JP Journal of Heat and Mass Transfer

The JP Journal of Heat and Mass Transfer is indexed in Scopus® and specializes in publishing articles related to heat and mass transfer. The journal covers both theoretical and experimental aspects and emphasizes their applications in engineering, electronics, environmental sciences, and nanoscale heat transfer. Additionally, the journal welcomes articles that explore transport-property data, energy engineering, and environmental applications.

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MODELLING AND SIMULATION OF A SUSTAINABLE THERMAL ENERGY STORAGE SYSTEM FOR CONCENTRATING SOLAR POWER (CSP) PLANT USING ECO-MATERIALS

Authors

  • Boubou Bagré
  • Makinta Boukar
  • Ibrahim Kolawole Muritala
  • Tizane Daho
  • Jacques Nébié
  • Téré Dabilgou
  • Eric Mensah Mortey
  • Issoufou Ouarma
  • Salifou Tera
  • Armand Korsaga
  • Adamou Rabani

Keywords:

thermal energy storage, thermocline, vegetal oil, ceramic balls, concentrating solar power.

DOI:

https://doi.org/10.17654/0973576323010

Abstract

This paper addresses industry sector like concentrating solar power (CSP) plant used for electricity generation. Up till now, this technology is not affordable for developing countries where CSP potential is good. To contribute on the improvement of CSP technology, ceramic balls using sand clay and industry waste (coal bottom ash) have been developed for sensible heat storage. In this paper, the one dimensional two phase model has been chosen to predict the behaviour of the ceramic oil and vegetal oil (Jatropha curcas oil) thermal energy storage system. The results show that high porosity (> 45%), filler material with big size and high fluid velocity are not required for thermal energy storage because of the degradation of the thermocline. Taking into account a tank ratio H/D of 2.5 and a total stored energy of the results show a possibility to reach a discharge time of 9 hours with discharge efficiency of more than 90%. The thermocline thickness variation under the variation of fluid velocity, particle diameter, tank porosity shows that for an effective thermal energy storage system, the thermocline maximal thickness is around one third of the packed-bed height. To conclude, the developed ceramic ball and Jatropha curcas oil could be considered as an innovative and cost-effective for thermal energy storage in CSP or other applications like solar cooker.

Received: November 19, 2022;
Revised: December 27, 2022;
Accepted: January 4, 2023;

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Published

2023-01-23

Issue

Vol. 31 (2023)

Section

Articles

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Copyright (c) 2023 Pushpa Publishing House, Prayagraj, India

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This work is licensed under a Creative Commons Attribution 4.0 International License.

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Attribution: Credit Pusha Publishing House as the original publisher, including title and author(s) if applicable.

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How to Cite

MODELLING AND SIMULATION OF A SUSTAINABLE THERMAL ENERGY STORAGE SYSTEM FOR CONCENTRATING SOLAR POWER (CSP) PLANT USING ECO-MATERIALS. (2023). JP Journal of Heat and Mass Transfer, 31, 147-161. https://doi.org/10.17654/0973576323010

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