Library Subscription: Guest
Multiphase Science and Technology

Published 4 issues per year

ISSN Print: 0276-1459

ISSN Online: 1943-6181

SJR: 0.144 SNIP: 0.256 CiteScore™:: 1.1 H-Index: 24

Indexed in

NUMERICAL INVESTIGATION OF BUBBLING FLUIDIZED BED TO BE USED AS THERMAL ENERGY STORAGE INTEGRATED TO HIGH-TEMPERATURE CONCENTRATED SOLAR POWER

Volume 30, Issue 2-3, 2018, pp. 99-120
DOI: 10.1615/MultScienTechn.2018024729
Get accessGet access

ABSTRACT

A thermal energy storage unit designed to be used in a solid particle concentrated solar energy system is analyzed with the help of ANSYS Fluent 17.0. Hydrodynamics of the bubbling fluidized sand bed of 0.28 m × 1 m × 0.025 m dimensions to be used as a direct contact heat exchanger is modeled and validated. Geldart B-type particles with diameter of 275 micrometers and density of 2500 kg/m3 are used in modeling of bubbling fluidized sand bed. A Syamlal−O'Brien drag model with restitution coefficient of 0.99 and specularity coefficient of 0.1 predicts the reported experimental data well in terms of bed expansion ratio, temporal voidage profile, and pressure drop across the bed. According to thermal model results, a linear relation between interphase heat transfer coefficient and bed temperature is observed. A number of analyzed units are proposed as a particle-based storage system for the Ivanpah Solar Power Plant. It is shown that the system using an air Brayton cycle with thermal efficiency of 0.264 can produce 178 MW electricity for 11.22 h with 26,304 metric tons of silica sand that is required for daily storage.

CITED BY
  1. Johnson Evan F., Tarı İlker, Baker Derek, Modeling heat exchangers with an open source DEM-based code for granular flows, Solar Energy, 228, 2021. Crossref

  2. Hicdurmaz Serdar, Johnson Evan F., Grobbel Johannes, Amsbeck Lars, Buck Reiner, Hoffschmidt Bernhard, Numerical heat transfer modelling of a centrifugal solar particle receiver, SOLARPACES 2020: 26th International Conference on Concentrating Solar Power and Chemical Energy Systems, 2445, 2022. Crossref

  3. Mehrtash Mehdi, Polat Karadiken Esra, Tari Ilker, A Combined Experimental and Numerical Thermo-Hydrodynamic Investigation of High-Temperature Fluidized-Bed Thermal Energy Storage, Processes, 10, 6, 2022. Crossref

Begell Digital Portal Begell Digital Library eBooks Journals References & Proceedings Research Collections Prices and Subscription Policies Begell House Contact Us Language English 中文 Русский Português German French Spain