ABSTRACT
This paper describes a real-time performance monitoring method based on PTC 4-2013 for determining instantaneous heat rate for coal-fired power plants. The calculation protocol uses a modified output-loss approach applied to a control volume that closely conforms to the boiler. The largest energy balance term is the heat transfer rate to the steam, which is known accurately in real-time when the plant employs properly calibrated instrumentation. The first-law energy balance also requires a balanced combustion equation which depends on coal composition, which is not known in real-time. A periodic or alert-driven calibration utilizes an ultimate analysis of a carefully collected coal sample and historic plant data obtained during the collection time of the coal sample.
This is used to calculate correction factors for the coal mass flow rate, air preheater leakage, and CO2 and SO2 concentrations at the economizer exit derived from continuous emissions monitoring systems (CEMS) measurements performed at that location. The iterative calculations required to determine the coal composition in real-time are presented. The real-time performance algorithm exhibited significant sensitivity associated with measurements of the steam heat transfer rate, which was the dominant term in the overall boiler energy balance. Other input parameters generally yielded much lower influence on calculated heat rate. It was concluded that for optimal accuracy of the output-loss method the steam and coal mass flow rates must be measured as accurately as possible.
AUTHORS
- Joseph M. Staller
- Stephen Idem, Ph.D.
- Sastry Munukutla, Ph.D.
- Keith Kirkpatrick, Ph.D.
- Dudley Benton, Ph.D.
- Susan Eisenstadt, P.E.
- Karsten Kopperstad
- Seth Leedy
- Joe McHale, P.E.
- Anthony Licata
- Dan Andrei
FULL VERSION
A Real-Time Output-Loss Method for Monitoring Heat Rate for Coal-Fired Power Plants