>«->Bf TOM!- Hal 1 lir-Mt: < on Clieclc Wo rk.'il I o e t
-------
SOURCE AND LOCATION
DATE —
£L6
HCL CALIBRATION DRIFT
DAILY WORKSHEET
TIMF &-'0&
~J
PERSON CONDUCTING
OPERATING
RANGE
CALIBRATION
GAS VALUE
MONITOR
RESPONSE
TO CAL GAS
DIFFERENCE
(RESPONSE-
CAL GAS VALUE)
PERCENT SPAN
(PASS/FAIL)
MONITOR
RESPONSE
TO INTERNAL
STANDARD
COMMENTS
BODENSEEWERK
fOO
A/A
A/A
A/A
/VA
GAS CELL VALUE
(VV- ppm)
*sTS~
j.e*fjo - o. o
COMPUR
LIQUID STANDARD
(Values In mV)
SITE -
Lin-
U1 -
ii?-
LEAR SIEGLER
2<&)
q^
/03-1
%. ) pyV*.
3A*?6
PASS
NA
2&£& -O.7
TECO
Z2-5Z5
Wv
^37>&
/, t»/>^V»v
^.^%
WIS5
NA
Z^^^-3/*^
(OTHER)
41I2DR15
Pre\and Post Test Calibration Check Worksheet
-------
HCL CALIBRATION DRIFT
DAILY WORKSHEET
SOURCE AND LOCATION
DATF
^*s
TIME
PERSON CONDUCTING TEST.
OPERATING
RANGE
CALIBRATION
GAS VALUE
MONITOR
RESPONSE
TO CAL GAS
DIFFERENCE
(RESPONSE-
CAL GAS VALUE)
PERCENT SPAN
(PASS/FAIL)
MONITOR
RESPONSE
TO INTERNAL
STANDARD
COMMENTS
BODENSEEWERK
/oo
GAS CELL VALUE
( ppm)
26/^0 --I 0
COMPUR
LIQUID STANDARD
(Values In mV)
nn.
in -
119-
LEAR SIEGLER
^Z^-O
0 r
5~J/' "7
-35.3
T«S
NA
<*••-"••
TECO
^2^5D
^0
-------
HCL CALIBRATION DRIFT
DAILY WORKSHEET
SOURCE AND LOCATION
HATP 6////Z7
TIME
//•oo
PERSON CONDUCTING TEST
•(= 7
OPERATING
RANGE
CALIBRATION
GAS VALUE
MONITOR
RESPONSE
TO CAL GAS
DIFFERENCE
(RESPONSE-
CAL GAS VALUE)
PERCENT SPAN
(PASS/FAIL)
MONITOR
RESPONSE
TO INTERNAL
STANDARD
COMMENTS
BODENSEEWERK
/OO
GAS CELL VALUE
( ^^ ppm)
VI. I
-ze^o^- -0,4-
COMPUR
LIQUID STANDARD
(Values In mV)
SIDRF •
iin-
ni >
II9-
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;2-4O
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ftiss
NA
Z£fLO - -O.I
(OTHER)
4112DR15
nd Post Test Calibration Check Worksheet
-------
MCI CAM BRA! I ON DRIFT
DAILY WORKSHEET
SOURCE AND LOCATION
DATE.
n*
TINE
/7--^>0
GAS CELL VALUE
C/-y- ppm)
V7.&
ZJ££0 - /.S~pp*.
COMPUR
LIQUID STANDARD
(Values In mV)
SLOPE -
l|0.
in .
M?-
LEAR SIEGLER
2-4O
3^
%s
-7
-^7 * <
2 . / /(j
(7") J r— •-
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NA
"Z-Pf-O - 6,. (b^»w >v^
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2~l~^0
4cto
S'^O t~-
^o.-^
2.. -2 *70
P*55
NA
ZQfo - -/. %^
(OTHER)
Pre and/
est Calibration Check Worksheet
4112DR15
-------
HCL CALIBRATION DRIFT
DAILY WORKSHEET
SOURCE AND LOCATION
DATE
~/~?
yv:
O
TIME
PERSON CONDUCTING TEST
OPERATING
RANGE
CALIBRATION
GAS VALUE
MONITOR
RESPONSE
TO CAL GAS
DIFFERENCE
(RESPONSE-
CAL GAS VALUE)
PERCENT SPAN
(PASS/FAIL)
MONITOR
RESPONSE
TO INTERNAL
STANDARD
COMMENTS
BOOENSEEWERK
/00
M*
GAS CELL VALUE
( '/^ ppm)
4^^
Z.E40'- '/Or-
COMPUR
LIQUID STANDARD
(Values In mV)
SLOPE -
nn.
in .
119-
LEAR SIEGLER
:??-0
?S~C/
2(*o 6
/ (*
O- 3*7*
r^5
NA
;' 'f~ £ c • •- 1. 5 u> p »*
TECO
2 2_ $-^
4^0
W ^
-+3/.^
/. o %
/"A SI
NA
/ PX.O - 2- V/7^
(OTHER)
4112DR15
Pre and Post Test Calibration Check Worksheet
-------
HCL CALIBRATION DRIFT
DAILY WORKSHEET
SOURCE AND LOCATION
. .
DATE &S'2-/&'7
T|ME
^ 3O
PERSON CONDUCTING TEST
OPERATING
RANGE
CALIBRATION
GAS VALUE
MONITOR
RESPONSE
TO CAL GAS
DIFFERENCE
(RESPONSE-
CAL GAS VALUE)
PERCENT SPAN
(PASS/FAIL)
MONITOR
RESPONSE
TO INTERNAL
STANDARD
COMMENTS
BODENSEEWERK
/oo
6>*r
^.^
0.9
0.9*7.
f/155et)
GAS CELL VALUE
( W ppm)
43.7
ze^o^-2.s~
COMPUR
LIQUID STANDARD
(Values In mV)
si DPE •
IIO-
ni .
II?-
LEAR SIEGLER
JT^O
2^7
-------
HCL CALIBRATION DRIFT
DAILY WORKSHEET
SOURCE AND LOCATION
DATE
r-/?/
TIME
PERSON CONDUCTING TEST
^>a
/o -
OPERATING
RANGE
CALIBRATION
GAS VALUE
MONITOR
RESPONSE
TO CAL GAS
DIFFERENCE
(RESPONSE-
CAL GAS VALUE)
PERCENT SPAN
(PASS/FAIL)
MONITOR
RESPONSE
TO INTERNAL
STANDARD
COMMENTS
BODENSEEWERK
/£>£>
GAS CELL VALUE
( ^PPm)
4^,1
Z'&Zn - -o.+
COMPUR
LIQUID STANDARD
(Values In mV)
si npp -
no-
ii| •
II9.
LEAR SIEGLER
4-/0
2-$-*!
z-^i
c>
o
NA
^B^o^ O. I
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±fc3Oc)
f*3 .-3. ^V J\
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/2^-X
J2-/0
~ yz
o.t-^
NA
Z-f^G - 6>,^:0j>l\
j— t MLP ^> , 7
(OTHER)
4H2DR15
Pre and Post Test Calibration Check Worksheet
-------
HCL CAM BR All ON DRIFT
DAILY WORKSHEET
SOURCE AND LOCATION
C ^J
/f
TIME
PERSON CONDUCTING TEST.
10 -
OPERATING
RANGE
CALIBRATION
GAS VALUE
MONITOR
RESPONSE
TO CAL GAS
DIFFERENCE
(RESPONSE-
CAL GAS VALUE)
PERCENT SPAN
(PASS/FAIL)
MONITOR
RESPONSE
TO INTERNAL
STANDARD
COMMENTS
BOOENSEEWERK
\O<2>
£s"
7/.v
^>
&>, <*%
7^5-
GAS CELL VALUE
(^f ppm)
^sLs?
^ r. /
?-£££> =. -O.l
COMPUR
LIQUID STANDARD
(Values In mV)
SLOPE -
110-
iii -
119-
LEAR SIEGLER
-4-//O
r i ^
^^f
^^fo.-7
^•7
^8"%
^^5
NA
26^^= -73
TECO
"3 /-\ .f^ x^
/^ z^-
/sz_5~0
^^
0.1%
fr&
NA
2.€^o ~
-------
SOURCE AND LOCATION
HATF &/*fe 7
C-X<
— —
HCL CALIBRATION DRIFT
DAILY WORKSHEET
TIMF
v '
PERSON CONDUCTING TEST ~P.
s IA <£JL
OPERATING
RANGE
CALIBRATION
GAS VALUE
MONITOR
RESPONSE
TO CAL GAS
DIFFERENCE
(RESPONSE-
CAL GAS VALUE)
PERCENT SPAN
(PASS/FAIL)
MONITOR
RESPONSE
TO INTERNAL
STANDARD
COMMENTS
BOOENSEEWERK
-2-5-c>
^^
=&&
— *-
fits*
GAS CELL VALUE
( ^T ppm)
^7.^
2€&>- o.fy^
COMPUR
LIQUID STANDARD
(Values In mV)
si npp -
no.
in -
119-
LEAR SIEGLER
Wo
Z5f
T-^
-I.Off-
O. 2-%
S^l
NA
-z&to-o-i/r'*'
TECO
3c>oo
/Z2-Z-
/201
~fyf>^
o.^*
/fas
NA
-ze^' 3.^-/^
(OTHER)
Pre and Post Test Calibration Check Worksheet
4112DR15
-------
HCL CALIBRATION DRIFT
DAILY WORKSHEET
SOURCE AND LOCATION
DATE l
TIMF
PERSON CONDUCTING TEST
IIA/B -
OPERATING
RANGE
CALIBRATION
GAS VALUE
MONITOR
RESPONSE
TO CAL GAS
DIFFERENCE
(RESPONSE-
CAL GAS VALUE)
PERCENT SPAN
(PASS/FAIL)
MONITOR
RESPONSE
TO INTERNAL
STANDARD
COMMENTS
BODENSEEWERK
>^
4^
/&5
g
J.tt
fa$5
GAS CELL VALUE
(tty ppm)
V7.f
-Z££0 - o.^f/^
COMPUR
LIQUID STANDARD
(Values In mV)
sinpp -
nn-
iit -
ii? -
LEAR SIEGLER
^/£
2^?
3o^-
+ (£> ^
/5~.1°7t,
/*4SS
NA
2J£to^ ~O.^
TECO
^&OO
i-^-^z.
/3.&-1
-r<^
/. 5-*%.
/V•* &O.&
(OTHER)
Pre and Post Test Calibration Check Worksheet
4112DR15
-------
HCL CALIBRATION DRIFT
DAILY WORKSHEET
SOURCE AND LOCATION
DATE
1
TIME
PERSON CONDUCTING TEST
P.Ju
OPERATING
RANGE
CALIBRATION
GAS VALUE
MONITOR
RESPONSE
TO CAL GAS
DIFFERENCE
(RESPONSE-
CAL GAS VALUE)
PERCENT SPAN
(PASS/FAIL)
MONITOR
RESPONSE
TO INTERNAL
STANDARD
COMMENTS
BODENSEEWERK
2-5"C>
^
•7f
^
^- ^^L
/Ksi
GAS CELL VALUE
( 4-4- ppm)
V-7.1
ze^or -o.e^^
COMPUR
LIQUID STANDARD
(Values In mV)
SLOPF -
no-
iji -
U?-
LEAR SIEGLER
$Vo
I
^
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NA
TECO
3<3£o
/^Z^
/^ ?^)
^5^
/, 7^
/^s^
NA
ZE£o * 3&ff»~
(OTHER)
0
4112DR15
Pre and Post Test Calibration Check Worksheet
-------
HCL CALIBRATION DRIFT
DAILY WORKSHEET
SOURCE AND LOCATION
HATF
TIME
:30
PERSON CONDUCTING TEST.
OPERATING
RANGE
CALIBRATION
GAS VALUE
MONITOR
RESPONSE
TO CAL GAS
DIFFERENCE
(RESPONSE-
CAL GAS VALUE)
PERCENT SPAN
(PASS/FAIL)
MONITOR
RESPONSE
TO INTERNAL
STANDARD
COMMENTS
BODENSEEWERK
;25^
GAS CELL VALUE
( W ppm)
47.7
-^0 ^ -&.\ff*
COMPUR
LIQUID STANDARD
(Values In mV)
SLnpE •
ijn.
iji .
M?"
LEAR SIEGLER
5OO
^bf
2&0
+/
0. -7~*7
t&
NA
7JE#-0 ~0 f/»^
TECO
3 ooo
{2- 2-2-
/^Z7
f-5~
O-T*7o
rts$
NA
?££(> ^ / t>ar"-
(OTHER)
Pre and Post Test Calibration Check Worksheet
41I2DR15
-------
HCL CALIBRATION DRIFT
DAILY WORKSHEET
SOURCE AND LOCATION
DATE_
TIME
PERSON CONDUCTING TEST
/3 -
OPERATING
RANGE
CALIBRATION
GAS VALUE
MONITOR
RESPONSE
TO CAL GAS
DIFFERENCE
(RESPONSE-
CAL GAS VALUE)
PERCENT SPAN
(PASS/FAIL)
MONITOR
RESPONSE
TO INTERNAL
STANDARD
COMMENTS
BODENSEEWERK
2-5-0
GAS CELL VALUE
( i/-^ ppm)
Z^to- O*p»
COMPUR
LIQUID STANDARD
(Values In mV)
sinpp -
nn-
111 -
119-
LEAR SIEGLER
£7^0
^S7
257
&
d.o^
&$5
NA
Z&ebzOff*.
TECO
^ooo
/^^^
/^o?
