Computational Heat Transfer Analysis and Genetic Algorithm-Artificial Neural Network-Genetic Algorithm-Based Multiobjective Optimization of Rectangular Perforated Plate Fins
Numerical studies on plate fins with longitudinal rectangular perforations placed perpendicular to an aluminum base plate are carried out under laminar natural convection conditions. In this paper, a detailed parametric study by varying the dimensions of fin and perforation is carried out to obtain...
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| Published in | IEEE transactions on components, packaging, and manufacturing technology (2011) Vol. 7; no. 2; pp. 208 - 216 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
IEEE
01.02.2017
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| Subjects | |
| Online Access | Get full text |
| ISSN | 2156-3950 2156-3985 |
| DOI | 10.1109/TCPMT.2016.2646718 |
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| Abstract | Numerical studies on plate fins with longitudinal rectangular perforations placed perpendicular to an aluminum base plate are carried out under laminar natural convection conditions. In this paper, a detailed parametric study by varying the dimensions of fin and perforation is carried out to obtain a physical insight into the enhanced heat transfer characteristics of a perforated fin. The perforated fins are found to have an augmented heat transfer rate compared to the solid fins having same contact area. This paper uses a computationally efficient algorithm using soft computing to determine the optimized geometry with a limited set of numerical solutions. This is achieved with the help of artificial neural network (ANN). To reduce the effort in determining suitable parameters for ANN, genetic algorithm (GA) is used. The ANN is trained based on a minimal set of numerical/computational fluid dynamics (CFD) results. The trained ANN can then predict the base plate temperature for any other untrained set of parameters in the same range. A multiobjective optimization of the perforated fin is carried out with two objectives: minimum base plate temperature and maximum weight reduction. This is carried out by applying the GA on the ANN as the fitness function to obtain the multiobjective optimal. The obtained optimized fin geometry can thus be used effectively in many heat transfer applications that necessitate heat transfer enhancement with reduced weight compared to the conventional fins. |
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| AbstractList | Numerical studies on plate fins with longitudinal rectangular perforations placed perpendicular to an aluminum base plate are carried out under laminar natural convection conditions. In this paper, a detailed parametric study by varying the dimensions of fin and perforation is carried out to obtain a physical insight into the enhanced heat transfer characteristics of a perforated fin. The perforated fins are found to have an augmented heat transfer rate compared to the solid fins having same contact area. This paper uses a computationally efficient algorithm using soft computing to determine the optimized geometry with a limited set of numerical solutions. This is achieved with the help of artificial neural network (ANN). To reduce the effort in determining suitable parameters for ANN, genetic algorithm (GA) is used. The ANN is trained based on a minimal set of numerical/computational fluid dynamics (CFD) results. The trained ANN can then predict the base plate temperature for any other untrained set of parameters in the same range. A multiobjective optimization of the perforated fin is carried out with two objectives: minimum base plate temperature and maximum weight reduction. This is carried out by applying the GA on the ANN as the fitness function to obtain the multiobjective optimal. The obtained optimized fin geometry can thus be used effectively in many heat transfer applications that necessitate heat transfer enhancement with reduced weight compared to the conventional fins. |
| Author | Seshadri, Arunkumar Chidambaram, Balachandar Ravichandran, Madhumitha Muniyandi, Venkatesan |
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| References | ref13 ref12 ref15 ref14 ref11 ref10 ref2 ref1 ref19 ref18 güvenç (ref16) 2001; 37 white (ref29) 1987 ref24 ref23 ref25 çakar (ref7) 2009 ref20 ref22 ref21 hagan (ref17) 1996 ref28 ref27 tanaka (ref26) 1987; 16 ref8 cavazzuti (ref9) 2012 ref4 ref3 yazicioglu (ref30) 2005 ref6 ref5 |
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| SubjectTerms | Genetic algorithms Genetic algorithm–artificial neural network–genetic algorithm (GA-ANN-GA) Geometry Heat transfer Heating Mathematical model Numerical models Optimization perforated fins |
| Title | Computational Heat Transfer Analysis and Genetic Algorithm-Artificial Neural Network-Genetic Algorithm-Based Multiobjective Optimization of Rectangular Perforated Plate Fins |
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