Multipass plate heat exchangers-effectiveness-NTU results and guidelines for selecting pass arrangements
Journal of Heat Transfer article.Published by the American Society of Mechanical Engineers and available at: http://www.asme.org/ .Note: imported from RIT’s Digital Media Library running on DSpace to RIT Scholar Works in February 2014.
Plate heat exchangers are classified on the basis of number of passes on each side and the flow arrangement in each channel, taking into account the end plate effects. This results in four configurations each for the 1-1 (1 Pass-l Pass), 2-1, 2-2, 33,4- 1,4-2, and 4-4 arrangements, and six configurations for the 3-1 arrangement. These arrangements are analyzed using the Gauss-Seidel iterative finite difference method; the plate arrangement that yields the highest effectiveness in each pass configuration is identified. Comprehensive results are presented in tabular form for the temperature effectiveness PJ and log-mean temperature difference correction factor F as functions of the number of transfer units NTU/J the heat capacity rate ratio R/J and the total number of thermal plates. On the basis of these results, specific guidelines are outlined for the selection of appropriate plate heat exchanger configurations.