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W2591566332 endingPage "612" @default.
W2591566332 startingPage "599" @default.
W2591566332 abstract "A conventional and advanced exergy analysis of an aircraft turboprop engine is presented in this paper. In this framework, the main exergy parameters of the engine components are introduced while the exergy destruction rates within the engine components are split into endogenous/exogenous and avoidable/unavoidable parts. Also, the mutual interdependencies among the components of the engine and realistic improvement potentials depending on operating conditions are acquired through the analysis. As a result of the study, the exergy efficiency values of the engine are determined to be 16.63% at real case and 17.13% at unavoidable case, respectively. The system has low improvement potential because the unavoidable exergy destruction rate is 94%. The relationships between the components are weak since 86% of the exergy destruction is endogenous. Finally, it may be concluded that the air compressor, combustion chamber and power turbine components of the engine should be focused on according to the results obtained." @default.
W2591566332 created "2017-03-03" @default.
W2591566332 creator A5003798875 @default.
W2591566332 date "2017-04-01" @default.
W2591566332 modified "2023-09-24" @default.
W2591566332 title "Advanced exergy analyses of an aircraft turboprop engine (TPE)" @default.
W2591566332 cites W1006438586 @default.
W2591566332 cites W1964703701 @default.
W2591566332 cites W1965599544 @default.
W2591566332 cites W1967031160 @default.
W2591566332 cites W1969492292 @default.
W2591566332 cites W1970295944 @default.
W2591566332 cites W1973440335 @default.
W2591566332 cites W1981942503 @default.
W2591566332 cites W1984791598 @default.
W2591566332 cites W1991654356 @default.
W2591566332 cites W1992454620 @default.
W2591566332 cites W1994857013 @default.
W2591566332 cites W1995951980 @default.
W2591566332 cites W1997534400 @default.
W2591566332 cites W2002899399 @default.
W2591566332 cites W2004350053 @default.
W2591566332 cites W2004491746 @default.
W2591566332 cites W2007314824 @default.
W2591566332 cites W2010083434 @default.
W2591566332 cites W2012171217 @default.
W2591566332 cites W2014284195 @default.
W2591566332 cites W2030951846 @default.
W2591566332 cites W2031616607 @default.
W2591566332 cites W2032650789 @default.
W2591566332 cites W2033084381 @default.
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W2591566332 cites W2044654167 @default.
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W2591566332 cites W2052720352 @default.
W2591566332 cites W2065781345 @default.
W2591566332 cites W2065977640 @default.
W2591566332 cites W2071428820 @default.
W2591566332 cites W2071946426 @default.
W2591566332 cites W2072533192 @default.
W2591566332 cites W2072655830 @default.
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W2591566332 cites W2137444523 @default.
W2591566332 cites W2138848931 @default.
W2591566332 cites W2142165476 @default.
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W2591566332 doi "https://doi.org/10.1016/j.energy.2017.02.121" @default.
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