• Title of article

    Extending the validity of lumped capacitance method for large Biot number in thermal storage application

  • Author/Authors

    Ben Xu، نويسنده , , Pei-Wen Li ?، نويسنده , , Cho Lik Chan، نويسنده ,

  • Issue Information
    ماهنامه با شماره پیاپی سال 2012
  • Pages
    16
  • From page
    1709
  • To page
    1724
  • Abstract
    In a typical thermal energy storage system, a heat transfer fluid is usually used to deposit/extract heat when it flows through a packed bed of solid thermal storage material. A one-dimensional model of the heat transfer and energy storage/extraction for a packed-bed thermal storage system has been developed previously by the authors. The model treats the transient heat conduction in the thermal storage material by using the lumped capacitance method, which is not valid when the Biot number is large. The current work presents an effective heat transfer coefficient between the solid and fluid for large Biot numbers. With the corrected heat transfer coefficient, the lumped capacitance method can be applied to model the thermal storage in a wide range of Biot numbers. Four typical structures for the solid thermal storage material are considered. Formulas for the effective heat transfer coefficient (and effective Biot number) are presented. To verify the prediction by the lumped capacitance method using the effective heat transfer coefficient, we compare the results to the corresponding analytical solutions. The results are in very good agreement. The effective heat transfer coefficient extended the validity of the lumped capacitance method to large Biot numbers, which is of significance to the analysis of thermal energy storage systems. 2012 Elsevier Ltd. All rights reserved.
  • Keywords
    Thermal energy storage , Large Biot numbers , Validity extending , Corrected heat transfer coefficient , Lumped capacitance method
  • Journal title
    Solar Energy
  • Serial Year
    2012
  • Journal title
    Solar Energy
  • Record number

    941017