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Meccanica

Erschienen in:

01.05.2014

Intelligent design of waste heat recovery systems using thermoelectric generators and optimization tools

verfasst von: A. Goudarzi, A. Mozaffari, P. Samadian, A. Rezania, L. A. Rosendahl

Erschienen in: Meccanica | Ausgabe 5/2014

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Abstract

Optimal design of thermal systems that effectively use energy resources is one of the foremost challenges that researchers almost confront. Until now, several researches have been made to enhance the performance of major thermal systems. In this investigation, the authors try to make a conceptual design to maximize the electricity demand of Damavand power plant as the biggest thermal system in Middle East sited in Iran. The idea of designing is laid behind applying a number of thermoelectric modules within the condenser in order to recover the waste heat of the thermal systems. Besides, the authors have developed some intelligent tools to elaborate on the performance of their proposed model. Firstly, an artificial neural network has been utilized to estimate the potential power generation of the thermoelectric modules. At the second step, computational fluid dynamic solver, FLUENT is used to determine the variation of the temperature through the length of the thermoelectric module assembly. Based on the gained results, an intelligent multi-objective optimization algorithm called Pareto based mutable smart bee is developed to optimize the properties of the thermoelectric component.

Vorheriger Artikel A modified multi-gene genetic programming approach for modelling true stress of dynamic strain aging regime of austenitic stainless steel 304

Nächster Artikel 2D problem of magneto-thermoelasticity fiber-reinforced medium under temperature dependent properties with three-phase-lag model

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Bejan A, Tsatsaronis G, Moran M (1996) Thermal design and optimization. Wiley, New YorkMATH

Mozaffari A, Gorji-Bandpy M, Samadian P, Mohammadrezaei S Analyzing, controlling and optimizing Damavand power plant operating parameters using a synchronous parallel shuffling self-organized Pareto strategy and neural network: a survey. Proc Inst Mech Eng A. doi:10.1177/0957650912454822

Toffolo A, Lazzaretto A (2002) Evolutionary algorithms for multi-objective energetic and economic optimization in thermal system design. Energy Convers Manag 6:549–567

Cammarata G, Fichera A, Marletta L (1998) Using genetic algorithms and the exergioeconomic approach to optimize district heating net works. Energy Resour Technol 4:241–246CrossRef

Esen H, Inalli M, Esen M, Pihtili K (2007) Energy and exergy analysis of a ground-coupled heat pump system with two horizontal ground heat exchangers. Build Environ 42:3606–3615CrossRef

Lee KY, Mohamed PS (2002) A real-coded genetic algorithm involving a hybrid crossover method for power plant control system design. In: Proceedings of congress on evolutionary computation. IEEE Press, Honolulu, pp 1069–1074

Gorji-Bandpy M, Mozaffari A Economic and exergetic analysis of Damavand power plant: a case study in Iran. Energy Sources B. doi:10.1080/15567249.2012.670365

Ebadi MJ, Gorji-Bandpy M (2005) Exergetic analysis of gas turbine plants. Int J Exergy 2:31–39CrossRef

Moran MJ (1982) Availability analysis: a guide to efficient energy use. Prentice-Hall, Inc., Englewood Cliffs

10.

Kyono T, Suzuki RO, Ono K (2003) Conversion of unused heat energy to electricity by means of thermoelectric generation in condenser. IEEE Trans Energy Convers 18:330–334CrossRef

11.

Heikes RR, Ure RW (1961) Thermoelectricity: science and engineering. Interscience Publishers, New York

12.

Belanger S, Gosselin L (2011) Thermoelectric generator sandwiched in a crossflow heat exchanger with optimal connectivity between modules. Energy Convers Manag 52:2911–2918CrossRef

13.

Thermonamic Electronics (Jiangxi) Corporation, Ltd. http://www.thermonamic.com. Accessed 23 July 2013

14.

Mozaffari A, Gorji-Bandpy M, Samadian P, Rastgar R, Rezania Kolaei A (2013) Comprehensive preference optimization of an irreversible thermal engine using Pareto based mutable smart bee algorithm and generalized regression neural network. Swarm Evol Comput 9:90–103CrossRef

15.

Mozaffari A, Gorji-Bandpy M, Gorji TB (2012) Optimal design of constraint engineering systems: application of mutable smart bee algorithm. Int J Bio-Inspired Comput 4:167–180CrossRef

16.

Deb K (2000) An efficient constraint-handling method for genetic algorithms. Comput Methods Appl Mech Eng 186:311–338CrossRefMATHADS

17.

Gorji-Bandpy M, Mozaffari A (2012) Multiobjective optimization of irreversible thermal engine using mutable smart bee algorithm. Appl Comput Intell Soft Comput 2012, p 13

18.

Karaboga D, Basturk B (2007) A powerful and efficient algorithm for numerical function optimization: artificial bee colony (ABC). J Glob Optim 39:459–471CrossRefMATHMathSciNet

19.

Stanarevic N, Tuba M, Bacanin N (2011) Modified artificial bee colony algorithm for constraint problems optimization. Int J Math Models Methods Appl Sci 5:644–651

20.

Ritzer TM, Lau PG (1994) Economic optimization of heat sink. In: International conference on thermoelectrics, ICT 1994, pp 177–180

Titel: Intelligent design of waste heat recovery systems using thermoelectric generators and optimization tools
verfasst von: A. Goudarzi
A. Mozaffari
P. Samadian
A. Rezania
L. A. Rosendahl
Publikationsdatum: 01.05.2014
Verlag: Springer Netherlands
Erschienen in: Meccanica / Ausgabe 5/2014
Print ISSN: 0025-6455
Elektronische ISSN: 1572-9648
DOI: https://doi.org/10.1007/s11012-014-9878-0

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