NA
•Z.e/eo=- //^-^
(OTHER)
41I2DR15
Pre and Post Test Calibration Check Worksheet
-------
HCL CALIBRATION DRIFT
DAILY WORKSHEET
SOURCE AND LOCATION
DATE ^
TIME
PERSON CONDUCTING TEST
OPERATING
RANGE
CALIBRATION
GAS VALUE
MONITOR
RESPONSE
TO CAL GAS
DIFFERENCE
(RESPONSE-
CAL GAS VALUE)
PERCENT SPAN
(PASS/FAIL)
MONITOR
RESPONSE
TO INTERNAL
STANDARD
COMMENTS
BODENSEEWERK
2SZ>
?iT
/0-L 7
7.7
GAS CELL VALUE
( ¥• ppm)
¥7.7
Z£0- ~lff*
conPUR
LIQUID STANDARD
(Values In mV)
SinpE -
110-
iji -
119-
LEAR SIEGLER
3<50
\\^
)]
NA
2£to* -+ff«.
TECO
3ooo
]Z2-2^
/^37
^/5"
NA
Z.&ZD - 2-&fl»t
(OTHER)
Pre and Post Test Calibration Check Worksheet
4112DR15
-------
Appendix D.
Daily System Check Lists
-------
HC1 GEMS DAILY INSPECTION CHECK LIST
Characterization Test • Marion County Facility
Date
Initials
TECO Model 15 Analyzer/Model 200 Dilution System
M200 Control Unit
Aspirator Air Pressure _ ^ 5" _ psi
Orifice Vacuum _ ^? _ psi
Zero Air Flow Rate 3,5~ scfh
Calibration Gas Flow Rate ~ scfh
TECO 15
Sample Flow Rate _ / 0 _ 1pm
Zero Pot Setting 3 57 _
Span Pot Setting ~?Al
4150 ZGSM/4330 Dilution System
4330 Dilution Control Unit __
Aspirator Air Delivery Pressure _ j~- f: _ psi
Orifice Vacuum 4 . _ psi
Probe Temperature /^? 2- _ C
4150 ZGSM
Analyzer Sample Flow Rate _, Iph
Analyzer Inlet Pressure \ / psi
System Vacuum \ / psi
Printer Paper Supply Adequate Yes_
Absorbing Solution Tank Level
(Capacity, 20 1) ' _
Waste Tank Level (Capacity, 20 1) _
Calibration Solution Tank Level
(Capacity, 21) /
Sampling System Flow Rate
System Blow Back Air Pressure
Strip Chart Recorder Paper Supply OK
Strip Chart Recorder Pens Inking
Heater Temperatures Within Limits
Compressor Delivery Air Pressure /O & _ psi
Compressor Air Line Leaks Detected Yes No ^
Electrical Power Supply Adequate Yes ^^ No _
D-l
-------
HC1 CEMS DAILY INSPECTION CHECK LIST
Characterization Test • Marion County Facility
Date
Initials
TECO Model 15 Analyzer/Model 200 Dilution System
M200 Control Unit
_
<£ ->
Aspirator Air Pressure
Orifice Vacuum 2- O _ Psi
Zero Air Flow Rate .3 -5" _ scfh
Calibration Gas Flow Rate 3-5~ _ scfn
TECO 15
Sample Flow Rate / Q _ 1pm
Zero Pot Setting 372^ _
Span Pot Setting -73 / _
4150 ZGSM/4330 Dilution System
4330 Dilution Control Unit
Aspirator Air Delivery Pressure _ ^ t^~~ _ psi
Orifice Vacuum ^X^ psi
Probe Temperature /92~ C
4150 ZGSM \
Analyzer Sample Flow Rate \ _ / Iph
Analyzer Inlet Pressure \ / ~ psi
System Vacuum \ / psi
Printer Paper Supply Adequate Yes
Absorbing Solution Tank Level
(Capacity, 20 1)
Waste Tank Level (Capacity, 20 1) _
Calibration Solution Tank Level 7
(Capacity. 2 1) /
Sampling System Flow Rate ~?0O -1pm-
System Blow Back Air Pressure
Strip Chart Recorder Paper Supply OK
Strip Chart Recorder Pens Inking
Heater Temperatures Within Limits
Checks
Compressor Delivery Air Pressure
Compressor Air Line Leaks Detected Yes No
Electrical Power Supply Adequate Yes u/' No
D-2
-------
HC1 GEMS DAILY INSPECTION CHECK LIST
Characterization Test - Marion County Facility
Initials
TECO Model 15 Analyzer/Model 200 Dilution System
M200 Control Unit
Aspirator Air Pressure &> S~ psi
Orifice Vacuum 2~O psi
Zero Air Flow Rate ^Tj" scfh
Calibration Gas Flow Rate 3.$~ scfh
TECO 15
Sample Flow Rate J, Q 1pm
Zero Pot Setting 35 7 _
Span Pot Setting 13i _
4150 ZGSM/^330 Dilution System
4330 Dilution Control Unit
Aspirator Air Delivery Pressure 5^ psi
Orifice Vacuum <^/ ^ psi
Probe Temperature ^2— C
4150 ZGSM
Analyzer Sample Flow Rate \ _ ^ Iph
Analyzer Inlet Pressure \ / psi
System Vacuum \ ~ ~/ psi
Printer Paper Supply Adequate Yes
Absorbing Solution Tank Level
(Capacity, 20 1) / 1
Waste Tank Level (Capacity, 20 1) / 1
Calibration Solution Tank Level
(Capacity, 2 1)
Sampling System Flow Rate £>OO
System Blow Back Air Pressure *— psi
Strip Chart Recorder Paper Supply OK Yes i/No
Strip Chart Recorder Pens Inking Yes \^ No
Heater Temperatures Within Limits Yes ^ No
Axa>cd. 3_
Compressor Delivery Air Pressure // 0 _ psi
Compressor Air Line Leaks Detected Yes No t/'
Electrical Power Supply Adequate Yes i^ No
D-3
-------
HC1 GEMS DAILY INSPECTION CHECK LIST
Characterization Test • Marion County Facility
Date <£/?/£7
Initials PT
TECO Model 15 Analyzer/Model 200 Dilution System
M200 Control Unit
Aspirator Air Pressure /££~ Psi
Orifice Vacuum y~Q psi
Zero Air Flow Rate ^4g> scfh
Calibration Gas Flow Rate ^S scfh
TECO 15
Sample Flow Rate / 1pm
Zero Pot Setting
Span Pot Setting -73 /
4150 ZGSM/4330 Dilution System
4330 Dilution Control Unit
Aspirator Air Delivery Pressure -5~fT psi
Orifice Vacuum S~.3 psi
Probe Temperature
4150 ZGSM
Analyzer Sample Flow Rate \ x' iph
Analyzer Inlet Pressure \psi
System Vacuum \~ psi
Printer Paper Supply Adequate Yes
Absorbing Solution Tank Level
(Capacity, 20 1) \ i
Waste Tank Level (Capacity, 20 1) \ 1
Calibration Solution Tank Level /V
(Capacity, 21) / \ i
Sampling System Flow Rate feoo lpm
System Blow Back Air Pressure ^^psi
Strip Chart Recorder Paper Supply OK
Strip Chart Recorder Pens Inking
Heater Temperatures Within Limits
Checks
Compressor Delivery Air Pressure //£> psi
Compressor Air Line Leaks Detected Yes ^ No ^.
Electrical Power Supply Adequate Yes~T^ No
D-4
-------
HC1 GEMS DAILY INSPECTION CHECK LIST
Characterization Test • Marion County Facility
Date
Initials pj
TECO Model 15 Analyzer/Model 200 Dilution System
M200 Control Unit
Aspirator Air Pressure && ^5~ psi
Orifice Vacuum %_Q psi
Zero Air Flow Rate <£ scfh
Calibration Gas Flow Rate _ 3.^" _ scfh
TECO 15
Sample Flow Rate _ /. O _ 1pm
Zero Pot Setting
Span Pot Setting
4150 ZGSM/4330 Dilution System
U330 Dilution Control Unit
Aspirator Air Delivery Pressure 5~5^ _ psi
Orifice Vacuum S-3 _ Rsi
Probe Temperature
4150 ZGSM \
Analyzer Sample Flow Rate \ _ X" Iph
Analyzer Inlet Pressure \ / ~ psi
System Vacuum \ / psi
Printer Paper Supply Adequate Yes_
Absorbing Solution Tank Level
(Capacity, 20 1)
Waste Tank Level (Capacity. 20 1)
Calibration Solution Tank Level
(Capacity. 2 1)
Sampling System Flow Rate £>QO
System Blow Back Air Pressure YS&
Strip Chart Recorder Paper Supply OK Yes ^^ No
Strip Chart Recorder Pens Inking Yes ^ No
Heater Temperatures Within Limits Yes ^^ No
Compressor Delivery Air Pressure / psi
Compressor Air Line Leaks Detected Yes •^r No i^-
Electrical Power Supply Adequate Yes ^ No
D-5
-------
HC1 GEMS -DAILY INSPECTION CHECK LIST
Characterization Test - Marion County Facility
Date
Initials PJ~
TECO Model 15 Analyzer/Model 200 Dilution System
M200 Control Unit
Aspirator Air Pressure
Orifice Vacuum _ .ZLO _ psi
Zero Air Flow Rate \j.ir 4150 ZGSM/4330 Dilution System
^330 Dilution Control Unit
Aspirator Air Delivery Pressure S~5"~ psi
Orifice Vacuum ^_g psi
Probe Temperature /2- C
Urn fai
4150 ZGSM
Analyzer Sample Flow Rate \ / Iph
Analyzer Inlet Pressure \ / psi
System Vacuum \ /psi
Printer Paper Supply Adequate Yes
Absorbing Solution Tank Level
(Capacity, 20 1) ^_^
Waste Tank Level (Capacity. 20 1) / \
Calibration Solution Tank Level
(Capacity, 2 1)
Sampling System Flow Rate feOO
System Blow Back Air Pressure £>)
-------
HC1 GEMS DAILY INSPECTION CHECK LIST
Characterization Test • Marion County Facility
Date
Initials
TECO Model 15 Analyzer/Model 200 Dilution System
M200 Control Unit
Aspirator Air Pressure _ ^ 5"~ _ psi
Orifice Vacuum y~o psi
Zero Air Flow Rate ^ scfh
Calibration Gas Flow Rate 3.T _ scfh
TECO 15
Sample Flow Rate _ / p _ 1pm
Zero Pot Setting j?/jT"
Span Pot Setting 73 /
4150 ZGSM/4330 Dilution System
4330 Dilution Control Unit
Aspirator Air Delivery Pressure ^-5— psi
Orifice Vacuum ^T, ^ psi
Probe Temperature /^ C
4150 ZGSM
Analyzer Sample Flow Rate \ / Iph
Analyzer Inlet Pressure \ x psi
System Vacuum \ / psi
Printer Paper Supply Adequate Yes
Absorbing Solution Tank Level
(Capacity, 20 1) / \ 1
Waste Tank Level (Capacity, 20 1) \ 1
Calibration Solution Tank Level /
(Capacity, 2 1) /
Sampling System Flow Rate £ OO Iprf*
System Blow Back Air Pressure (Sfd psi
Strip Chart Recorder Paper Supply OK Yes ^ No
Strip Chart Recorder Pens Inking Yes i^/ No
Heater Temperatures Within Limits Yes_L/ No
Compressor Delivery Air Pressure //' O psi
Compressor Air Line Leaks Detected Yes No
Electrical Power Supply Adequate Yes ^^ No
D-7
-------
HC1 CEMS DAILY INSPECTION CHECK LIST
Characterization Test - Marion County Facility
Date
^^^^
Initials
TECO Model 15 Analyzer/Model 200 Dilution System
M200 Control Unit
Aspirator Air Pressure £, £~ _ psi
Orifice Vacuum _ g-Q _ psi
Zero Air Flow Rate _ 3, 5~ _ scfh
Calibration Gas Flow Rate 3. _ 1pm
System Blow Back Air Pressure o/t^ psi
Strip Chart Recorder Paper Supply OK
Strip Chart Recorder Pens Inking
Heater Temperatures Within Limits
Checks
Compressor Delivery Air Pressure _ //& psi
Compressor Air Line Leaks Detected
Electrical Power Supply Adequate
D-8
-------
HC1 CEMS DAILY INSPECTION CHECK LIST
Characterization Test • Marion County Facility
Date
Initials
TECO Model 15 Analyzer/Model 200 Dilution System
M200 Control Unit
Aspirator Air Pressure £> (^~ psi
Orifice Vacuum ^£.j> Psi
Zero Air Flow Rate ^ p scfh
Calibration Gas Flow Rate ^.S^ scfh
TECO 15
Sample Flow Rate /, O 1pm
Zero Pot Setting ;
Span Pot Setting "73 /
4150 ZGSM/4330 Dilution System
4330 Dilution Control Unit
Aspirator Air Delivery Pressure $Q psi
Orifice Vacuum .^7 £> psi
Probe Temperature /1 3 C
4150 ZGSM
Analyzer Sample Flow Rate \ / Iph
Analyzer Inlet Pressure \ /psi
System Vacuum \ / psi
Printer Paper Supply Adequate (Yes_
Absorbing Solution Tank Level
(Capacity. 20 1) / \ 1
Waste Tank Level (Capacity, 20 1) / \ 1
Calibration Solution Tank Level ~TT
(Capacity, 2 1) / \ 1
Sampling System Flow Rate (c>&C> Ipm
System Blow Back Air Pressure C>£L ps^
Strip Chart Recorder Paper Supply OK Yes ^NcT
Strip Chart Recorder Pens Inking Yes ^ No_
Heater Temperatures Within Limits Yes ex" No_
.a-iry
Compressor Delivery Air Pressure /lO psi
Compressor Air Line Leaks Detected
Electrical Power Supply Adequate
D-9
-------
HC1 GEMS DAILY INSPECTION CHECK LIST
Characterization Test - Marion County Facility
Date
Initials
TECO Model 15 Analyzer/Model 200 Dilution System
M200 Control Unit __
Aspirator Air Pressure fo ~> _ Psi
Orifice Vacuum 3-O , , T~ Psi
Zero Air Flow Rate ^<& _ scfh
Calibration Gas Flow Rate ,^5~ scfh
TECO 15
Sample Flow Rate /, O _ 1pm
Zero Pot Setting 2~7 2-
Span Pot Setting 13\ _
4150 ZGSM/4330 Dilution System
4330 Dilution Control Unit
Aspirator Air Delivery Pressure _ O / _ psi
Orifice Vacuum ~^ si
Probe Temperature /^^~ C
— —
4150 ZGSM
Analyzer Sample Flow Rate \ _ / Iph
Analyzer Inlet Pressure \ / psi
System Vacuum \ / psi
Printer Paper Supply Adequate Yes
Absorbing Solution Tank Level
(Capacity, 20 1) _ / \ 1
Waste Tank Level (Capacity, 20 1) / \ 1
Calibration Solution Tank Level / V
(Capacity. 2 1) / _ \ 1
7 ^
Sampling System Flow Rate
System Blow Back Air Pressure
Strip Chart Recorder Paper Supply OK
Strip Chart Recorder Pens Inking
Heater Temperatures Within Limits Yes ^X
Checks
Compressor Delivery Air Pressure //$ psi
Compressor Air Line Leaks Detected Yes No L^"
Electrical Power Supply Adequate Yes /^- No
D-10
-------
HC1 CEMS DAILY INSPECTION CHECK LIST
Characterization Test - Marion County Facility
Date <£/£//?•?
