In the present paper. a mathematical model of a combustion steam generator is presented. The model of power plant was implemented using GE GateCycle code. The effects of Over Fire Air and Reburning combustion techniques on the plant performance were studied using from both theoretical and experimental approach. Experimental data were studied and represented depending on the combustion parameters. Moreover. a numerical model of the steam generator and of the power plant was developed in order to predict the global plant performance. Simulation results of showed a good accuracy between experimental and theoretical data particularly in terms of reduction of thermal specific fuel consumption.

Steam generator performance by means of Over Fire Air and Reburning techniques

Monforte P.
2017-01-01

Abstract

In the present paper. a mathematical model of a combustion steam generator is presented. The model of power plant was implemented using GE GateCycle code. The effects of Over Fire Air and Reburning combustion techniques on the plant performance were studied using from both theoretical and experimental approach. Experimental data were studied and represented depending on the combustion parameters. Moreover. a numerical model of the steam generator and of the power plant was developed in order to predict the global plant performance. Simulation results of showed a good accuracy between experimental and theoretical data particularly in terms of reduction of thermal specific fuel consumption.
Over Fire Air
Overall efficiency
Power plants
Reburning
Steam generators
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.11769/542632
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