Paper Info
Title
Multi-Objective optimizations of structural parameter determination for serpentine channel heat sink
Abstract
This paper presents an approach for modeling and optimization of the channel geometry of a serpentine channel heat sink using multi-objective genetic algorithm. A simple thermal resistance network model was developed to investigate the overall thermal performance of the serpentine channel heat sink. Based on a number of simulations, bend loss coefficient correlation for 1000a), ratio of fins width to channel width (b). In this study, two objectives minimization of overall thermal resistance and pressure drop are carried out using multi-objective genetic algorithms. The channel width, fin width, channel height and inlet velocity are variables to be optimized subject to constraints of fixed length and width of heat sink. The study indicates that reduction in both thermal resistance and pressure drop can be achieved by optimizing the channel configuration and the inlet velocity.
Year
DOI
Venue
2013
10.1007/978-3-642-37192-9_45
EvoApplications
Keywords
Field
DocType
channel configuration,channel width,serpentine channel heat,channel height,channel geometry,pressure drop,fin width,multi-objective optimizations,structural parameter determination,inlet velocity,serpentine channel heat sink,multi-objective genetic algorithm,heat sink,multi objective optimization
Fin,Mathematical optimization,Thermal,Pressure drop,Communication channel,Mechanics,Heat sink,Inlet,Materials science,Network model,Thermal resistance
Conference
Citations 
PageRank 
References 
0
0.34
2
Authors
5
Name
Order
Citations
PageRank
Xuekang Li100.34
Xiaohong Hao2709.23
Yi Chen3386.80
Muhao Zhang400.34
Bei Peng532.08