Initials PJ~
TECO Model 15 Analyzer/Model 200 Dilution System
M200 Control Unit
Aspirator Air Pressure ^ $~~ _ psi
Orifice Vacuum S.c> . S~ psi
Zero Air Flow Rate
-------
HC1 GEMS DAILY INSPECTION CHECK LIST
Characterization Test - Marion County Facility
Date
Initials
TECO Model 15 Analyzer/Model 200 Dilution System
M200 Control Unit
Aspirator Air Pressure
Orifice Vacuum _ 2d _ psi
Zero Air Flow Rate _ Q O Ipaf^L
System Blow Back Air Pressure ^^ psi
Strip Chart Recorder Paper Supply OK Yes ^X No
Strip Chart Recorder Pens Inking Yes ^X No
Heater Temperatures Within Limits Yes^T/x No
Compressor Delivery Air Pressure / / & psi
Compressor Air Line Leaks Detected
Electrical Power Supply Adequate
D-12
-------
Appendix E.
Quality Assurance Data
-------
r*-
6/2-/8-
T"
-a
,^_3_0
/
2. T/4- _5VGL 7i
J 5-«-S~
£~4-?.& 67.3
-E-l
-------
ft'
E-2
-------
HYDROGEN CHLORIDE ANALYTICAL RESULTS
EPA REFERENCE METHOD 325.3
MERCURIC NITRATE TITRATION
Company Name
Sampling Location 0-enti*-}- fa-.
Analyst
EEI Ref #
j ±
Received in Lab
Date Analyzed
ll.H
16.6
Run
#
Blank
>H*<
cr
^
J-
0-1
o-z
0-3
i b
z-b
3L
io±
nk
/^
^.-.^
t-^L
Sample
Volume
mL
(V)
5"/^i!
/£r>*^f
((Owl
l$~Q /w 1
1
1
100
(CrV -
Aliquot
Volume
mL
(A)
10 ^i
10 /^(
-2^0 ^\
[0 K\
W i^i
Aliquot
Factor
(F)
10 ,
10 /
5- ^
Titrant
Volume
mL
(TL)
\.03-
f.oS-
^fi6(~~)
^-1
sff' ^
66 /
,/Y
-/^
. /i
.??
.vo
/.z I
L0 1
Titrant
Volume
mL
(T2)
/.o&
/. 05—
.of
.of
1 .o&
•//
•ti
. I 2.
.3?
-37
/.Z)
/.<5 \_
Titrant
Volume
mL
(T )
V1avg;
Otvrft
.oyr-
,055-
nr
J#
3?r
.515-
/.^>
I. Cn}
Mass
HC1
mg
(MHCl)
* bavg
7W-y<-«=/'
•
2. . ^^
/.?/
/. VT^
/X
C$1
^.6-2-
f.Tf
/•8,3^.
/f.ja
^r iz
fi.**/
I. o
t. off-
where: N = Normality of Hg(NO,)2 =
avg
;TX - T2) / 2 : F = V / A
N * F
* (T - T, )
avg bavg
For Run
"HCI =
)
ENTROPY
E-3
'//*
? i.
^~&-
17:0
IV-1
^^h
l?0
U1
/^^
3?
?«
te?4w<
f-Httt]
^ (S&
nig
-------
ALTERNATE flETHOD
SAMPLING
PL ANT/LOCATION
A LL,
SAMPLING LOCATION *3d.< hfffV^
RUN * / ANALYST _£
JOB*
STACK TEMPERATURE
. °F METER BOX «
AMBOTT TEMPERATURE.
BAROMETRIC PRESSURE,
INITIAL TRAIN VEIGHT, V,
.°F METER BOX FACTOR, *_
in.Hg
.g FWAL TRAIN VEIGHT,Vf
CLOCK TIME
/a -5^
/3.'^4
fOTAl VOLUME =
vm
DRY GAS METER
READING (ft3 )
954. £5^
JOlb. 3-0*2
//7\
V^ls
7{. ^74 X)
ROTAMETER
SETTING (cfh)
S^v—
r
/
/
/
/
^
AVG.TEMP. =
* m f x*tti
DRY GAS METER
TEMPERATURE (*F)
£3°
t?z° (
^
^(**
«.
^ C°F)
AVERAGE METER TEMP., T = (460
STD GAS METER VOLUME, V
Vm(std) = CVm) (¥) (17.64 °R/in. Hg)
TOTALH20 CATCH, (Vf - V. ) = ULL
VOLUME OF H^O VAPOR CONDENSED, V,^^^^ =
= (4.715 x 10~2 ft3 /g) (V,
PROPORTION OF H 20 VAPOR (BY VOLUME) IN GAS STREAM, B
B
vs
95H2
ENTROPY
E-4
-------
PL ANT /IOC AT ION.
JOB«
SAMPLING LOCATION
RUN » ^-
ANALYST
STACK TEMPERATURE
AMBENT TEMPERATURE
LT
BAROMETRIC PRESSURE P
•*
INITIAL TRAIN VEIGHT, Vi 4IS-.
-°F METER BOX FACTOR, ¥.
in.Hg
.g FINAL TRAIN WEIGHT, V.
CLOCK THE
13 W
\
V
13. S3
rOTAL VOLUME =
vm
DRY GAS METER
RE AD ING (^)
/OT.(O. 432.
/096. 43 Z
^7^).00o(^)
ROTAMETER
SETTING (cfh)
^.^V-
rf
1
/
AVG.TEMP. =
^m fava")
DRY GAS METER
TEMPERATURE (°F)
^7*
&r
6?°
&^~
-70°
<.
^9 W
AVERAGE METER TEMP., T = (460 + ^m(«vg) ) =
STD GAS METER VOLUME, V <^ $• <3
*R
(17.64 °R/in.Hg)
TOTALH20 CATCH, (Vf - V. ) = %-2
VOLUME OF H20 VAPOR CONDENSED, Vwd;sid) = ~
V«Cstd> « ^4-715 x ID'2 ft3/g) (Vf - Vt )
PROPORTDN OF H 20 VAPOR (BY VOLUME) IN GAS STREAM, B ws = O-' -*
96H20
f,
B
X 100
5W2 O/ 0 -
ENTROPY
E-5
-------
ALTERNATE HETHOD A 0*2^) SAHPLIIIS
PL ANT/LOCATION
SAMPLING LOCATION
RUN * ^ ANALYST
JOB*
STACK TEMPERATURE
AMBIENT TEMPERATURE.
BAROMETRIC PRESSURE,
INITIAL TRAIN WEIGHT, V<
_°F METER BOX*.
.°F METER BOX FACTOR, ¥ _i
in.Hg
.g FINAL TRAIN WEIGHT, Vf
CLOCK TIME
/^;sf
/5;^^
fOTAL VOLUME =
vm
DRY GAS METER
READING (ft3 )
/^>%. S37
//64. 574
^S-03-7 X
W*)
ROTAMETER
SETTING (cfh)
2.S*Hf^
I
1
/
AVG.TEMP. =
^m fava)
DRY GAS METER
TEMPERATURE («T)
7;°
-7^
^°
^°
-76°
<.
70 C°F)
AVERAGE METER TEMP., T = (460 + V (^rg) )
STD GAS METER VOLUME, V .... -^1.3^0 6>&.T15~
=
-------
17
-------
Meter Dox Number
£> '/ K*> 4 \r Ji
Tccliulclon
Date
Hun
3
Flow Hate
J-
(Ft 3)
bar
(In. Hg.)
In. lljj
H
sru
mf
_ta
0,7V
0,
(9.7V
70
O.blO
AVG Y
\\\\ - Initial DGM meter rea.llng
.
bur
• Uarometric Pressure
T»;r>n • Temperature of gaa in opiroinctcr
J \ I*
H20
of
at TI
(from chart)
|IR
T « UGH Temperature
_A1' •* Keuiling from manometer at PCI I Inlet
V,,„„ T Voluoia dloplaccil within opiroinctcr
b 1 K
Mil - Final DCII meter icaJlng
^Sj'R
(HKF - MR,)_
bar
I',, -I 460
1Sl'H
/,60
Note: APt( muut not exceed 2.0 in
HETER BOX CAI.I11RATTOU
Preteut Callbrotlon; EM^oBt-teot Calibration (prcvlouu Y/J"te/X Jev: O
/ 1- 0.
-------
r
D
0
2
?
m
)
0
1
0
5
i
^k
~'-//MU
-^^«
"".
(Fl3)
™j / "V 1 ^7 / ^
J ^3 ^ / • / /-^.
^fcSA^/
"3 / / N7 iJ/) ^
j^ ^ o tit/ J*
bar
(In. llg.)
M.-/7
M.*7
^'^
1 •.
Technician T<^P Date ^"/7/^7
(«?)"
t7
b7
t?
I>
1120
il<>. 11^
l^i ^? /
iy *^ /
ft 4,7
(°F)
t1
-7V
I'D
A
Uu-lUi!
0.1
ai
VSI'R
^, I0\ (}
0- (piD
o.bio
LI 11 -. i ., i i i ^ l nr*M n, ji i n r- *- a n n •" Voluuio JloplaceJ wltliln epliumeter
UK - Final UGM meter reaJlng
I'
(Hit - UK,)
_ r i _
bar
1 /.60
i
Hole: Al'j.j muat not exceed 2.0 In ll^O
^. MI'Tl'R 110X CAI.TWRATIOU
Q I'reicat Calibration; iBl'out-leat Calibration (prevlouu Y/»l"te/X dev:
/O.
-------
ALTERNATE RETHOD
SAMPLING "
PL ANT/LOCATION
SAMPLING LOG AT ION.
RUN " I ANALYST
DATE
STACK TEMPERATURE
. °F METER BOX *
0
AMBIENT TEMPERATURE
B AROMETR 1C PRESSURE, P
bar1
INITIAL TRAIN VEIGHT, V.
.°F METER BOX FACTOR, ¥-
in. Hg
.g FWAL TRAIN VEIGHT, V
CLOCK TIME
//.' J t
/
/
y;
li'.st*
FOTAL VOLUME =
vm
DRY GAS METER
READING (ft3 )
7^46. £?s
/3/^,7/7
6>9.6^H&}
ROTAMETER
SETTBTO (cfh)
3-Sj^v
^
AVG.TEMP. =
* m (avo)
DRY GAS METER
TEMPERATURE (*T)
^/°
6^^
P*
^3°
63°
<.
^2- (OF)
AVERAGE METER TEMP., T
STD GAS METER VOLUME, V
(460
, dscf
Vm(std) = (vm) (¥) (17.64 °R/in. Hg)
TOTALH20 CATCH, (Vf - V. ) = £ 7
VOLUME OF H-,0 VAPOR CONDENSED
^.
^ = (4.715 x 10"2 ft
= 0.
- V-
PROPORTION OF H20 VAPOR (BY VOLUME) W GAS STREAM, B vs
B _ = Vwcf«r»vr)
^^0 = Bw
X 100
E-10
-------
METHOD
PL ANT /LOG AT CH
JOB*
SAMPLHG LOCATION
£-> Ou
i-<
ANALYST
DATE
STACK TEMPERATURE
. °F METER BOX «
r
AMBENT TEMPERATURE
. °F METER BOX FACTOR, ¥
BAROMETRIC PRESSURE, P
^,
INITIALTRAINVEIGHT, V 4(4--
.g FINAL TRAIN WEIGHT,
aOCKTIME
/a: ^3
\
12:33
fOTAL VOLUME =
vm
DRY GAS METER
RE AD ING (ft3)
/3/fc. ^7
/3^Z. ^^3
j^
£6>.oi.t> en*)
ROTAMETER
SETTING (cfh)
5.^J2^
1
1
AVG.TEMP =
*m fava)
DRY GAS METER
TEMPERATURE (°F)
63°
^4"
W
(,*'
^
<,
C°F)
METER TEMP., T = (460 +
STD GAS METER VOLUME, V
/
m
(std) = (Vm) (¥) (17.64 °R/in.Hg)
m
TOTALH20 CATCH, (Vf - V. ) =
VOLUME OF H20 VAPOR CONDENSED, V^^ =_
V ,_^. = (4.715 x 10~2 ft3/g) (V- - V-
T 1
.ft-
PROPORTION OF H 20 VAPOR (BY VOLUME) IN GAS STREAM, B vs =
R s V
= B_ X 100
ENTROPY
E-ll
-------
ALTERNATE METHOD
SAflPLI«G
PL ANT/LOCATION.
joe«
SAMPLING LOCATION
RUN » 3
C>\L
ANALYST
DATE
STACK TEMPERATURE
METER BOX
AMBIENT TEMPERATURE.
