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KMID : 0371820000320010046
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Nuclear Engineering and Technology
2000 Volume.32 No. 1 p.46 ~ p.56
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A Numerical Analysis on the Transient Heat Transfer in a Heat Exchanger Pipe Flow
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Keun Sun Chang
Young Chel Kweon/Seong Ryung Jin
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Abstract
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Numerical results are presented for the 2-dimensional turbulent transient heat transfer of the shell/tube heat exchanger with a step change of the inlet temperature in the primary side. Heat transfer boundary conditions outside the pipe are given partially by the convection heat transfer conditions and partially by insulated conditions. Calculation results were obtained by solving the unsteady two-dimensional elliptic forms for the Reynolds-averaged governing equations for the mass, momentum and energy. Finite-difference method was used to obtain discretization equations, and the SIMPLER solution algorithm was employed for the calculation procedure. Turbulent model used is the algebraic model proposed by Cebeci-Smith. Results presented include the time variant Nusselt number distribution, average temperature distribution and outlet temperatures for the various inlet temperatures and flow rates.
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KEYWORD
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transient heat transfer, internal flow, shell/tube heat exchanger, Nusselt number,
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