Abstract
Multi-dimensional simulations of turbulent flow in a pulse combustor tail pipe were performed using the methodology of computational fluid dynamics (CFD) analysis. The flow in a pulse combustor tail pipe is complicated by periodic reversals amid large rates of convective heat transfer from the walls. The performance and limitations of two conventional quasi-steady near-wall turbulence models in predicting the wall heat transfer are presented. Within the context of a CFD-methodology, a flow-based near-wall turbulence model is proposed. Its capability for predicting heat transfer under oscillatory flow conditions is discussed.
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