2004
DOI: 10.1016/j.apenergy.2004.02.007
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Utilization of the cryogenic exergy of LNG by a mirror gas-turbine

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Cited by 52 publications
(18 citation statements)
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“…Air cooling capacity and power augmentation for a combined cycle system are demonstrated as a function of the ambient temperature and humidity in their research, while the corresponding increase in power is larger than 8% on average if the humidity is low enough for warm ambient air and water vapour in the air does not condense. As a special Brayton cycle the mirror gas turbine (MGT) method is introduced recently to recycle the cold exergy of LNG [31]; see Fig. 5 (b) where the cold released from LNG is used to cool the exhaust gas from a turbine to increase the output work of the turbine and part of the cold exergy from LNG is transformed to decrease the compression work.…”
Section: Indirect Brayton Cycle Methodsmentioning
confidence: 99%
“…Air cooling capacity and power augmentation for a combined cycle system are demonstrated as a function of the ambient temperature and humidity in their research, while the corresponding increase in power is larger than 8% on average if the humidity is low enough for warm ambient air and water vapour in the air does not condense. As a special Brayton cycle the mirror gas turbine (MGT) method is introduced recently to recycle the cold exergy of LNG [31]; see Fig. 5 (b) where the cold released from LNG is used to cool the exhaust gas from a turbine to increase the output work of the turbine and part of the cold exergy from LNG is transformed to decrease the compression work.…”
Section: Indirect Brayton Cycle Methodsmentioning
confidence: 99%
“…There have been a lot of researches focusing on improving the efficiency of the power generation cycles, and many advanced power generation cycles utilizing LNG cold energy were proposed. In this review, only the researches after the year of 2010 is discussed, and some previous research can be referred to (Griepentrog et al, 1976;Angelino et al, 1978;Krey, 1980;Najjar et al, 1991;Najjar et al, 1993;Wong, 1994;Kim et al, 1995;Chiesa et al, 1997;Hisazumi et al, 1998;Miyazaki et al, 2000;Deng et al, 2004;Kaneko et al, 2004;Wang et al, 2004;Zhang et al, 2006;Shi et al, 2007;Bai et al, 2008;Lu et al, 2009;Shi et al, 2010;Tsatsaronis et al, 2010).…”
Section: Recent Advanced Power Generation Cycles Using Lng Cold Energymentioning
confidence: 99%
“…They analyzed the influences of key parameters on thermal efficiency and exergy efficiency of the cascading power cycle. Kaneko et al [3] proposed a new kind of combined cycle consisting of a conventional gas turbine worked as a topping cycle and an inverted Brayton cycle as a bottoming cycle used to recover the cold energy consumed in liquefaction of natural gas. The feasibility study of using inlet air cooling by virtue of the cold energy of LNG to enhance power output of gas/steam combined cycle power plants during warm seasons was studied by Kim and Ro [4].…”
mentioning
confidence: 99%