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Topology optimization of the manifold microchannels with triple-objective functions

Xun Liu, Li Chen, Ming Peng, Wen‐Tao Ji, Wen‐Quan Tao

2021Numerical Heat Transfer Part B Fundamentals27 citationsDOI

Abstract

Microchannel is helpful for cooling the microelectronic devices with high heat flux. In this study, topology optimization method with three objective functions (pumping power, bottom wall mean temperature and temperature uniformity) is adopted to optimize the structure of a manifold microchannel. The field synergy principle is used to evaluate the optimized structures. Several single-objective, bi-objective, and triple-objective function problems are numerically studied. It is found that the obtained structures with better cooling performance always present low synergy angle, in consistent with the field synergy principle. The optimized structures perform better than conventional microchannel with ribs. Effects of inlet velocity, thermal diffusivity ratio and heat flux at the bottom wall are also investigated. The topology optimization method with triple-objective functions is effective to improve the performance of manifold microchannels.

Topics & Concepts

Topology optimizationManifold (fluid mechanics)Topology (electrical circuits)Mathematical optimizationComputer scienceMathematicsApplied mathematicsPhysicsMechanical engineeringEngineeringCombinatoricsFinite element methodThermodynamicsTopology Optimization in EngineeringAdvanced Multi-Objective Optimization AlgorithmsComposite Structure Analysis and Optimization