THERMO ECONOMICAL OPTIMIZATION OF PLATE TYPE OF HEAT EXCHANGERS FOR WASTE HEAT RECOVERY

Sanayide kullanılan çapraz akımlı, karışımsız tip plakalı ısı değiştiricilerinin optimum alan hesabı için bir termo ekonomik optimizasyon basit matematiksel denklem ile ifade edilmiştir. Bu çalışmada, plakalı ısı eşanjörlerinin hem ısıl ve hem de ekonomik yönden optimizasyonu için yeni bir ekonomik analiz ile ısıl analiz yöntemleri bir arada kullanılmıştır. Optimizasyon denklemlerinin geçerliliği kanıtlanmıştır.

ATIK ISI GERİDÖNÜŞÜMÜ İÇİN PLAKALI TİP ISI DEĞİŞTİRİCİLERİNİN TERMO EKONOMİK OPTİMİZASYONU

A thermo economic optimization analysis is presented yielding simple algebraic formula for estimating the optimum area of heat exchangers of plate type (both fluids unmixed) which are applied in industrial applications. An economic analysis method is used in the present study, together with the thermal analyses of plate heat exchangers, for thermo economic optimization. The validity of the optimization formulations was checked.

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Aktürk F. at all. 2015. Experimental investigation and performance analysis of gasketed-plate heat exchanger, J. of Thermal Science and Technology. 35(1), 45-52.
Burmeister LC. 1998. Equipment cost estimation. In Elements of Thermal-Fluid System Design, Prentice Hall: New Jersey; 263-270.
Can A. at all. 2010. The theoretical and practical study about increasing the capacity of autoclave heat exchanger, J. of Thermal Science and Technology. 30(2), 69-76.
Chung K, Lee K, Kim W. 2002. Optimization of the design factors for thermal performance of a parallel- flow heat exchanger, International Journal of Heat and Mass Transfer. 45(24), 4773-4780.
Cornellissen RL, Hirs GG. 1999. Thermodynamic optimization of a heat exchanger, International Journal of Heat and Mass Transfer. 42(5), 951-959.
Duffie JA, Beckman WA. 1980. Solar process economics. In Solar Engineering of Thermal Processes, Wiley: New York; 376-407.
Edwards DK, Matavosian R. 1982. Thermoeconomically optimum counter flow heat exchanger effectiveness, Journal of Heat TransferTransactions of the ASME. 104(1), 191-193.
Georgiadis MC, Rotstein GE, and Macchietto S. 1998. Optimal design and operation of heat exchangers under milk fouling, AIChE Journal. 44(9), 2099-2111.
Grazzini G, Rinaldi R. 2001. Thermodynamic optimal design of heat exchangers for an irreversible refrigerator, International Journal of Thermal Sciences. 40(2): 173-180.
Stoecker WF. 1989. Design of Thermal Systems, 3rd Edn, Mc Graw-Hill: New York; 468.
Şahin AZ. 1997. Thermodynamic design optimization of a heat recuperator, International Communications in Heat and Mass Transfer. 24(7), 1029-1938.
Vojtech,T et.al. 2011. Optimum design of fluid distribution systems in heat exchangers, Asia Pasific Journal of Chemical Engineering. 6(5), 750-759.
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