Model calculation of heat transfer coefficient of quenched cooling under jet impingement plate

The quenched cooling heat transfer process of the thick plate by multi-nozzle jet impinging is extremely complicated, thus it is difficult to establish a model of the surface heat transfer coefficient distribution, which reveals the speed of the heat transfer on the jet impinging surface. In this paper, the mathematical model of multi-nozzle jet simultaneously impinging quenched cooling has been established, coefficient distribution law at the stagnation and turbulent zone has been calculated by actual measurement of the cooling curve and has been verified based on the ABAQUS simulation software. The results show that the coefficient distribution at the stagnation and turbulent zone is uneven over time, and the peak appeared within 10 to 20 seconds, and then comes to the variation of the next waves. The actual measurement(or calculation) of the cooling curves at the sample's center and surface is at a very good match state with that of simulation, therefore it verifies the heat transfer coefficient distributi