Fengli Wang, Mouwei Li, Yanqiu Zhao, and Fengfu Yin, Numerical simulation of circular jet impinging on hot steel plate, J. Univ. Sci. Technol. Beijing, 9(2002), No. 4, pp. 262-264.
Cite this article as:
Fengli Wang, Mouwei Li, Yanqiu Zhao, and Fengfu Yin, Numerical simulation of circular jet impinging on hot steel plate, J. Univ. Sci. Technol. Beijing, 9(2002), No. 4, pp. 262-264.
Fengli Wang, Mouwei Li, Yanqiu Zhao, and Fengfu Yin, Numerical simulation of circular jet impinging on hot steel plate, J. Univ. Sci. Technol. Beijing, 9(2002), No. 4, pp. 262-264.
Citation:
Fengli Wang, Mouwei Li, Yanqiu Zhao, and Fengfu Yin, Numerical simulation of circular jet impinging on hot steel plate, J. Univ. Sci. Technol. Beijing, 9(2002), No. 4, pp. 262-264.
Flow structure and heat transfer characteristics of an axisymmetric circular jet impinging on a hot 1Cr18Ni9Ti medium plate have been simulated numerically using computational fluid dynamic (CFD) code. The relation between flow field of jet impingement and its heat transfer capability is analyzed, and the phenomenon that heat transfer at stagnation point is smaller than that of points directly around is discussed. The simulation result provides boundary conditions for thermalanalysis of medium plate quenching.
Flow structure and heat transfer characteristics of an axisymmetric circular jet impinging on a hot 1Cr18Ni9Ti medium plate have been simulated numerically using computational fluid dynamic (CFD) code. The relation between flow field of jet impingement and its heat transfer capability is analyzed, and the phenomenon that heat transfer at stagnation point is smaller than that of points directly around is discussed. The simulation result provides boundary conditions for thermalanalysis of medium plate quenching.