Abstract
The purpose of this paper is to estimate the quantity and quality of the useful energy that could be converted to work, this analysis was carried out based on the energy and exergy analysis by using the first and second laws of thermodynamics. This paper study the effect of varying the ambient temperature on the performance of the turbine. Results showed increasing in exergy destruction in the turbine solely and in each of its three components(Air compressor, Combustion chambers and the gas turbine) with increasing in ambient temperature. Also results showed by keeping the load unchanged, the exergy destruction are bigger in higher ambient temperatures than in lower ones. The exergy destruction concentrated in the combustion chambers, where the percent of exergy destruction in the combustion chambers to the total exergy destruction in the plant was(87%) followed by the air compressor(9%) and the lower exergy destruction was in the gas turbine(4%).
Highlights
[9] Ibrahim, Thamir K., et al "Thermal performance of gas turbine power plant based on exergy analysis." Applied Thermal Engineering 115 (2017): 977-985
The purpose of this paper is to estimate the quantity and quality of the useful energy that could be converted to work, this analysis was carried out based on the energy and exergy analysis by using the first and second laws of thermodynamics
This paper study the effect of varying the ambient temperature on the performance of the turbine
Summary
[9] Ibrahim, Thamir K., et al "Thermal performance of gas turbine power plant based on exergy analysis." Applied Thermal Engineering 115 (2017): 977-985. Exergy destruction calculation in gas turbine power plant and showing the effect of ambient temperature on it
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