BAROMETRIC PRESSURE, R
bar'
.°F METER BOX FACTOR,
in. Hg
. f
CLOCK
TIME
A2.-S7
V
n
FOTAL VOLUME =
DRY GAS METER
READING (ft3 )
I3ZZA^
IWI m
teW fa
ROTAMETER
SETTING (cfh)
3 S£p_
/
I
AVG.TEMP. =
DRY GAS METER
TEMPERATURE (°T)
U°
t>1"
(*T
^r
L^? I
<
f **) f*F^
%
AVERAGE METER TEMP., T = (460 + ^m(a
STD GAS METER VOLUME, V, ^^
-------
Qgd«n Martin Qyntmmn - HC1 Monitoring 06-02-1987
CHAN 1 CHAN 2 CHAN 3 CHAN 4
TECO Compur LSI Bod»nm
IIME ppmHCl ppmHCl PPfPHCl
10i33
10J54
10i35
10i36
10i37
10i58
10i39
111 00
AVERAGE
11 800
AVERAGE
llsOO
lliOl
11502
Ili03
11:04
1 1 : 05
11:06
11:07
11:03
11:09
Hi 10
11:11
11:12
111 13
11:14
111 IS
AVERAGE
111 15
11: 16
11 17
11 18
11 19
11 20
11 21
11 22
11 23
11 24
11 23
11 26
11:27 t»
\J^
11:28 A\
Wi
11:29
11:30
pr ff"" '»r ^ JS
411.7
435.5
466. 1
401.4
412.0
419.2
419.3
429-7
VALUES FOR
408.9
VALUES FOR
401.5
393.9
418.6
443.2
386. 1
401. 1
454. 1
440.9
458.9
491.6
480. 2
485. 4
458. 4
488.9
570. 4
588.8
VALUES FOR
464.0
583.4
554. 1
563.9
539 . 3
568.3
577.4
669.9
649.8
643.9
666. 6
.1687. 9
F691.4
734.4
672.4
664.3
4.7
4.9
4.6
4.7
5.0
4.8
4.9
4.7
THE PREV
4.7
THE LAST
4.7
4.8
4.8
4.9
4.5
4.8
4.8
4.7
4.9
4.9
5. 0
4.9
4.7
4.8
4.7
4.7
0. 1
0.0
-0.3
-0.4
-0.4
-0.4
-0.5
-0.6
IQUS 13
-0.3
HOURl
-0.2
-0. 6
-0.7
-0.8
-0.9
-0.9
-0.9
-0.9
-1.0
-1.0
-1.0
-1.3
-1. 1
-1.0
— 1.3
-1.3
THE PREVIOUS 15
4.8
4.9
4.9
4.9
4.8
4.9
4.7
4.9
4.7
5.0
5.0
4.8
4.9
4.6
4.8
5. 1
-1.0
-1.3
-1.3
-1.3
-1.2
-1.2
-1.3
-1.3
-1.3
-1.4
-1.2
-1. 1
-1. 1
-1. 1
-1. 1
-1.3
22.8
25.5
24.2
20.7
21.8
24.2
25.0
23.4
MINUTES
25.8
60 MINUTES OF VALID DATA
20.3
21.5
26.2
29.8
25. 1
24. 1
24.5
^T™1 Q
*_*_ . o
T~t Q
j^. -i. • O
O T" Q
jL, ji» • 7
23. 3
r~~i T T
jlO • •->
21.2
21.0
O *~? "~?
21.3
MINUTES
r~\~Z c;
^-•-» • >— l
22.2
22. 0
23. 1
21.5
22.4
23.3
25. 1
22.7
20.2
23.6
30. ji
31.7
31.2
29.2
T'-i '""i
O*_ . xl
AVERAGE VALUES FOR THE PREVIOUS 15 MINUTES
11:30 631.1 4.8 -1.2 25.4
11:31
642.4
4.9
-1.3
E-13
57.9
-------
Ogden Martin Systems - HC1 Monitoring 06-02-1987
CHAN 1 CHAN 2 CHAN 3 CHAN 4
TECO Compur LSI Bodens
ppmHCl ppmHCl
111 32
Ili33
111 34
lli3S
Hi 36
11137
11:38
11:39
1 1 : 40
11:41
11:42
11:43
11:44
11:45
AVERAGE
11:45
11:46
11:47
11:48
11:49
1 1 : 50
11:51
11:52
11:53
11:54
11:55 ^
1 1 : 57
11:58
11:59
12:00
AVERAGE
12:00
AVERAGE
12:00
12i01
12802
12i 03
~T2T04
12i05
12i06
12i07
12i08
12i09
12i 10
12i 11
12s 12
12t 13
12i 14
-PLET..L*.!.!,, '~r r. »=
663. 1
649.0
649.9
602.5
555. B
521. 1
506.3
507.8
519.9
507.8
548.7
566. 1
580. 2
560. 0
VALUES FOR
572.0
582.8
570. 6
547.6
603,2
611.0
629.9
586. 4
591.3
599. 3
*>, 584 . 8
L6.09.B
592.8
564. 1
599.0
553.9
VALUES FOR
588.4
VALUES FOR
563.9
516.4
524.8
545.2
563.5
554.2
547.4
504.6
540.6
579. 1
56 1 . 3
557.3
560.7
527.5
513.5
4.6
4.8
4.7
4.8
4.6
4.7
4.8
4.8
4.9
4.6
4.7
4.9
4.8
4.9
THE PREVI
4.8
5.0
4.7
4.6
4.7
5.0
4.8
4.9
4.8
5. 0
4.9
4.7
4.5
4.8
4.7
4.7
fT J-l.. r -M, i.i
-1.2
-1.2
-1.7
-1. 1
-1.2
-1.3
-1. 1
-0.4
0.6 /
0.5^
0.6
0.6
0. 5
0.5
41.8
38. 5
36.8
33.5
^^fc • ^
34.1X? 1 ^
Zb.iir ' iLtMfP'L* I
30^2 /^"fcC fel
x^o o ?1*~ ,
33,7 ^r4u9*
-7T 4 ^n
s_'s^ • *T 1
OUS 15 MINUTES
-0.5
0. 5
0.4
0. 4
0.8
3, 1 t.
7.8
16.7
22.0
29.7
39.7
47.9
53.0
55. 4
56. 3
46.9
THE PREVIOUS 15 M
4.8
THE LAST
4.8
4.7
4.9
4.7
4.8
4.8
4.7
4.8
4.8
4.7
4.7
4.6
4.7
4.8
5.0
25.4
HOUR: 60
5.7
36.4
31.6
25.2
21.3
19.2
18.4
16.6
14.7
12.5
10.9
8.5
7.2
6.2
5.9
E-14
36.3
36.0
36.4
35.3
33, 0
30 . 9
33,8
33. 0
42.7
41.6
-6.6
I 3^3__ ^
y_ A&rO / '
I 40.0
1 42.3
40. 4
INUTES
1 34.4
I1INUTES OF VALID DATA
I 29.9
I 37.2
\ 36.6
I 39.8
/ 43.8
/ 41.4
' 38.9
40.4
48.8
54.9
55.7
57.0
60.5
60.3
55.4
&*r/
^<£>*
!# I Si
^>
H* ^
-------
Ogd«n Martin Systsmm - HC1 Monitoring 06-02-1987
CHAN 1 CHAN 2 CHAN 3 CHAN 4
TECO Compur LSI Bod»n«
12t 13
AVERAGE
12: 13
12. 16
12: 17
12. IS
12i 19
12:20
12:21
12:22
12:23
12:24
12:25
12:26
12:27
12:23
12:29
12:30
AVERAGE
12:30
1 2 1 3 1
12:32
12:33
12:34
12:35
12:36
12:37
12:33
12:39
12:40
12:41
12:42
12:43
12:44
12:45
AVERAGE
12:45
12:46
12:47
12:43
12:49
12:50
12:51
12:52
12:53
12:54
12:53
12:36
12»S7
,.«TT mr TTM_..r»r » ___ ^
555.0
VALUES FOR
543.4
571. 1
559.6
561.6
549.4
574.9
556. 1
500.0
517.5
519.3
528.0
524.3
540.4
507.3
490 . 8
499.6
VALUES FOR
533.3
502.4
499.4
559.8
555.7
563.8
552. 1
546.2
554. 5
544.7
480.0
473.9
485. 3
469.4
468. 8
468.8
VALUES FOR
515.0
465.3
492.2
507 . 1
485. 1
509. 1
476.7
424.3
413.9
418.8
437.5
416.0
409.4
K"" '"*
4.9
ppiin iw* ^piin IWA
5.4 62.0
THE PREVIOUS 15 MINUTES
4.8
4.8
4.8
4.6
4.9
5.0
4.7
4.8
4.7
4.8
4.7
4.9
4.8
4.7
4.6
4.8
THE PREV
4.8
5.0
4.9
4.8
4.8
4.7
4. 8
5.0
5.0
4. 6
4.7
4. 7
4.7
4.6
4.7
4.8
THE PREV
4.8
4.8
4.6
4.5
5.0
4.6
4.7
5.0
4.9
4.7
5.0
4.8
4.8
16.0 48.8
4.8
4.4
4.0
3.4
2.7
2.7
2.6
67.0
65. 5
66.6
61. 1
65.4
60.7
52 .2.
2.4 V— -5375
2. 1 / 57.6
2.0 I 62.2
2.0 \ 58.9
1.7 1 49-9
1.4
1.3
1.3
IQUS 15 Ml
2.6
1 . 2
1 . 2
1.2
1. 2
1 . 1
1. 1
45.0
48.7
51.8
NUTES
57.7
47.7
42. 4
46.2
48. 9
48.2
42. 4
1 . 1 38.5
1.2 39.9
1.1 38.7
1.1 30.9
1.1 26.9
1.1 26.6
1.0 27.9
1.0 29.2
1.0 27.6
IQUS 15 MINUTES
1.1 37.5
1.0 24.4
1.0 22.9
1.0 22.5
1.0 22.2
1.0 22.8
1.0 18.0
1.0 15.1
0.9 15.1
0.9 16.4
1.0 17.2
1.0 15.3
1.1 15.3
E-15
-------
Ogd»n Martin Systamo - HC1 Monitoring
06-02-1987
TIME
t2:
12:
13:
58
59
00
AVERAGE
13s
00
AVERAGE
13s
13:
13:
13:
13:
13s
13
13
13
13
13
13
13
13
13
13
00
01
02
03
04
05
06
07
08
09
10
11
12
13
14
15
AVERAGE
13:
13:
13:
13:
13:
13:
13s
13:
13:
13:
13:
13:
J3s
13:
13:
13:
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
AVERAGE
13i
13:
13:
13:
13:
13:
13:
30
31
32
33
34
35
36
CHAN
TECO
1 CHAN 2 CHAN
Compur LSI
3
ppmHCl DomHCl oomHCl
433
444
438
•
•
•
6
0
0
VALUES FOR
451
•
4
VALUES FOR
510
436
453
451
464
476
458
484
464
486
545
545
546
552
558
548
•
•
•
•
•
m
m
.
•
B
m
m
m
m
m
•
8
0
1
4
2
3
8
4
1
7
2
8
6
1
6
1
VALUES FOR
498
575
582
584
668
692
645
708
735
696
669
616
558
537
526
489
•
m
•
„
„
•
„
•
,
•
*
„
*
•
•
•
1
5
4
T;
0
9
5
9
8
0
8
4
2
4
7
4
VALUES FOR
619
500
497
464
476
515
512
•
•
•
•
•
•
•
1
1
6
1
6
8
7
4.
4.
4.
THE
4.
THE
4.
4.
4.
4.
5.
4.
4.
4.
4.
4.
4.
4.
4.
4.
4.
4.
THE
4.
4.
4.
4.
4.
4.
4.
4.
4.
4.
4.
4.
5.
4.
4.
4.
THE
4.
4.
4.
4.
4.
4.
4.
7
7
7
PREVIOUS
B
0
1
1
1
.8
.0
. 1
15
.0
LAST HOUR:
8
8
0
7
7
7
8
9
8
6
8
7
6
9
PREVIOUS
8
7
7
9
8
8
9
9
7
8
7
8
0
8
8
5
PREVIOUS
8
8
8
8
8
9
8
5
0
1
1
1
1
1
1
1
1
1
2
2
2
3
1
T;
T
s-1
3
3
3
3
3
2
2
2
2
2
0
2
2
2
2
2
2
2
2
2
.2
.9
.0
. 0
. 1
. 0
.0
. 1
. 1
. 4
. 9
. 3
.8
.9
. 1
15
.6
.4
.7
.8
. 6
. 3
T
.0
.8
.6
.5
• O
.3
.9
. 4
.3
15
.8
. 1
.2
. 1
.0
.2
.2
CHAN 4
Bod»n«
ppmHCl
17
18
16
MINUTES
IB
•
.
