- •5.3 Test Instructions
- •Table of Allowable Rapid Fluctuations of Certain Key Measurements.
- •5.5.6 Data Verification
- •5.6 Results
- •5.7 Analysis
- •5.7.1 Method of Trending Results
- •5.8 Report
- •HP / IP Turbine Efficiency Test
- •Typical Control Room Data Sheet
- •Point ID
- •Condenser
- •Annexure - I
- •CONDENSER DESIGN DATA
- •Annexure - II
- •TEST READINGS
- •Annexure - III
- •TYPICAL CONTROL ROOM READINGS
- •UNITS
- •kcal/hr
- •3.0 Working And Test Set Up
- •TEST ENGINEER (TE):-----------------------------------------
- •ENGINEERING REVIEW
- •PERSONNEL REQUIRED
- •TEST CREW ORIENTATION
- •REFERENCE DRAWINGS
- •LEAK DETECTOR OPERATION
- •TEST LOG
- •ACCESSIBILITY
- •CONTROL ROOM / UNIT DATA
- •LIST OF INSTRUMENTS & ACCESSORIES REQUIRED FOR AIR-IN-LEAK TEST
- •L. P. Turbine
- •*Total time from leak sensing by instrument to retrieval to zero (0)
- •Unit
- •LOW FEED WATER TEMPERATURE
- •EXCESSIVE MAKEUP
- •HIGH WATER LEVEL
- •EXCESSIVE NUMBER OF TUBES PLUGGED
- •HIGH DRAIN COOLER APPROACH TEMPERATURE (DCA)
- •DRAIN COOLER INLET NOT SUBMERGED
- •IMPROPER SETTING
- •EXCESSIVE TUBE BUNDLE PRESSURE DROP
- •HP Heater Test Data
- •Control Room Readings
- •FAULT TREE
- •LP Heater Test Data
- •Control Room Readings
- •FAULT TREE
- •LOW FEED WATER TEMPERATURE
- •EXCESSIVE MAKEUP
- •WORN VENT
- •HIGH WATER LEVEL
- •TUBE LEAKES
- •HEADER PARTITION LEAKS
- •EXCESSIVE NUMBER OF TUBES PLUGGED
- •HIGH DRAIN COOLER APPROACH TEMPERATURE (DCA)
- •DRAIN COOLER INLET NOT SUBMERGED
- •IMPROPER SETTING
- •EXCESSIVE TUBE BUNDLE PRESSURE DROP
- •EXCESSIVE NUMBER OF TUBES PLUGGED
- •Unit
- •BFP Test Data
- •Typical Control Room Readings
- •Boiler Feed Pump A / B / C
- •Typical DAS Readings
- •Description
- •CONTENTS
- •1.0 Introduction
- •3.1 Process Description
- •4 References
- •4.1 ASME Performance Test Code 4.2 – 1969, Coal Pulverizers
- •5 Prerequisites
- •(A clean air test is performed with the primary air to the mill at full load normal conditions with the mill out of service (normal primary airflow, no fuel flow)).
- •Avg. Velocity
- •6.4 Isokinetic Coal Sampling
- •4.5.2 Unburned in Flyash at Economizer Outlet
- •Summary
- •Dry Gas Loss
- •Gas Temp Leaving AH - Corr. to Design Ambient
- •OBJECTIVE : Determine the amount of Power being consumed by the primary plant equipment.
- •TEST ENGINEER (TE):
- •REFERENCE: ASME PTC 19.6-1955 and TVA Proc. No. TS/PERF/RTST/FOS/16.0
- •BILL OF MATERIALS
- •BILL OF MATERIALS
- •Note: Quantities to be decided as per the requirement
- •2.4 PORTABLE DATA ACQUISITION SYSTEM
- •BILL OF MATERIAL
- •Acquisition
- •EQUIPMENT: Thermocouple wire for flue gas temperature measurement
- •2.9 HIGH VELOCITY THERMOCOUPLE (HVT) PROBE
- •2.11 HIGH VOLUME FLYASH SAMPLER
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Protection, NOIDA |
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CENPEEP/EFF/TP/302 |
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TITLE |
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Rev. 1 /EMS |
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CENPEEP |
Condenser Performance Test |
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Issue Date: 20/04/2000 |
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Page: 18 |
OF 22 |
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TEST READINGS |
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Annexure - II |
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Station: ...................... |
Unit: ................ |
Test Date: .................. |
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S No. |
DESCRIPTION |
TEST READINGS |
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REMARKS |
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UNITS MAN./ |
Set-I |
Set-II |
Set-III |
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AUTO |
Time |
Time |
Time |
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1. |
CW Inlet Temp(Left) |
0C |
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2. |
CW Inlet Temp(Right) |
0C |
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3. |
CW Outlet Temp(Left-1) |
0C |
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4. |
CW Outlet Temp(Left-2) |
0C |
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5. |
CW Outlet Temp(Left-3) |
0C |
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6. |
CW Outlet Temp(Left-4) |
0C |
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7. |
CW Outlet Temp(Right- |
0C |
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1) |
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0C |
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8. |
CW Outlet Temp(Right- |
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2) |
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0C |
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9. |
CW Outlet Temp(Right- |
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3) |
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0C |
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10. |
CW Outlet Temp(Right- |
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4) |
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0C |
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11. |
Condensate Temp(Left) |
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12. |
Condensate Temp(Right) |
0C |
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13. |
Air/Steam Temp(Left)* |
0C |
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14. |
Air/Steam Temp(Right)* |
0C |
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15. |
Cond Vacuum (Left) |
mmHg |
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16. |
Cond Vacuum (Right) |
mmHg |
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17. |
Water Box Diff(Left)* |
kg/cm2 |
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18. |
Water Box Diff(Right)* |
kg/cm2 |
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Note : * These readings are not required for performance calculations but needed for diagnosis of deviations/condenser performance problems.