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Numerical investigation of the impact of asymmetric fuel injection on shock train characteristics
Authors:Bin Qin  Juntao Chang  Xiaoliang Jiao  Wen Bao  Daren Yu
Affiliation:1. School of Energy Science and Engineering, Harbin Institute of Technology, Heilongjiang Province, Harbin 150001, China;2. Academy of Fundamental and Interdisciplinary Sciences, Harbin Institute of Technology, Heilongjiang Province, Harbin 150001, China
Abstract:Numerical simulations are carried out to investigate the impact of asymmetric fuel injection on shock train characteristics using the commercial-code FLUENT. The asymmetry of fuel injection is examined by changing the fuel flow rates of the upper and lower wall fuel injectors. The numerical approach solves the two-dimensional Reynolds-averaged Navier–Stokes (RANS) equations, supplemented with a k-ω model of turbulence. As a result, different ways of fuel injections will always lead to shock train transitions, with the variations of shock train structure, strength and leading edge position. For symmetric fuel injection, the flowfield of the isolator is quite asymmetric with the boundary layer of the upper wall side developing much stronger than that of the lower wall, which is due to the heterogeneity of the incoming flow. Regarding to asymmetric fuel injection with more of lower wall side, though the pressures in the combustor are nearly the same, the first shock of the shock train converts between ‘Distinct symmetric X type shock’ and ‘Obscure and weaker asymmetric shock’ and the shock train leading edge moves upstream with the increase of the asymmetry level. With regard to asymmetric fuel injection with more of upper wall side, ‘incomplete asymmetric X type shock’ occurs and the shock train structures keep nearly the same with low level of fuel injection asymmetry. Unexpected results like unstart will happen when increasing the level of fuel injection asymmetry. And the isolator will come back to normal state by decreasing the differential of upper and lower wall sides fuel injections.
Keywords:Asymmetric fuel injection   Shock train   Isolator   Boundary layer
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