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Acknowledgments
The author would like to thank Mr. R. Rabiei and M. Minary-Jolandan for their
constructive comments and suggestions.
References
1.
Wikipedia, Shell and tube heat exchanger (2005) (accessed October 25, 2008),
http://
en.wikipedia.org/wiki/Shell_and_tube_heat_exchanger
2.
Özçelik, Y.: Exergetic optimization of shell and tube heat exchangers using a genetic
based algorithm. Appl. Therm. Eng. 27, 1849-1856 (2007)
3.
Sun, S.-y., Lu, Y.-d., Yan, C.-q.: Optimization in calculation of shell-tube heat exchanger.
Int. Comm. Heat Mass Transfer 20, 675-685 (1993)
4.
Lerou, P.P.P.M., Veenstra, T.T., Burger, et al.: Optimization of counterflow heat ex-
changer geometry through minimization of entropy generation. Cryogenics 45, 659-669
(2005)
5.
Taborek, J.: Shell and tube heat exchangers: single phase flow, Heat Exchanger Design
Handbook. Hemisphere, New York (1982)
6.
Saunders, E.A.D.: Heat exchangers - selection, design, construction. Longman scientific
and technical, New York (1988)
7.
Hewitt, G.F., Shires, G.L., Bott, T.R.: Process heat transfer. CRC Press, Boca Raton
(1994)
8.
Fesanghary, M., Damangir, E., Soleimani, I.: Design optimization of shell and tube heat
exchangers using global sensitivity analysis and harmony search algorithm. Appl Therm.
Eng. (2008), doi:10.1016/j.applthermaleng.2008.05.018
9.
Perry, R.J., Chilton, C.H.: Chemical Engineers Handbook. McGraw-Hill, New York
(1973)
10.
Reppich, M., Kohoutek, J.: Optimal design of shell-and-tube heat exchangers. Computers
Chem. Engng. 18, 295-299 (1994)
11.
Zalewski, W., Niezgoda-Zelasko, B., Litwin, M.: Optimization of evaporative fluid cool-
ers. International Journal of Refrigeration 23, 553-565 (2000)
12.
Gonzalez, M.T., Petrcci, N.C., Urbicain, M.J.: Air-cooled heat exchanger design using
successive quadratic programming (SQP). Heat Transfer Engineering 22, 11-16 (2001)
13.
Saffar-Avval, M., Damangir, E.: A general correlation for determining optimum baffle
spacing for all types of shell and tube exchangers. Int. J. Heat Mass Transfer 38, 2501-
2506 (1995)
14.
Soltan, B.K., Saffar-Avval, M., Damangir, E.: Minimizing capital and operating costs of
shell and tube condensers using optimum baffle spacing. Appl. Thermal Eng. 24, 2801-
2810 (2004)
15.
Fesanghary, M., Mahdavi, M., Minary, M., Alizadeh, Y.: Hybridizing harmony search al-
gorithm with sequential quadratic programming for engineering optimization problems.
Comput. Methods Appl. Mech. Engrg. 197, 3080-3091 (2008)
16.
Chaudhuri, P.D., Diwekar, U.M., Logsdon, J.S.: An automated approach for the optimal
design of heat exchangers. Ind. Eng. Chem. Res. 36, 3685-3693 (1997)
17.
Selbaş, R., Kızılkan, Ö., Reppich, M.: A new design approach for shell-and-tube heat ex-
changers using genetic algorithms from economic point of view. Chemical Engineering
and Processing 45, 268-275 (2006)
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