•
•
1
4
8
6
60 MINUTES OF VALID DATA
40
16
16
16
16
17
19
18
18
20
20
20
20
22
24
MINUTES
IB
26
25
24
27
27
27
29
29
32
31
29
27
27
27
25
MINUTES
27
26
26
23
24
25
23
•
•
m
m
m
m
m
m
m
m
•
m
f
m
•
•
m
.
.
.
•
•
.
.
m
.
•
.
•
.
•
•
•
.
•
•
•
.
7
7
8
0
0
0
T
5
1
-T
9
1
8
5
"T
9
8
4
2
2
7
2
3
9
0
9
4
6
4
3
1
9
9
6
9
1
7
8
E-16
-------
Relative Accuracy of Inlet HC1-CEMS; June 10, 1987
==========.=_=_===_==========__=_==_====_===========_=_=====_____====:
Uncorrected Corrected Corrected Midget lap. Percent
Wet HC1 Wet HC1 Dry HC1 Dry HC1 Relative
(ppii) (pp«)
-------
ALTERNATE HETHOD 4(H2dJ SAMPLING --
PL ANT/LOG AT ION.
SAMPLING LOG AT ION
RUN * /
JOB"
ANALYST
DATE
STACK TEMPERATURE
prw
AMBIENT TEMPERATURE
METER BOX FACTOR, ¥
BAROMETRIC PRESSURE, P,
bar'
INITIAL TRAIN VEIGHT, V^
Jn.Hg
_g FINAL TRAIN VEIGHT, Vf
CLOCK TIME
TOTAL VOLUME*
DRY GAS METER
READING (ft3 )
?-
ROTAMETER
SETTING
7
AVERAGE METER TEMP., T = (460 + *m(avg) ) =
STD GAS METER VOLUME, V , ...
' m(sid)
*Vm (¥) (17.64 °R/wi.Hg)
TOTALH20 CATCH, (Vf - V. ) =
VOLUME OF H20 VAPOR CONDENSED, Vvc(std) = (2.
Vvc(std) = C4'715 x ID'2 ft3/g) (Vf - V. )
PROPORTION OF H20 VAPOR (BY VOLUf^D IN GAS STREAM, B ,
B =
S5H20 = B X 100
«H2 0 / (1 -
ENTROPY
E-18
-------
PL ANT/LOCATION
SAMPLING LOCATION
RUN *—i ANALYST
/i. (A/
DATE
STACK TEMPERATURE
AMBENT TEMPERATURE
. °F METER BOX *
.°F METER BOX FACTOR, «
BAROMETRIC PRESSURE, P.
INITIAL TRAIN VEIGHT, V
_in.Hg -"
_g FB^AL TRAIN VEIGHT, Vf
aOCKTIME
7-
TOTAL VOLUME =
DRY GAS METER
RE AD ING (ft3)
ROTAMETER
SETTING (cfh)
AVG.TEMP.
m (avg)
DRY GAS METER
TEMPERATURE (*F)
AVERAGE METER TEMP., T = (460
STD GAS METER VOLUME,
TOTALH20 CATCH, (Vf - V. ) =
(17.64 °R/in. Hg)
//. 3'
VOLUME OF H20 VAPOR CONDENSED, Vvc(sid) =
V*c(!rtd) = (4.715 x 10~2 ft3/g) (Vf - V^ )
PROPORTION OF H20 VAPOR (BY VOLUME) IN GAS STREAM, B vs ±
B =
.ft2
= Bvs X 100
ENTROPY
E-19
Uf^Un^f
-------
ALTERNATE METHOD 4(H2DJ SATIPLIiSG
SAMPLING LOCATION
RUN * >3 _ ANALYST
fiSSK
DATE
STACK TEMPERATURE
°F METER BOX *
AMBIENT TEMPERATURE.
BAROMETRIC PRESSURE,
INITIAL TR A IfVVEIGHT, V1
,°F METER BOX FACTOR, *_
m.Hg
.g FINAL TRAIN VEIGHT, Vf
CLOCK TIME
: to
( 7-:
TA
TOTAL VOLUME =
vm
DRY GAS METER
RE AD ING (ft3)
ROTAMETER
SETTING (cfh)
AVERAGE METER TEMP., T
STD GAS METER VOLUME, V
(460
AVG.TEMP =
rn (aro)
ra) ) =
DRY GAS METER
TEMPERATURE (*T)
. $~~
A «R/in. Hg) (P^ / T
// / r
TOTALH20 CATCH, (Vf - V. ) = 77 4^ g
VOLUME OF H20 VAPOR CONDENSED, V^^ = Q.
. I
^
(Vf ~ V.
PROPORTOMOF H20 VAPOR (BY VOLUME) IN GAS STREAM, B
vs
'° ^ 5"~
X 100
95H2 0 / (1 -
ENTROPY
E-20
-------
HYDROGEN CHLORIDE ANALYTICAL RESULTS
EPA REFERENCE METHOD 325-3
MERCURIC NITRATE TTTRATION
Company Name
Sampling Location
Analyst
EEI Ref #
Received in Lab
Date Analyzed
Run
#
Blank
1
£/'*/ tf ?
Z
3-
Sample
Volume
mL
(V)
lf&
>&%
(
Titrant
Volume
mL
(T2)
^7-
*l
.£¥
Titrant
Volume
mL
'W
.^
Mass
HC1
mg
(MHCI)
* bavg
v*.it
2.*.?T-
5l.$~~
where: N = Normality of Hg(NO^)2
avg
"HCI =
* (T - T,
v avg bavg
V / A
) * N » F
For Run
«HC1 '
E-21
-------
MARION COUNTY PARAMETRIC STUDY-
CHARACTERIZATION TEST
MARION COUNTY SOLID WASTE-TO-ENERGY FACILITY
BROOKS, OREGON
HC1 METHOD DEVELOPMENT TEST SUMMARY
DATE: 06-16-8'
A series of tests were performed on June 17, 19S7 to evaluate two wet
chemical methods -for measuring HC1 , and to compare the results of wet chemical
methods to HC1 instrumental results.
Three 60—minute test runs were performed.
The impinqer trains were recovered separately so that the recovery
efficiency in each part of the impinqer train can be-evaluated.
The results of wet chemical and instrument measurements are presented bel
HC1 CONCENTRATION, ppmv, DRY
RUN NO.
1
•TI
-•
'-: MOISTURE
14. 4
15.2
13.3
INSTRUMENT INSTRUMENT
WET DRY
rTzTr
\ 500 1
I cr ^~-' f~> \
f728^
590
J2li
H20 NaDH
TRAIN TRAIN
700 r72Z\
534 / 56S \
nr — T rr L'~'"f
*J / O C-j----
E-22
-------
MARION COUNTY SOLID WASTb TO ENERGY
SROQK3, OREGON
HCL ANALYSIS SUMMARY
DATE: OCefrtlt?
RUN
SAMPLE TOTAL ALIQUOT TOTAL MASS OF
IDENTIFICATION SAMPLE SIZE SAMPLE HCL IN
( G ) CONCENTRAT I ON SAMPLE
( PPMV ) ( MG )
: ir/yX^C III IkiJti 11II111Z3 ~S~JL IIIIIIIII ~If- ~£
-------
MARION COUNTY SOLID WASTE TO ENERGY
BROOKS, OREGON
HCL ANALYSIS SUMMARY
°™™«™"o\n-
SAMPLE TOTAL ALIQUOT TOTAL MASS OF
IDENTIFICATION SAMPLE SIZE SAMPLE HCL IN
(G) CONCENTRATION SAMPLE
( PPMV ) ( MG )
4-2;-i/J.2 (2*2 l^ee IJLZJt*
^
0_:fil
^ ~. i-Z TAC III Z/4/i£ 111111ZI IZ^Z ZZZZZZZZZ KCC Z Z
^
E-24
-------
MARION COUNTY SOLID WfiSTt TO ENERGY tojfl/1t1
BROOKS , OREGON
HCL ANALYSIS SUMMARY
DATE:
RUN NUMBER: Qd I 7 - HidfriCU- '* - 3 j O
-------
SUMMARY OF HC1 MONITORING DATA
RUN: HC1 Sampling Method Comparison
SOURCE: Ogden Martin Systems - Characterization Test
TEST DATE: 6/17/87
GAS VALUE
INITIAL CAL
FINAL CAL
MEAN CAL
***TECO (INLET)***
0.0 ppm HC1
1222.0 ppm HC1
12.0
1234.0
32.0
1213.0
22.0
1223.3
***LSI (MIDPOINT)***
0.0 ppm HC1
259.0 ppm HC1
***BODEN.(OUTLET)***
0.0 ppm HC1
95.0 ppm HC1
HOUR
1
2
""1
TIME
10:05 - 11:05
12: 15 - 13: 15
14:25 - 15:25
UNCORRECTED RESULTS
INLET MIDPOINT
634.4
513.5
534.8
***RESULTS CORRECTED FOR CALIBRATION BIAS AND
HOUR
1
2
3
TIME
10:05 - 11:05
12: 15 - 13: 15
14:25 - 15:25
INLET MIDPOINT
622. B
499.9
521.5
OUTLET
DRIFT***
OUTLET
CORR. 3-HOUR AVERAGE:
54B. 1
NOTEl INLET CONCENTRATIONS ARE MEASURED ON A WET BASIS
Corrected Cone. = Cma(C - Co)/(Cm - Co)
Where: C • mean re-ference measurement
Co » mean zero calibration response
Cm = mean mid or upscale calibration gas response
Cma = actual mid or upscale calibration gas concentration
V
-------
SUMMARY OF HC1 MONITORING DATA
RUNi HC1 Sampling Method Comparison
SOURCE: Ogden Martin Systems - Character!zation Test
TEST DATE! 6/17/87
GAS
1
VALUE
***TECO < I
0.0 ppm
222.0 ppm
NLET) ***
HC1
HC1
I N IT I AL
1
123
CAL
2.0
4.0
FINAL
3.2
1 2 ( 3
CAL
. 0
,0
MEAN
22
1223
CAL
.0
.3
***LSI (MIDPOI NT)***
0.0 ppm HC1
259.0 ppm HC1
***BQDEN.(OUTLET)***
0.0 ppm HC1
93.0 ppm HC1
UNCORREC
HOUR
1
2
3
HOUR
1
2
3
10
12
14
•X'*
1.0
12
14
: 05
: 15
:25
*RE:~
:05
: 15
:25
TIME
- 11: 05
- 13:15
„ i er . ™i «c;
1 wJ • 4,. sJ
SDL IS CORREC
TIME
- 1 1 : 05
- 13: 15
- 15:25
1 NL
634
5 I 3
534
TED F-
INI...
622
499
521
ET
. 4
. 5
. 13
OR C
ET
.8
. 9
.5
TED RESULT.}
MtDPOCNT OUTLET
AL. I nRAT I CM H I AS AND OR [ f (*}<•*
N I'D PC) I NT OUTLET
CORR. 3-HOUR AVERAGE: 548.i
NOTE! INLET CONCENTRATIONS ARE MEASURED ON A WET OASIS
Corrected Cone. « Cma(C - Co)/(Cm - Co)
Where! C - mean re-ference measurement
Co ^ mean zero calibration response
Crn = mean mid or upscale calibration gas response
Cma «= actual mid or upscale calibration gas concentration
E-27
-------
HCL CALIBRATION DRIFT
DAILY WORKSHEET
SOURCE AND LOCATION
HATF
TIME
PERSON CONDUCTING TEST.
OPERATING
RANGE
CALIBRATION
GAS VALUE
MONITOR
RESPONSE
TO CAL GAS
DIFFERENCE
(RESPONSE-
CAL GAS VALUE)
PERCENT SPAN
(PASS/FAIL)
MONITOR
RESPONSE
TO INTERNAL
STANDARD
COMMENTS
BODENSEEWERK
GAS CELL VALUE
( ppm)
COMPUR
LIQUID STANDARD
(Values In mV)
si npf .
no-
i)i -
119.
LEAR SIEGLER
NA
TECO
3&OO
/*Z.,u
/^'^
~?
— O- 3"^
fS5?
NA
^^/ec) -3*
(OTHER)
4J12DR15
Pre and Post Test Calibration Check Worksheet
-------
HCL CALIBRATION DRIFT
DAILY WORKSHEET
SOURCE AND LOCATION _ _
HATF &//1/Z-7 TIME
PERSON CONDUCTING TEST
JH.
OPERATING
RANGE
CALIBRATION
GAS VALUE
MONITOR
RESPONSE
TO CAL GAS
DIFFERENCE
(RESPONSE-
CAL GAS VALUE)
PERCENT SPAN
(PASS/FAIL)
MONITOR
RESPONSE
TO INTERNAL
STANDARD
COMMENTS
BODENSEEWERK
GAS CELL VALUE
( ppm)
COMPUR
LIQUID STANDARD
(Values In mV)
sinpF -
110-
Ui -
119-
LEAR SIEGLER
NA
TECO
3o&o
/2«- / ^°
/Z3+ / $n
/2 / r*
£>,%/.?.?%
NA
za^o^.T^.
