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M Izham, T Fukui, and K Morinishi, “Application of Regularized Lattice Boltzmann Method for Incompressible Flow Simulation at High Reynolds Number and Flow with Curved Boundary,” Journal of Fluid Science and Technology, vol. 6, no. 6, 2011.

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Article

Enhancing the Convective Heat Transfer Coefficient Using a Single or Doubled Strainers

1Mechanical Engineering Department, Taibah University, AlMadinah AlMunwwarah, Saudi Arabia


American Journal of Mechanical Engineering. 2020, Vol. 8 No. 2, 69-75
DOI: 10.12691/ajme-8-2-4
Copyright © 2020 Science and Education Publishing

Cite this paper:
Saeed J. Almalowi. Enhancing the Convective Heat Transfer Coefficient Using a Single or Doubled Strainers. American Journal of Mechanical Engineering. 2020; 8(2):69-75. doi: 10.12691/ajme-8-2-4.

Correspondence to: Saeed  J. Almalowi, Mechanical Engineering Department, Taibah University, AlMadinah AlMunwwarah, Saudi Arabia. Email: smalowi@taibahu.edu.sa

Abstract

Numerical investigation has been employed using Lattice Boltzmann Model (LBM) to investigate a temporal and a spatial characteristics of the flow past over a single and doubled strainers confined in a channel. A two dimensional nine directional (D2Q9) lattice arrangements is employed. The single and doubled strainers have been considered for Reynolds numbers Re=100. Flow and temperature field of a single and doubled strainers have been predicted. The local and the average Nusselt number have been evaluated for a single and a doubled arrangement of strainers. The results illustrate the effect of the porosity of the strainer on the local and the average Nusselt number. Consequently, a strainer enhances the heat transfer coefficient inside the A/C duct.

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