Unified approach for conjugate heat-transfer analysis of high speed air flow through a water-cooled nozzle

Abstract: This article presents a unified approach to solve steady-state conjugate heat-transfer problem including simultaneously gas, liquid and solid regions in just one 3D domain, distinguished by their particular properties. This approach reduces approximation errors and the time to solve the problem, which characterise iterative methods based on separated domains. The formulation employs RANS equations, realisable k-ε turbulence model and near-wall treatment model. A commercial CFD code solves the pressure-based se… Show more

“…As one of the classic examples of coupled heat transfer, many researchers have calculated this case. Some researchers used empirical formulas to consider the effect of cooling water boiling on heat transfer at the wall [41], while others ignored the effect of local boiling [42]. From the results of these researchers, it can be seen that the influence of local boiling on the calculation results is not significant.…”

A Coupled Heat Transfer Calculation Strategy for Composite Cooling Liquid Rocket Engine

“…As one of the classic examples of coupled heat transfer, many researchers have calculated this case. Some researchers used empirical formulas to consider the effect of cooling water boiling on heat transfer at the wall [41], while others ignored the effect of local boiling [42]. From the results of these researchers, it can be seen that the influence of local boiling on the calculation results is not significant.…”

A Coupled Heat Transfer Calculation Strategy for Composite Cooling Liquid Rocket Engine