(OTHER)
s
t-o
4112DRI5
Pre and Post Teat Calibration Check Worksheet
-------
HC1 GEMS DAILY INSPECTION CHECK LIST
Characterization Test • Marion County Facility
Date 6/rtfe7
Initials PT
TECO Model 15 Analyzer/Model 200 Dilution System
M200 Control Unit
Aspirator Air Pressure
Orifice Vacuum
Zero Air Flow Rate
Calibration Gas Flow Rate
3.0,5
TECO 15
Sample Flow Rate
Zero Pot Setting
Span Pot Setting
/ o
•731
psi
psi
scfh
scfh
1pm
4150 ZGSM/4330 Dilution System
4330 Dilution Control Unit
Aspirator Air Delivery Pressure
Orifice Vacuum
Probe Temperature
4150 ZGSM
Analyzer Sample Flow Rate
Analyzer Inlet Pressure
System Vacuum
Printer Paper Supply Adequate
Absorbing Solution Tank Level
(Capacity, 20 1)
Waste Tank Level (Capacity, 20 1)
Calibration Solution Tank Level
(Capacity. 2 1)
Sampling System Flow Rate
System Blow Back Air Pressure
Strip Chart Recorder Paper Supply OK
Strip Chart Recorder Pens Inking
Heater Temperatures Within Limits
Axj.5cilzLa.3ry
Compressor Delivery Air Pressure
Compressor Air Line Leaks Detected
Electrical Power Supply Adequate
E-30
-------
Ogd»n Martin Sy«t«m« - HC1 Monitoring 06-17-1987
LLME
• 1 0 1 4
-------
Oydon Martin Sy«t«?ms - HC1
CHAN 1 CHAN 3
TECG LSI
Monitoring
CHAN 4
Bodens
TIME Domwet, DDmdrv DDmdrv
AVERAGE
10:20
10:21
10:22
10:23
10:24
10:25
10: 26
10:27
10:20
10: 29
10: 30
1 0:31
10: 32
10: 33
10:34
10: 35
AVERAGE
10: 35
10: 36
10:37
10: 38
10: 39
10: 40
10:41
10: 42
10: 43
10: 44
10: 45
10: 46
10:47
10: 48
10: 49
10:50
AVERAGE
1 0 : 50
10:51
10:52
10:53
10:54
10:55
10:56
10:57
10:58
10:59
11:00
11:01
11:02
VALUES FDR
433. 1
403. 2
422.0
432. 3
454.9
472. B
472.0
467.7
469. 6
465.2
478. 3
488. 3
480.8
508. 3
540. 4
522. 0
VALUES FOR
471. B
520. 2
556. 0
536. B
567.3
565. B
562. 7
603. 4
622. 9
618.3
681. 5
707.3
752.9
B17. 6
807.3
799.5
VALUES FOR
648. 0
880. 7
BB9. 1
891.2
930.7
961.8
989.7
1007.9
1058. 1
1076.2
1027.6
1026.9
998. 1
THE PREV
71 .4
70.7
70.7
70.B
70.9
70. 9
70.9
70. B
70.8
70. 8
70. B
70. B
70.8
70. 9
70. B
70. 8
THE PREV
70. B
70. B
70. 8
70. 7
70. 7
70. 6
70.5
70. 5
70. 4
70. 4
7 0 . 4
70 . 4
70. 5
70. 5
70. 5
70. 4
THE PREV
70.6
70. 4
70.3
70.3
70.3
70.2
70.3
70.3
70.3
70.4
70.3
70.3
70.4
IOUS 15 MINUTES
22.8
19.4
22.0
24.0
23.6
22. 2
20.8
19. 9
22 . 6
24. 1
j^. 0' • j^-
20 . 9
21.3
26.6
33 . 0
32. 5
I OUS 15 MINUTES
23. 7
29.6
29. 2
29. 9
34. 2
34. B
32. 3
31.9
32. B
37. 4
40. 6
39. 1
37.9
39. 9
45.6
46. 7
IOUS 15 MINUTES
36. 1
42.9
39.3
37.7
51.7
75.0
80. 1
64.7
53. 1
57. 1
78.5
99.0
92.5
06-17-1987
E-32
-------
Ogd»n Martin System* - HC1 Monitoring 06-17-1987
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bod«nm
TIME nnmwet oomdrv oomdrv
11:03
Ili04
11 J05
AVERAGE
lliOS
AVERAGE
11:03
11:06
1 1:07
1 1 : OS
1 1 : 09
1 1: 10
11:11
11:12
11:13
11:14
11:13
11:16
11:17
11.1 19
111 19
11: 20
AVERAGE
1 1 20
1 1 21
1 1 22
11 23
1 1 24
11 23
11 26
11 27
11 23
11 29
11 30
11 31
11 32
11 33
11 34
1 1 : 35
1010.3
1032.3
991 .5
VALUES FOR
984.8
VALUES FOR
634. 4
1037.5
1029.7
1031 .5
929. 1
873.5
840. 0
848.7
883.7
870. 3
845.0
843.3
835.9
850. 1
817.5
803. 4
VALUE?.'!! FOR
889.3
779. 2
726. 7
713.3
755. 0
772. 9
784. 9
731 . 6
763. 7
782. 9
738.8
751.3
715.7
712.4
662. 9
653.2
70.4
70.3
70.3
77.2
68.8
74.2
THE PREVIOUS 15 MINUTES
70.3
THE LAST
70.8
70.3
70.2
70.3
70. 4
70. 4
70.3
70.3
70. 4
70. 4
70. 4
70. 3
70. 3
70. 4
70. 5
70. 5
fHE Pfiiff.V
70. 4
70. 4
70.5
70. 5
70.5
70. 4
70.4
70. 4
70. 4
70. 5
70. 5
70. 4
70. 5
70. 6
70.5
70. 5
66. 1
HOURi 60 MINUTES OF VALID DATA
37.2
93.4
99.5
81.2
59.4
cr- T t
-1 •-' . O
69. 1
86.5
88.2
74. 0
63. 9
57. 6
68. 6
79. 7
68. 7
53.5
tOllS t!5 MINUTES
73. 1
42. 2
43. 7
52. 4
60. 1
55.5
42. 4
32.7
37.8
43. 7
42. 4
38. 6
35. 0
33. 9
34.5
36. 4
AVERAGE VALUES FOR THE PREVIOUS IS MINUTES
11:35 736.3 70.5 42.1
E-33
-------
Oqrtem Martin
I
1
1
1
.IJ1
1:
1 i
2z
IE_
58
59
00
CHAN
TECO
ppmtMe
565.
561.
569.
Systems -
1
±
1
7
B
CHAN
LSI
_PR.n.lcLr
70.
70.
70.
HC1
T
...y
4
7
4
Monitoring 06-17-1987
CHAN 4
Bodens
PPJndr_y.
43.2
39.4
46.6
AVERAGE VALUES FOR THE LAST HOUR: 3 MINUTES OF VALID DATA
12
1 2
12
12
12
12
0
0
0
0
0
0
0
1
2
,^t
4
er
O
5
5
ET
^J
5
5
5
65.
41.
61 .
52.
47.
51 .
5
7,
4
6
"T
7
70.
70.
70.
70.
70.
70.
4
6
B
7
7
5
43.
52.
53.
48.
43.
47.
1
6
4
4
-T
8
E-34
-------
Ogd«n Martin Symtwmm -
Til*
12s
12:
12:
12:
12i
12:
07
08
09
10
11
12
12: 13
12: 14
12: 13
AVERAGE
12
12
12
12
12
1 "~>
J> ^m.
12
12
12
1.2
1 J,
I "2
1 A-
1 '^
1.2
12
15
16
17
18
19
20
21
22
23
24
23
26
27
28
29
30
AVERAGE
12
12
12
12
12
12
:30
: 31
:32
:33
:34
! 35
12:36
12
:37
12:38
12:39
12
12
12
12
:40
. 41
:42
:43
12: 44
12
:45
AVERAGE
12
:45
12:46
12:47
12
:48
CHAN 1
TECO
ppmwet
576.7
529.8
546.7
507. 1
456.0
508.4
506. 5
479.6
499. 4
VALUES
512. 2
482.8
509. 5
502.7
498. 1
534.9
536. 3
495.6
511.9
490.5
503. 8
482. 7
517.0
511.5
490. 6
487. 1
VALUES
503.7
488. 9
448.7
451.3
478.0
477. 0
507. 1
494. 0
532.0
505.9
520. 0
509. 1
530. 7
55O. 6
566. 3
578.0
VALUES
509. 2
566.7
549.4
568. 5
CHAN
LSI
HC1 Monitoring 06-17-1987
3
CHAN
4
Bodcnm
ppmdrv
70.
70.
24.
0 .
0.
0.
0.
0.
0 .
FOR THE
18.
0 .
0 .
0 .
0.
0.
0.
0.
0.
0 .
0 .
0 .
0 .
0 .
0 .
0 .
FOR THE
0.
0 .
0 .
0 .
( I) .
o .
0.
0 .
0 .
0.
0 .
0 .
0.
0.
o.
0.
FOR THE
0.
0.
0.
O.
2
5
6
8
9
8
8
9
9
LAST
9
8
9
a
a
9
8
9
9
9
8
9
9
a
8
9
PREV
9
8
8
9
9
8
9
8
9
8
8
8
9
8
8
9
PREV
8
9
9
8
ppmdrv
61.
49.
40.
32.
T; T, _
49.
52.
44.
43.
HOUR:
45.
46.
•-) O •
55.
51 .
49.
47.
48.
53.
47.
39.
30 .
-' 2 •
35.
35.
34.
ICllJS 1
44.
3 0 .
27.
30.
35.
~T T
34.
— r /-•,
30.
29.
30.
28.
26.
24.
27.
29.
IOUS 1
30.
25.
22.
20.
2
6
2
3
6
1
4
7
9
9 MINUTES OF VALID DATA
2
5 *57~'A£r~
5 f?ill\\ J
7
9
4
1
7
8
8
"T
6
4
0
0
4
5 MINUTES
3
7
5
8
4
8
0
2
8
7
4
9
5
3
2
1
5 MINUTES
1
9
1
1
E-35
-------
Oqden Martin Systems - HC1 Monitoring 06-17-1987
CHAN 1 CHAN 3 CHAN 4
TECO LSI Badens
TIME Domwett. pomdry
12
12
12
12
12
12
12
12
1 2
12
12
1 3
AV
1 3
1 3
l •-'.-
1 3
13
1 3
1 >_>
1 ~!v
.L •• «'
1 3
13
13
13
13
13
1 3
13
49
50
51
52
53
54
55
56
57
58
59
00
:RAGE
00
01
02
03
04
05
06
07
08
09
10
I .1
12
13
14
15
AVERAGE
13:15
AVERAGE
13: 15
13: 16
13: 17
13: 18
13: 19
13:20
13i21
13j22
13i23
13»24
13i25
13s26
13t27
13s28
13:29
13:30
569.4
550. 1
570.9
542. 1
546.7
529. 6
538. 3
515.4
cr cr tr TI
544. 7
443. 9
420.8
VALUES FDR
534. 1
478. 7
477. 1
477.3
488. 7
481 - 0
540. 2
474. 5
4 6 2 . 0
496.9
537. 6
544 . 2
536. 1
553.8
520. 4
535. 5
VALUES FDR
506.9
VALUES FOR
513.5
574. 1
561 . 2
532. 0
535.2
510.6
512.4
511.5
541.5
553.0
496.4
483.5
494.8
503. 6
512.4
572.7
0.9
0.9
0.9
0.9
0.9
0. 8
0.9
0. 9
0 . 9
0.9
0. 9
0. 9
THE PREV I
0. 9
0. 9
0.8
0.9
1 . 0
0 . 8
0. 9
0. 9
0 . 9
0. 9
0 . 9
0 . 9
0. 9
0. 9
0. 8
0. 8
THE PREV I
0.9
THE LAST
0.9
0.8
0.9
0. 8
0.9
0.9
0.9
0.9
0.9
0.8
0. 9
0.9
0. 8
0. 8
0.9
0.9
RPffidry
21. 2
22.0
21.9
18.5
16. 4
17. 1
20. 0
20 . 7
20 . 9
IB. 8
16. 5
17.3
OUS 15 MINUTES
20 . 0
19. 8
19. 6
18. 4
17. 4
18.9
21.2
21.2
19. 9
19.5
21.9
22 . 9
22. B
21.2
18.7
17. 8
OUS 15 MINUTES
/;>/P SM.A) ^
HOUR: 60 MINUTES OF VALID DATA
28. 6
18.5
18. 6
17.3
16.9
15.7
16. 2
IB. 1
20.3
20.6
18. 2
18.0
22.3
25.3
24.6
23.2
E-36
-------
O g d en Mar t. i n 3 y s t e? m s --
C IAr
\ 1 CHAN
HC1
"T
TEC (3 LSI
-LLbJi pgrnwet ppitidry
--'9: 10 -6.0 - 4.
u9: l i i
09 : ] 2 .:
.3 • 4 .
'. 1 4.
07: 13 16.1 - 4.
09: 14 8.3 1.
09: 15
09: la
09: 17 v
09: 1 3
09: L 9
0 -V : 2;..' "
i -
09:21 =
09:22 £
09:23 -1
09:24 -d
09:25 -:
09:26 =
09:27 ]
09:28 K
09:29 \-J
09:30 \L
09:31 \-<
09:32 ('-
09:33 :
u9: 34 !
09:35 (
09:36 i:
09:37 ^
' - * - -I .
'- 4 - 4.
i . 5
).2 -5.
' . 3 - 5 .
' . •'•• ' 5 .
' I
3.9 -5.
3.7 -5.
I'. 6 -5.
D . 3 — 5 .
T er cr
r ~T c="
.0 -5.
). 1 -5.
L.O -5.
L.4\ -5.
> . 2 \ - 5 .
r^Q -6.
Z.5 -6.
5 . 0 - 6 .
). 6 -6.
2.7 -6.
3 . 3 — 6 .
09: 38 O. 7 -6.
09:39 31
I'.S -6.
6
7
S
9
8
-/
9
(j
1
1
.••
-^
4
5
5
6
6
7
6
6
8
jS
jL.
1
•^r
2
1
1
1
09:40 435.0 -6.2
09:41 774.9 -6.
09:42 887.7 -6.
09:43 97
1.2 -6.
09:44 1029.4 -6.
09:45 1056.7 -6.
09: 46 1078. 1 -6.
09: 47 1 D99. 2 -6.
