From the perspective of an overall entity we analyzed the performance obtainable from the adoption of an intercooled-cycle gas turbine under different typical cycle parameters of a gas turbine. On this basis, a study was conducted of the conversion of a high-power simple-cycle marine gas turbine (MGT-33) into a type of intercooled-cycle marine gas turbine. The precondition of the conversion is to keep the flow path and the majority of the structure of the original engine gas generator unchanged in order to inherit the reliability of the prototype machine. The results of the study indicate that after the adoption of an intercooled cycle under the precondition of performing minimum structure modifications and maintaining the compactness of the engine as a whole, there is still a significant enhancement of the gas turbine overall performance with its power output and efficiency being increased by about 34% and 4.1%, respectively, demonstrating the merits of the engineering conversion under discussion.
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March 2008
Research Papers
Feasibility Study of an Intercooled-Cycle Marine Gas Turbine
Wen Xue-you,
Wen Xue-you
Harbin Marine Boiler and Turbine Research Institute
, No. 108 Hongqi Avenue Harbin China, Harbine, Heilongjiang 150036, China
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Xiao Dong-ming
Xiao Dong-ming
Harbin Marine Boiler and Turbine Research Institute
, No. 108 Hongqi Avenue Harbin China, Harbine, Heilongjiang 150036, China
Search for other works by this author on:
Wen Xue-you
Harbin Marine Boiler and Turbine Research Institute
, No. 108 Hongqi Avenue Harbin China, Harbine, Heilongjiang 150036, China
Xiao Dong-ming
Harbin Marine Boiler and Turbine Research Institute
, No. 108 Hongqi Avenue Harbin China, Harbine, Heilongjiang 150036, ChinaJ. Eng. Gas Turbines Power. Mar 2008, 130(2): 022201 (6 pages)
Published Online: March 4, 2008
Article history
Received:
April 28, 2007
Revised:
June 6, 2007
Published:
March 4, 2008
Citation
Xue-you, W., and Dong-ming, X. (March 4, 2008). "Feasibility Study of an Intercooled-Cycle Marine Gas Turbine." ASME. J. Eng. Gas Turbines Power. March 2008; 130(2): 022201. https://doi.org/10.1115/1.2799526
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