About Numerical Heat Transfer Part B-Fundamentals Published monthly, this journal addresses all aspects of the methodology for the numerical solution of problems in heat and mass transfer as well as fluid flow. The journal"s scope also encompasses modeling of complex physical phenomena that ...
数值传热 A 部分-应用(Numerical Heat Transfer Part A-applications)是一本由Taylor and Francis Ltd.出版的一本工程技术-力学学术刊物,主要报道工程技术-力学相关领域研究成果与实践。本刊已入选来源期刊,该刊创刊于1989年,出版周期Semimonthly。2021-2022年最新版WOS分区等级:Q2,2023年发布的影响因子为2.8,CiteScore...
2018 Impact Factor:1.953 研究方向: 工程与材料 工程热物理与能源利用 传热传质学 #2 作者:stardust111 (联系作者 | 作者点评过的期刊) 时间:2015-12-13 21:15 纠错举报 对我有帮助 16 在numerical heat transfer上的第二篇文章录用。 这次直接发的邮件,主编第二天就给了文章号。 then, 审稿,修改...
The most dominant impact of the radiative heat transfer on soot formation is visible at the crank angles, where peak temperatures occur. The performed parameter study of the piston and head wall emissivity values showed a reduction in mean in-cylinder pressure and NO mass fraction for a less ...
C. Mishra, Thermal Analysis of the Increasing Subcutaneous Fat Thickness Within the Human Skin - A Numerical Study, Num. Heat Transfer A, vol. 67, pp. 313-329, 2015.Bhowmik, A., Repaka, R., Mishra, S.C., 2015b. Thermal analysis of the increasing subcutaneous fat thickness within the...
Heat transfer — a review of 1996 literature International Journal of Heat and Mass Transfer Journal2000, International Journal of Heat and Mass Transfer E.R.G. Eckert, ... U. Kortshagen Numerous papers appear in this category dealing with closed form solutions, analytic approximation, numerical ...
Fluid flow and heat transfer in porous media are common phenomena in various scientific and industrial applications, including subsurface carbon ...
culation has a very large impact on the heat rejection rate of the ACSC due to the existence of the main factory building [10]. They found that the factory building located at the windward side of the ACSC could generate large eddies with low pressure between the factory building and ...
First, we concentrate on the effects of temperature-dependent fluid viscosity on velocity distribution and heat transfer. From Fig. 2.1(a), it is noted that the velocity field is found to decay with the increasing value of η for all the values of A considered. Fluid velocity is found to ...
It can be concluded that a porous structure improves heat transfer efficiency when liquid is in an unboiled state. However, recent research does not take into account the operating conditions and bubble behaviors for two-phase immersion cooling. From the above analysis, immersion cooling, especially...