• Title of article

    Numerical Investigation on Heat Transfer and Performance Number of Nanofluid Flow inside a Double Pipe Heat Exchanger Filled with Porous Media

  • Author/Authors

    Aminianorcid, Ehsan Iran University of Science and Technology , Ahmadi, Babak Iran University of Science and Technology

  • Pages
    16
  • From page
    31
  • To page
    46
  • Abstract
    Two common methods to augment heat transfer are the application of nanofluids and porous inserts. In the present work, heat transfer inside a double tube heat exchanger filled with porous media is analyzed numerically using two phase mixture model for the nanofluid flow and the Darcy-Brinkman-Forchheimer model for the flow inside porous media. Basically, porous media improve heat transfer at the expense of increasing pressure drop. A new PN (Performance number) -defined as the ratio of heat transfer to pressure drop on the base state (without porous media and nanoparticles)- is introduced to better judge the first law’s performance of configurations. Results indicated that by keeping and increasing Reynolds number from 500 to 2000, an increase of 56.09% was observed in the performance number. Furthermore, maintaining Reynolds number at Re=500 and changing from 0.0001 to 0.1, results in an increase of 138%. For pressure drop, by keeping and increasing Reynolds number from 500 to 2000, it is 40 times. Furthermore, maintaining Reynolds number at Re=500 and changing from 0. 1 to 0.0001, the pressure drop is 250 times. Besides, adding 3% nano particles to the base fluid enhances the performance number by about 50% and increase pressure drop by about 20%.
  • Keywords
    CFD , Heat Exchanger , Performance Number , Porous media
  • Journal title
    Astroparticle Physics
  • Serial Year
    2018
  • Record number

    2476315