Optimization of Packed Concrete Bed Energy Storage System

Authors

  • Adeyanju A. A

  • Manohar K

Keywords:

packed concrete bed, optimization, energy storage system, mathematical model

Abstract

One of the major challenges with the use of solar thermal energy is the intermittent nature As such present day research is geared towards energy storage systems in which thermal energy is stored during the day for later use However in many engineering applications there is a continuous steady demand for energy Hence this study is focused on the optimization of a packed bed energy storage system to provide an uninterrupted continuous supply of energy in the absence of or availability of solar energy A mathematical model was developed from consideration of the basic phenomena of heat transfer to predict the thermal behavior of a simultaneous charging storage and discharging system during a heating cycle Optimization of the entire storage system were carried out and it was discovered that the ratio of optimum volume to area at airflow rate of 0 0094 0 012 0 014 0 017 0 019 0 021 0 024 0 026 0 028 0 031 0 033 0 035 0 038 0 040 0 042 and 0 045m3 s were 0 123 0 154 0 185 0 215 0 247 0 276 0 308 0 338 0 369 0 4 0 43 0 462 0 491 0 523 0 554 and 0 584 respectively

How to Cite

Adeyanju A. A, & Manohar K. (2015). Optimization of Packed Concrete Bed Energy Storage System. Global Journals of Research in Engineering, 15(A4), 29–38. Retrieved from https://engineeringresearch.org/index.php/GJRE/article/view/1373

Optimization of Packed Concrete Bed Energy Storage System

Published

2015-10-15