09:48 1115.5 -6.
09:49 1140.8 -7.
09:50 114
1.3 -6.
09:51 1160.4 -2.
09:52 1156.3 97.
O9:53 1164.2 127.
09:54 1174.5 115.
09:55 1165.8 109.
09:56 1184.8 104.
09 8 57 118:
2.8 94.
09:53 1168.4 88.
09:59 1183.6 86.
10s 00 1187.3 85.
1
•3
i
4
6
8
8
7
6
9
5
5
9
7
8
5
4
0
9
9
Moni tor i ng
CHAN 4
Bod ens
ppmdr Y
58. 0
59. 9
53. 4
5 1 . 0
54. 3
6 1 . 5
6 7 . 0
> "7 '"1
Cj ,• . '-I-
ft',:. 9
54. 7
5 "5 . 6
55.7
50. 5
45. 5
40. 4
39. 8
46. 2
40. 7
31.5
32. 7
38. 4
42. 8
43. 3
4 1 . 0
39. 7
56. 6
71.9
72. 4
64. 0
57. 4
60. 4
74. 7
85. 4
91 .2
85.8
82. 8
79. 4
86. 2
94.6
88. 6
80. 6
75.6
69.8
68. 6
74. 1
76. 1
79. 4
77.5
59. 4
45.3
46. 4
06-17-1967
E-37
-------
Ogdan Martin
CHAN
TECO
T.LME ppjnwe
AVERAGE
10:
10:
10:
10:
10:
10:
1 0 :
10:
1 0 :
10:
1 0 :
1 0 :
1 0 :
1 0 :
10:
01
02
03
04
05
06
07
08
09
10
1 1
12
1 3
14
15
AVERAGE
10:
10:
10:
1 0 :
1 0 :
10:
10:
10:
10:
10:
10:
10:
10:
1 0 :
10:
10:
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
AVERAGE
lOt
10:
10:
10!
10s
10:
10s
105
10:
10s
10s
10:
10:
10:
30
31
32
33
34
35
36
37
38
39
40
41
42
43
System
1 C
L
t I
VALUES FOR
443. 3
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
187.
195.
192.
200 .
204.
189.
194.
212.
203.
213.
210.
214.
213.
223.
214.
8
8
-T
5
T;
6
6
8
6
9
5
1
1
0
7
VALUES FOR
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
204.
211.
216.
21Q.
217.
226.
222.
220.
223.
222 .
220.
220.
226.
215.
232 .
243.
7
6
7
6
-T
1
4
9
j^
4
8
1
4
8
2
"T
VALUES FOR
1
1
1
1
1
1
1
1
1
1
1
1
1
1
222.
235 .
230.
233 .
239.
227.
236.
225.
249.
229.
236.
241.
234.
233.
5
3
8
8
8
2
2
0
2
1
2
6
3
0
ns - HC1 Monitoring 06-17-1987
:HAN 3 CHAN 4
..SI Bodens
IRmcJjiy ppmdry
THE
13.
84.
69.
73.
72.
74.
73.
71 .
70.
70.
70.
69.
69.
68.
68.
68.
THE
71.
69.
70.
71 .
72.
74.
75.
76.
77.
79.
80.
80.
80.
79.
79.
78.
THE
76.
78.
78.
77.
77.
76.
76.
75.
74.
74.
74.
73.
73.
73.
LAST
2
3
9
4
8
-T
1
8
8
8
6
5
o
4
5
8
PREVI
7
6
8
cr
9
0
4
T
5
2
0
4
5
7
5
8
PREVI
4
4
0
5
3
6
0
3
8
6
2
7
5
3
HOUR:
61.
54.
63.
65.
60.
63.
61.
66.
69.
73.
72.
63.
55.
58.
69-
79.
OUS 1
65.
77.
70.
66.
68.
74.
78.
74.
71.
66.
63.
65.
69.
67.
63.
63.
OUS 1
69.
63.
63.
66.
68.
66.
66.
62.
63.
67.
69.
67.
63.
68.
51 MINUTES OF VALID DATA
5
6
9
-,,
5
•T
5
7
9
Tt
6
5
5
9
9
6
3 MINUTES
T
9
^'
9
6
6
ji!
5
0
1
1
4
7
8
2
4
5 MINUTES
4
7
5
8
5
7
7
0
1
1
7
5
9
3
E-38
-------
Ogden Martin System* - HC1 Monitoring
06-17-1997
TIME
10: 44
10: 45
CHAN 1
TECO
ppmwet
1229.6
1233.0
CHAN 3
LSI
ppmdry
73.0
72.7
CHAN 4
Bodens
ppmdry_
72.0
76.4
AVERAGE
10: 43
VALUES
1234.2
FOR THE PREVIOUS 15
75.3 67.0
MINUTES
10: 46
10: 47
10: 49
1232.9
1172.4
974.5
72. 4
72.3
72.0
70. 2
64. 1
63. 6
E-39
-------
Ourlmt Martin fiy&t t=>m« - HCi
CHAN 1 CHAN 3
TECO LSI
TIME _E3pmwet ppmdry
09:13 52
09: 14 52:
1.7 71.
2.2 71.
09: 13 534. 0 71 .
09: 16 545. 3 71 .
09: 17 562.3 71.
09 1 18 57:
2.3 71.
09: 19 567. 6 71 .
09:20 578.3 71.
09:21 578.7 71.
8
B
8
7
7
7
5
4
-%
09:22 585.9 71.3
09: 23 579. 1 71.
cr
09:24 584.4 71.5
09:25 594.0 71.
09:26 59<
j . 4 71.
09:27 588.2 71.
09:28 589.5 71.
6
_,.
4
4
Meini tori no
CHAN 4
Bodens
75. 5
68. 1
63.2
59.0
62.0
63 . 7
59.3
54. 7
51. 1
50. 8
47. 1
45.0
43. 9
42. 9
39. 1
34. 9
09: 29 586. 1 71.3 33. 2
09:30 584.6 71.3
09:31 f5~77
09:32 58'
09:33 57J
09:34 '57:
09:35 58<
09:36 58 1
09:37 56 f
09:38 57 c
09:39 58:
09:40 l^_
b.2\ 71.
=1 . 4 71.
5.7 71 .
? . 7 7 1 .
,'.6 71.
I) . 5 71.
3.2 71.
7.6 7 1 .
2.7 71.
i-JiL 71 .
09:41 579.5 71.
~T
4
-7
T;
-T
^'
1
1
2
2
T'
09:42 599.8 71.2
32. 5
35. 4
37. 8
38. 1
34. 8
"*, "^ 'V-1
31.7
3 1 . 3
_, ^v ,-,
34. 9
36. 1
34. 9
29. 3
E-40
-------
Qgdan Martin System* - HC1 Monitor!
CHAN 1 CHAN 3 CHAN 4
TECO LSI Bod»n»
LLM_E pDinwst oomdrv oomdrv
AVERAGE
16i40
16:41
16:42
16:43
16:44
16:45
16:46
16: 47
16:48
16: 49
16:50
16:51
16:52
.16:53
i!6:54
16: 55
AVERAGE
16:55
16: 56
16:57
16:59
16:59
17:00
17:01
17:02
17:03
17:04
17:05
17:06
17:07
17: 08
17:09
17:10
AVERAGE
17: 10
VALUES FOR
517.5
601.6
576.4
609.3
579.8
575.6
565.9
574.2
620.2
574. 6
511.4
507. 9
499. 1
478.7
549. Br\
537. 7
VALUES FOR
557.5
483. 5
486. 2
495. 3
516. 7
458. 4
443.2
474. 4
475. 4
431 . 5
427.6
419. 4
400 . 3
389.3
398.8
413. 4
VALUES FOR
447. 6
THE PREV
0.9
0.9
0.9
0. 8
0. 8
0. 8
0.9
0.9
0.9
0. 9
0.9
0 . 9
0. 9
0.9
O^J?,.
0.9
THE PREV
0. 9
0. 9
0 . 9
0 . 9
0. 8
0. 9
0. 9
0 . 9
0 . 9
0. 9
0. 9
0.9
0. 8
o. a
0. 9
0.8
IOUS 15
52.6
68.6
62. 1
60.7
63.3
73.9
78.9
72.8
67.8
64.7
67.7
75.9
74.5
75.2
91.9.
^9177
I DUG 15
72. 6
81 . 9
S3. 2
88. 2
93. 4
87.8
83. 9
83. 8
77. 9
7 3 . 3
76. 3
77. 1
71 . 1
63. 2
60. 1
63. 6
THE PREVIOUS 15
0.9
77.6
ng (
MINUTES
r
***~
^. — 5
MINUTES
MINUTES
06-17-1997
17: 11
261.8
0.9
61. 7
E-41
-------
Ogden M<
vi
^op /
A 1^ T Z ME
AS 15:54
, i -y* -=^15:55
^' 15:56
15:57
15:58
15:59
1 6 : 00
16:0 1
16:02
16: 03
rf 16:04
\? 1 ' N 16:05
- '-'46:06
T.*:07
16:08
16:09
16: 10
16: 11
16: 12
16: 13
16:14
16: 15
16: 16
16: 17
16: 18
16: 19
16: 20
1 6 : 2 .1
16: 22
16:2.3
16: 24
16: 25
AVERAGE
16:25
16:26
16: 27
16:28
16:29
16:30
16:31
16:32
16J33
16s34
16t35
16s36
16s37
16:38
16:39
16! 40
artin B>
CHAN 1
TECO
ppmw^t
605.5
645. 7
645.5
591.9
599. 4
685. 8
664. 5
614.7
574. 0
614.3
7OO. 0
618.9
540. 2
517.9
479. 0
483. 1
505. 6
461 . 8
516. 1
521 .5
485. 0
491 . 7
461 . 8
455. 9
436. 4
439. 8
447 . 3
461 . 9
451 . 5
472. 5
447. 3
472. 6
VALUE'S
534. 7
478. 3
451. 1
457. 1
467. 3
470. 6
493. 1
50 1 . 5
522.5
506.3
561.6
575.3
555.5
569.6
572.0
579.9
'Stems - HC1 Is
CHAN 3
LSI
pj^mdry
0 . 9
0. 8
0 . 9
0.8
0. 9
0. 9
0. 9
0. 9
0. 9
0.8
0. 9
0 . 9
0. B
0. 9
0. 8
0 . 9
0 . 9
0 . B
0. 6
0 . 9
0.9
0.8
0. 9
0. B
0. 9
0. 8
0 . 9
0 . 8
0 . 9
0 . 8
0. 9
0. 9
FOR THE: LAST
0. 9
0.9
0. 8
0.9
0. 8
0. 9
0.9
0.8
0.9
O.B
O.B
0.9
O.B
0.9
0.9
0.9
lonitoring 06-17-1997
CHAN 4
Bode?ne
ppmdry
120. 1
108. 1
93.8
83.9
92.8
105.2
88. Z
71 . 4
80. 4
1 07 . 9
123. 6
98. 9
70. 2
71.6
84. 5
93. 8
91.6
75.9
79. 1
88. 3
87. 7
84. 4
77. 0
70. 6
71.3
78. 5
78. 4
77. 1
74. 7
74. 1
69. 1
68. 8
HOUR: 32 MINUTES OF VAL.1D DATA
85. 7
63. 1
56. 6
54. 4
49- 8
47. 5
47. 1
46. 8
48. 6
50. 0
51. 1
50. 1
49. 3
51.8
56.3
66. 0
E-42
-------
Qgden Mar t i n
CHAN
TECO
by -stems —
1 CHAN
LBI
HCl
~T
TIME _pj3_mw(=t. pprndrY
16:01 23
16s 02 29
16:03 35
16:04 31
16:05 32
16:06 f~4~3
16:07 36
16:08 21
16:09 24
16: 10 37
16:11 33
16: 12 25
16:13 36
16:14 \29
16:15 3 1
16:16 38
.9 0 .
.2 0 .
.9 0 .
.6 0 .
.2 0.
.2\ 0.
.6 0 .
.4 0.
.7 0 .
.5 0 .
.2 0 .
.2 0 .
. 7 / 0 .
.8 0 .
. 9 0 .
. u u .
16:17 28.5 0.
16:18 38
16: 19 249
16:20 686
16:21 857
.2 0 .
.6 0 .
.6 0 .
. 7 0 .
16:22 958.3 0.
16:23 996.2 0.
16:24 104t
.5 O .
16:25 1064.3 0.
16: 26 1 J70. 1 0.
16:27 1090.4 0.
16:28 1117.3 0.
16:29 1121
.4 0 .
16: 30 1 126. 7 0.
16:31 1135.7 0.
16:32 1129.7 0.
16:33 1150.2 0.
16:34 11 63
16:35 1152
. 4 0 .
.4 0 .
16:36 1165.6 0.
16:37 1176.8 0.
16:38 1165.8 0.
16:39 1173
.2 0 .
16:40 1175.3 0.
16:41 1171
.9 0 .
16:42 1180.5 0.
16:43 1189.5 0.
16:44 1193
' . 6 0 .
16: 45 1 197. 1 0.
16: 46 1210.4 0.
16:47 1192.8 O.
1 6 : 48 1212.1 0 .
1^:49 1206.6 O.
16:50 1213
' .6 0 .
16:51 1212.1 0 .
16:52 1206.9 O.
16:53 12O8.7 0.
16:54 1208.8 0.
16:55 120:
' . a o .
