关键词: 涡流燃烧室;数值仿真;传热;耦合

Abstract: For the vortex cold-wall combustor, its working process including inner flowfield, combustion, and heat transfer between flow and structure was simulated by a coupling method. RNG k-ε turbulence model, P1 radiation heat transfer model, and the finite rate reaction model were used in the numerical simulation. The temperature distribution of the structure of the test thruster within 20 seconds was obtained. Temperature of head and side wall increases rapidly and soon tend to be stable within 4 seconds. Under the protection of the vortex of the cool oxidant, the maximum temperature of side wall is about 650K and highest temperature of head wall is under 785K. The temperature of the heat sink nozzle increases linearly and slowly, fulfilling the testing requirement.

Key words: Vortex cold-wall thruster; Numerical simulation; Heat transfer; Coupling