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A power and thermal management system for long endurance hypersonic vehicle

Liang Guo, Liping Pang, Xiaodong YANG, Jingquan Zhao, Desheng Ma

2022Chinese Journal of Aeronautics56 citationsDOIOpen Access PDF

Abstract

Due to the pneumatic heating and combustion effect, the scramjet engine of hypersonic vehicle faces high temperature challenge. It is necessary to comprehensively consider its thermal management and power generation together. A new Power and Thermal Management System (PTMS) combined with Supercritical Carbon Dioxide (SCO2) closed Brayton cycle and fuel vapor turbine is proposed and discussed in this paper. The new PTMS can meet the cooling requirement of hypersonic vehicle at Mach number 6–7, and avoid the coking and scrapping in the scramjet cooling channels. Compared with the PTMS only based on fuel vapor turbine, the new PTMS utilizes the waste heat of scramjet to generate more electricity. In addition, it can reduce the use of fuel sink for cooling, and the additional weight penalty can be compensated for long endurance hypersonic flight.

Topics & Concepts

ScramjetHypersonic speedBrayton cycleAutomotive engineeringAerospace engineeringCombustorEngineeringAerodynamic heatingTurbineCombustionHeat transferThermodynamicsChemistryOrganic chemistryPhysicsHeat transfer and supercritical fluidsRocket and propulsion systems researchComputational Fluid Dynamics and Aerodynamics
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