8
a
9
9
8
9
9
9
8
8
9
9
a
8
8
9
8
3
8
9
8
9
9
9
a
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
9
l"lon i tor ing
CHAN 4
Bo dens
ppmdry
1 15.6
106.9
85.2
76. 7
104. a
124.0
99- 7
74. 0
66. 7
85.8
85. 4
65.5
49. 1
41.1
34. 4
39. 3
53. 2
59. 3
54. 9
50. 5
46. 6
42. 4
38. 0
35. 4
31.7
29. 0
30. 9
32. 5
34. 5
36. 1
33. 9
35. 5
37- 7
39. 2
38. 8
38.2
40. 5
50. 3
50 . 0
45. 1
41.1
42. 6
46. 7
45.3
43.4
43. 1
47.5
53. 2
46. 7
43.5
40. 4
40. 2
46.3
49. 9
45. 9
06-17-1987
E-43
-------
Qgden Martin Systems •-• HC1
CHAN 1
TECO
TIME j>pmwei<-!
16:56 ~"
16:57
16:58
16:59
1 7 : 00
1226. 5\
1211 .7
1205.0
1214.7
1206. 5
^ —
CHAN 3
LSI
_ppmdry
0.9
O. 9
0 . 9
\ 0.9
) 0 . 9
Monitoring 06-17-
CHAN 4
Baden®
ppmdry
43.5
41.4
37. 6
41 . 5
44. 0
AVERAGE VALUES FOF;' THET LAST HGUR: 60 MINUTES OF VALID DATA
17: 00 793. 6 0. 9 52. 1
1203.
E-44
-------
Appendix F.
HC1 Calibration Cylinder Gases
-------
HCL Methoc Analytical Date Sheet; Pege 1 cf 2. April o, 19B7
L D n i .
\ LI Q / r. i ..'
1 0 . 0
2 0 . 0
5 0 . 0
100.0
Standard
Sa
Aud
Aud
Sa
HCi
KCI
KCi
HCI
RD 1 E
it A
it E
'ip - c
ID
SEE
1
j.
^
3
4
B»
c;
C
/
B
Bas
9
10
11
12
Gas
1 T
l ••'
14
1 c:
A «-<
Cr.lsrice
re
F;ur, i
T L iTOT
•w* D D / w /
743B79
1925624
/.I T; n =•. -
*r v fc J *. w> t
Curve
Run i
A^,
35EE91
F •„• r 1
Ar EC
Cyi inner
2940977
24B5943
9?c 1 m
\J D A ,*-*.
1 C-OC-TT 1
A w' «- U •»-> -^ A
T»,T .' ~ H O •-
w y * A 11 LJ — i
T ? < T C A
/ %J i. >w> C1 *-'
59621E
45B473
76B139
Cyi inder
1634441
1547962
1609994
1463740
Cyi inder
356290
37B04B
469459
C- i - , - -. - .• '
B.\-: Area
F: L; T I
3B714S
7B3792
209512:
4265622
Slope
ftur. 2
Area
365163
KCi Cclib
F.ur I
Area
* K-9E62
2749424
234 11 Be
907646
1449177
£ K-9B41
701062
56E25E
44232B
727S70
£ K-936B
1806065
1516444
1546491
1425564
£ !••' - 9 3 7 0
399655
374503
451329
RLU, 7
3B933S
799176
41409
Average
367692
r E t : o n 5
Average
(1556 p p
"> fi £ ^ T' 1
.4. D *I J *. 'v i
•5 t < T C i r
^. ^ ^ v1 tj O «j
922BB4
1467254
(503 ppm
T '. i •> 1 1
/ 1 u j- ^. i
U u dL ^ O LJ
450401
74 BO 05
( i i75 pp
1E20253
1 c--rr>or,-r
i W V _ 4- V •-'
1 C"7C": /; r
4. u/ / / i. *: u'
1446162
(479 ppc;
377973
376276
460394
Predicts:
I U L / li, i !•
i C n
10.30
19.63
50. 17
1 A O i /",
A V i. t U '-
Interc
ept
Percent
Devi at ion
,-,
i .
as Cyli
F e r c e
D e v i e t
Bi KCI)
O •
w" •
1.
i •
uni *
nu A *
i
A. •
^i
i. •
l.
fii KCI)
0.
1
A •
1
J, •
1
A •
KCI;
r
w* •
0.
1
1 •
f. O"
nder
•; «-, •-
002
652
562
122
402
797.
692
7B2
032
orv
/ hj #.
^% ^ •>
^x *.
-45574
A 1 i c u o t
Factor
1
i
20
Eanspl EE
r~s * ^. w U w L
i C. U '- U 1
Aver
2000
2000
2000
2000
Aver
2000
2000
~; r, ,"> C;
A. \t V W
2000
Aver
2000
2000
2000
2000
-
Percent
D e v i c t i D r.
f*"nrr A^*1' "- '
3.042 +•*****
-O.B42 #**•*• + «
Found
( u g / n i
10.0
19E
KCI
»-• C. "L C f:
'.EC )
age KC
143.60
122.16
48.11
76.14
age KC
37.64
31.19
24.64
39.42
age KC
92. 6 E
76. 3E
BO. 71
74. 10
Average HC
742
472
972
2000
2000
2000
21.04
20.96
25.13
Expect
i ( u g /' tn i !
C T
'•^i c 5
V C j. U u: E
(QEi )
I 1591
57.704
50. 761
20.632
32.605
I 4BS
52.290
42.441
33.296
x~ c i r,
lj W . 1 *_J ^
1 1197
51.709
43.567
45.225
40.94E
1 406
43.211
^ * T T*T
•w* i • ij -w1 O
37.025
RDD
/ . -.• /•
6 . 3 2
hC -
(F-F'Mv}
ppr.
1 i CO 1
A LJ U / '
1604 >
1554 /
1547 ;
ppr.
4B2 •
490 .
493
4B7
ppc,
1195
1199
11ES
1206
ppff
325
446
453
X.
i<;^ '
<&>&
\$<&
4&
42
1J-&C.
I2SZ
F-l
-------
Run 1 Rar, 2
uci
HC:
HCi
-IPIE
l-
5as
< ^
* U'
1 1
1 B
uaE
19
20
*. i
A'-ee
Cylinder
454625
4 B 1 9 i B
445049
L\i inner
1S05027
1626744
r: C1 "~> c- ~7 "T £
!•>- E£
* A - i 6 7 9 0
451329
4 B 0 5 7 4
442E72
* A- 17241
175-5556
1611994
2934612
Avs'd:; L
•! 4 i 9 p p IT,
452977
4E1246
^,5461
i i c 9 6 p p IT
177^792
1619369
*^ "7 O v i / -^
r" = ne
ev:£i
KC1 i
0 .
'-.• .
0 .
Ljn \
n u i /
1
i i
0 .
r.
V .
n I
: C'P
36/:
1 4 ";!
J b /.
Hi 1 M U G u
-*" C — - C "~
Aver
2000
2 0 0 0
2000
L.5t
; ^ j;
£C£
24.
*. u •
24.
cr.
HZi
•7-
A /
39
Average H C i
42
46
15
4_ V V '-'
2 0 () 0
2000
90.
E2.
147.
67
7l
E2
v c ; u r. e
( ; E 1 :
4 3 A
3£. 442
40. 367
37.Bri
149^
43.065
3o.EE9
62.209
!_• D ( 1 w .
lr'D^V^
PP-'
^ic
432
t-~
p,.
1*0^:
1495
1554
<7?2-
F-2
-------
Appendix G.
Bodenseewerk Operation Procedures
-------
BODENSEEWERK OPERATIONAL PROCEDURES
The entire Bodenseewerk sampling and analytical system is heated to
maintain a sample gas temperature of 180°C (356°F). When the analyzer is
turned on, a warm-up period of 1 hour is necessary for all the temperatures
(probe, sample transport line, pump, and sample cell) to reach their set
points and stabilize. A microprocessor monitors the system's parameters; at
the conclusion of the warm-up period, the system is ready for calibration.
The Model 677 employs zero air and an internal sealed gas cell for zero
and upscale calibration checks. The monitoring system is also capable of
accepting calibration gas; the gas injection point is located at the probe.
The probe also is backflushed with compressed air during the calibration
sequence.
The operator can program the time intervals desired for the automatic
calibrations performed using zero air and the internal calibration cell. The
duration of the calibration cycle is also selected by the operator. First,
the entire sampling system is flushed with zero air to achieve a zero
condition. Any drift that may be detected then is corrected by the zero
compensation circuit. Then, while the zero air is still flowing through the
system, a gas cell filled with a known quantity of HC1 gas is positioned so
that the infrared light passes through the gas cell. After the response to
the gas cell is recorded, the analyzer returns to the flue gas sampling mode.
A dynamic calibration of the system is possible by putting the analyzer
in the "standby" mode, and replacing the zero air delivery line connected to
the probe with a calibration gas transport line. A flowmeter within the
analyzer cabinet indicates the rate of sample flow exiting the optical cell.
The flow rate of the calibration gas through the system can be observed using
that flow meter, and should be identical to the flow rate when sampling flue
gas. The cylinder regulator should be adjusted to deliver the proper flow.
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G-2
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Appendix H.
Thermo Electron Operation Procedures
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THERMO ELECTRON OPERATIONAL PROCEDURES
Prior to calibration of the system, it should be ascertained that the
analyzer is operating properly. A check of the internal diagnostics will
indicate if the condition of any component may require that corrective action
be performed, i.e., an element needs to be checked, cleaned, or replaced if
found to be defective.
When the power is turned on, the .analyzer automatically enters the
start-up mode: the source turns on, all electronics are turned on, the
chopper motor and sample pump turn on, the heater in the pressure transducer
turns on, and the program initializes itself. After the source stabilizes,
the instrument automatically goes into the "Run - Sample" mode. The analyzer
should be allowed to warm-up for one hour, then the instrument service checks
should be performed.
When calibrating the instrument, three thumbwheel switches are used to
set the zero reading of the instrument. There are also three thumbwheel
switches available to set the instrument to the concentration of an upscale
calibration gas. If the instrument is zeroed first, use of the span switches
will not affect the zero setting.
A th-ree-position switch located on the front panel of the M200 probe
control unit is used to manually select flue gas sample, zero air, or
calibration gas flow through the sampling system. The two flow meters
visible through the front panel indicate zero air or span gas flow when in
the calibration mode. A vacuum gauge indicates the vacuum at the probe
downstream of the orifice. The dilution air and zero air gauges and
regulators are located behind the front panel.
The calibration checks can be performed both on the analyzer and the
entire monitoring system. The zero and upscale calibration gases .can be
injected directly into the analyzer, and the zero and span controls can be
adjusted to establish the instrument's calibration. Calibration of the total
monitoring system is performed by the injection of zero and calibration gas
through a transport line to a point within the probe, upstream of the
critical orifice. In this way. the calibration gas follows the same path
.through all the conditioning steps (i.e., filtering and dilution) taken by
the flue gas sample.
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Appendix I.
LSI Operation Procedures
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LEAR SIEGLER OPERATIONAL PROCEDURES
Operation of the TGM 555 consists of three steps: (1) pumping reagents
through the system, (2) zeroing the unit, and (3) properly calibrating the
unit.
Attach the zero gas filter to the sample gas inlet to generate "zero air"
for establishing a zero baseline. The pump tubes are placed in position
around the reagent pump rollers. Turn on the analyzer power and activate air
and reagent pumps. The reagent feed lines are placed into distilled water to
observe the liquid flow within the unit. Once it is determined that all the
liquid flows are normal, the reagent feed lines are placed into the
appropriate reagents.
The air sampling flow rate is determined by attaching the supplied flow
meter to the sample inlet and adjusting the flow rate to achieve 0.25 1/min
when the analyzer operating range is 0-50 ppm (dry basis).
The analyzer should sample zero air for 30 minutes. After the unit has
stabilized, the zero control is adjusted if necessary to give a readout of
zero. Then a calibration gas is injected. After the reading stabilizes,
adjust the span control to give the proper readout. The analyzer is
non-linear; therefore, several calibration gas concentrations must be used to
establish a calibration curve.
It is possible to prepare and utilize liquid standards containing the
same species that undergoes the actual reaction. In the analysis of HC1, it
is the chloride ion (Cl ) that actually reacts with the reagent so that an
exact known concentration of any chloride salt can be prepared as a
standard. If the gas sample flow rate, absorption efficiency of the
scrubber, and the exact liquid standard flow rate are known, then a liquid
standard value can be expressed as an equivalent gaseous standard.
After the unit has been calibrated, the analyzer is prepared to sample
flue gas.
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COMPUR OPERATIONAL PROCEDURES
The^probe may be installed up to a distance of 65 feet from the control
unit. (At distances greater than 65 feet, the dilution ratios provided by
Compur at the various aspirator air pressures measured at the control unit
cannot be used, due to the probable pressure drop through the longer length
of transport tubing. The dilution ratio should be checked using non-reactive
calibration gases and an appropriate, independent analyzer.) Dry controlled
air at a pressure greater than 90 psi is necessary for aspirator air and zero
air. The aspirator air pressure is adjusted to between 40 and 80 psi with
the aid of a pressure regulator and gauge located on the front panel of the
probe control unit. The pressure is chosen depending on the desired dilution
ratio. The vacuum gauge must indicate a pressure between -7 and -9-5 psi in
order for the orifice to operate within the critical region.
The entire measurement system, including both the sampling and analytical
equipment, can be calibrated by injecting calibration gas into the chamber
within the dilution probe between the inlet filter and the orifice.
Compressed air injected in the same manner serves not only to produce a zero
condition, but also to back flush the probe tip filter.
A three-way valve serves to select zero gas or calibration gas. The
delivery pressure at the regulator connected to the calibration gas cylinder
is to be adjusted to 15 psi in order to provide sufficient flow to the probe.
Since the dilution probe supplies approximately 33 1/min diluted sample
and the analyzer uses only 7 1/min, a "tee" must be mounted on the sample
line to exhaust the excess sample flow.
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