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2016年1月本课题组发表在国际杂志“Applied Energy” 上的论文[1]被该杂志主编Yan Jun Yue 教授在其综述论文[2]中引用。详情如下：

[1] M. Lin, Q. W. Wang, Z. X. Guo, Investigation of evaluation criterion of axial wall heat conduction under two thermal boundary conditions, Applied Energy, 2016,162:1662-1669, IF: 5.746, ISSN:0306-2619 (SCI: DA2MX and EI: 20152000840733) 

Abstract

The influence of axial wall heat conduction has been investigated in circular tube laminar flow and heat transfer under two classical thermal boundary conditions. Moreover, the effect of heat losses through the tube end is also considered beside of the adiabatic boundary conditions of the tube end. Three-dimensional numerical simulations are conducted with wall materials, wall thicknesses and tube lengths. A wide range of Peclet number is considered from 7 to 14000. Three parameters including the modified axial conduction number, the so-called axial conduction number and the temperature gradient number are comprehensively studied. Meanwhile, under the thermal boundary condition of uniform outside heat flux, the criterion for judging whether the axial wall heat conduction can be negligible is also discussed and modified. Under the constant outside wall temperature boundary condition, the temperature gradient number is presented to assess the relevance of the axial wall heat conduction. The approximate range of effect of axial wall heat conduction on the local Nusselt number for fully developed flow is obtained to provide a reference for judging whether the axial heat conduction can be negligible.

Keywords: Axial conduction number; Temperature gradient number; Uniform outside heat flux; Constant outside wall temperature; Laminar flow.

[2] J.Y. Yan, S. K. Chou, D. Unberto, Transition of clean energy systems and technologies toward a sustainable future (Part 2), Applied Energy, 2016,162:1109-1113