The steam-tube and air heater combined cycles utilizing pressurized fluidized bed combustion have been proposed for coal-fired power generation because of their potentially high efficiency and low levels of pollutant emissions. Thermodynamic models have been developed and used to predict the performance of both cycles. The intercooled steam–tube cycle was found to be the most efficient cycle with an efficiency approximately 1.5 percentage points higher than a conventional plant with flue gas desulphurization.
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References
1.
AnastasiouR.A thermodynamic analysis of several pressurized fluidized bed combined cycle power generation systems. MASc thesis, University of British Columbia, 1983.
2.
PillaiK. K.Combined cycle power plant utilizing pressurized fluidized-bed coal combustors. International Conference Combustion Engineering, Vol. 2, 1983, pp 121–128.
3.
GravesR. L.Effect of pressure and turbine inlet temperature on the efficiency of PFB power plants. ASME Paper No. 80-GT-102, 1980.
4.
BordenM.RubowL. N.GeffkenJ.A first generation PFBC power plant using turboexpanders. Seventh international conference on fluidized bed combustion, 1982.
5.
MoskovitzS.WalkerW.Status report of the Wood-Ridge PFB pilot plant. Seventh international conference on fluidized bed combustion, 1982.
6.
WickstromB. Personal communication. Stal Laval Turbin AB, 1983.
7.
SmithR. W. Personal communication, General Electric, 1983.
8.
MoskovitzS.Design and construction of a pressurized fluidized bed pilot electric plant. Seventeenth intersociety energy conversion engineering conference, 1982 (Instn. Elect. and Electronic Engrs).