Anish K. John scite author profile

-Matrix Heat Exchanger is having wide spread applications in cryogenics and aerospace, where high effectiveness and compactness is essential. This can be achieved by providing high thermal conductive plates and low thermal conductive spacers alternately. These perforated plate matrix heat exchangers have near to 100% efficiency due to low longitudinal heat transfer. The heat transfer and flow friction characteristics of a perforated plate matrix heat exchanger can be represented using Colburn factor and friction factor. In this paper, dimensionless parameters like Reynolds number (Re), porosity (p), perforation perimeter factor (P f ), plate thickness to pore diameter ratio (l/d) and spacer thickness to plate thickness ratio (s/l) have been optimized for maximum Colburn factor and minimum friction factor using genetic algorithm. Two algorithms, one for single objective and the other for multi-objective problems, which are believed to be more efficient, are described. The algorithms coded with MATLAB, is used to perform multi-objective optimization on perforated plate matrix heat exchanger surfaces. The results show promising results.

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Effect of perforation shape and porosity on effective thermal conductivity of matrix heat exchanger plates

Navaneethakrishnan

Krishnakumar

John

2016

Applied Thermal Engineering

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Numerical and Experimental Investigation to Determine the Heat Transfer of Perforated Plate Matrix Heat Exchanger

John¹,

Krishnakumar²

2015

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Anish K. John

Analysis of Battery Thermal Management System for Electric Vehicles using 1-Tetradecanol Phase Change Material

A review on transient test techniques for obtaining heat transfer design data of compact heat exchanger surfaces

Performing multiobjective optimization on perforated plate matrix heat exchanger surfaces using genetic algorithm

Effect of perforation shape and porosity on effective thermal conductivity of matrix heat exchanger plates

Numerical and Experimental Investigation to Determine the Heat Transfer of Perforated Plate Matrix Heat Exchanger

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