• Title of article

    A NUMERICAL STUDY OF FORCED CONVECTIVE FLOW IN MICROCHANNELS HEAT SINKS WITH PERIODIC EXPANSION-CONSTRICTION CROSS SECTION

  • Author/Authors

    Belhadj, A. Department of Mechanical Engineering - Tlemcen University, Tlemcen, Algeria , Bouchenafa, R. Department of Mechanical Engineering - Tlemcen University, Tlemcen, Algeria , Saim, R. Department of Mechanical Engineering - Tlemcen University, Tlemcen, Algeria

  • Pages
    14
  • From page
    1912
  • To page
    1925
  • Abstract
    This paper aims to study numerically the laminar convective heat transfer of ionized water flow inside rectangular heat sinks with periodic expansion-constriction cross-section; each heat sink consists of parallel microchannels system with 4 mm wide and 0.1 mm deep in constant cross-section segment. Two-dimensional laminar numerical simulations, based on Navier-Stoks equations and energy equation, are obtained under the same boundary conditions for different microchannels. In this study, the heat transfer and pressure drop inside microchannels with cross-section (cylindrical grooves and triangular cavities) are compared with that of simple smooth microchannel at Reynolds number ranging from 150-1500; an increase in pressure drop of 44% for all microchannels is observed with Reynolds number increasing. The obtained results indicate an enhancement in Nusselt number for all microchannels at all Reynolds number values with a maximum enhancement of 36%, these ameliorated thermal parameters attribute to enhance the heat transfer efficiency of proposed microchannels. Which improve the effect of periodic expansion-constriction cross-section on the heat transfer performance for microelectromechanical systems (MEMS) cooling phenomena.
  • Keywords
    Cooling Systems , Heat Transfer Enhancement , Heat Sink , Microchannels , MEMS , Cross Section
  • Journal title
    Journal of Thermal Engineering
  • Serial Year
    2018
  • Record number

    2576507