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Volume 35 Issue 11
Nov.  2009
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Journal of Beijing University of Aeronautics and Astronautics  > 2009  >  35(11): 1353-1356.
Gao Feng, Yuan Xiugan. Fuel thermal management system of high performance fighter aircraft[J]. Journal of Beijing University of Aeronautics and Astronautics, 2009, 35(11): 1353-1356. (in Chinese)
Citation: Gao Feng, Yuan Xiugan. Fuel thermal management system of high performance fighter aircraft[J]. Journal of Beijing University of Aeronautics and Astronautics, 2009, 35(11): 1353-1356. (in Chinese)
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Fuel thermal management system of high performance fighter aircraft

  • School of Aeronautic Science and Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100191, China

  • Received Date: 08 Dec 2008
  • Publish Date: 30 Nov 2009
    Abstract
  • For improving the character of high-performance fighter aircraft, fuel thermal management system (FTMS) was put forward. FTMS uses fuel as the main heat sink of environmental control system (ECS) and other systems which need to be cooled. Thermal management system of F-22 fighter aircraft is a typical applied case. Taking F-22 FTMS as an original version, the research method of thermal management system were analyzed. By using MATLAB simulation tools and S-function, static simulation and dynamic simulation modules of the system components were built up in order to get the simulation platform of FTMS. This platform could estimate the system performance and the fuel penalties. The simulation results show that FTMS can work better than the air cycle system (ACS) and satisfy the needs of high-performance fighter aircraft. FTMS will be one of the options for designing thermal management system of high-performance fighter aircraft.

     

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    • References(1)
  • [1] Tipton R, Figliola R S, Ochterbeck J M. Thermal optimization of the ECS on an advanced aircraft with an emphasis on system efficiency and design methodology .SAE-971241, 1997 [2] Huang H, Spadaccini L J, Sobel D R. Fuel cooled thermal management for advanced aeroengines[J].J Eng Gas Turbines Power, 2004,126 (2) : 284 293 [3] Lui C W, Lee C K, Schwan E. Integrated environmental control system and liquid cooling system for F/A-18E/F aircraft .SAE-951400, 1995 [4] Sprouse J G. F-22 environmental control/thermal management system (ECS/TMS) design optimization for reliability and integrity—a case study .SAE-961339, 1996 [5] Ashford R, Brown S. F-22 environmental control/thermal management system (ECS/TMS) flight test program—downloadable constants, an innovative approach .SAE-2000-01-2265, 2000 [6] Sprouse J. F-22 environmental control/thermal management fluid transport optimization .SAE-2000-01-2266, 2000 [7] Sprouse J. F-22 ECS/TMS qualification test program overview .SAE-972261, 1997 [8] Letlow J T, Jenkins L C. Development of an integrated environmental control system .SAE-981544, 1998 [9] Brown D, Squier S, Smith G. Integrated thermal energy management(I-TEM)—an evaluation tool for aircraft .SAE-932577, 1993 [10] Matulich D. High-temperature bootstrap compared with F-15 growth air cycle air conditioning system .SAE-891436,1989
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