Silverberg, Peter M. ; Ramananda Rao, K. ; Shrinivasa, U. ; Srinivasan, J. (1996) Constrained optimization of heat exchangers Chemical Engineering, 103 (6). pp. 112-118. ISSN 0009-2460
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Official URL: http://www.che.com/articles/1985-1999/Vol103/chevo...
Abstract
Optimizing a shell and tube heat exchanger for a given duty is an important and relatively difficult task. There is a need for a simple, general and reliable method for realizing this task. The authors present here one such method for optimizing single phase shell-and-tube heat exchangers with given geometric and thermohydraulic constraints. They discuss the problem in detail. Then they introduce a basic algorithm for optimizing the exchanger. This algorithm is based on data from an earlier study of a large collection of feasible designs generated for different process specifications. The algorithm ensures a near-optimal design satisfying the given heat duty and geometric constraints. The authors also provide several sub-algorithms to satisfy imposed velocity limitations. They illustrate how useful these sub-algorithms are with several examples where the exchanger weight is minimized.
Item Type: | Article |
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Source: | Copyright of this article belongs to Chemical Week Associates. |
ID Code: | 79931 |
Deposited On: | 30 Jan 2012 05:12 |
Last Modified: | 30 Jan 2012 05:12 |
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