Integration of Solar Flat Plate Collector and Thermal Energy Storage for Heating Applications: An Experimental Study

IF 0.7 Q4 THERMODYNAMICS
Ganesh B. Agalave, Bhagyesh B. Deshmukh, Pradip R. Kulkarni
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引用次数: 0

Abstract

Efforts to augment the transition from conventional energy sources have encouraged a meticulous investigation into non-conventional alternatives, particularly solar energy for heating applications. This research explores the efficacy of a system integrating a Solar Flat Plate Collector (SFPC) and a Thermal Energy Storage (TES) system in heating applications, thereby offering an innovat ive solution to contemporary energy challenges. In the proposed system, paraffin wax, functioning as a phase change material (PCM), was utilized in quantities of 100 kg in the SFPC and 200 kg in the TES. The SFPC employed air as the heat transfer fluid, while water was used in the TES. Solar radiation served as the energy source, heating the PCM in the SFPC to a fusion temperature of 35℃. Heat was transported from the SFPC to the TES via the air, enabling effective energy storage. The heating application involved water circulation through the TES. Observations highlighted that the water exiting the TES for heating applications maintained a temperature of 36℃. This outcome demonstrates the potential of the system to heat fluids for various applications as needed, emphasizing its versatility and utility. To ensure the reliability of these findings, a Computational Fluid Dynamics (CFD) analysis was performed, validating the experimental results. The study concludes that the proposed integrated sys tem offers a viable solution for achieving desired fluid heating in diverse applications, thereby reiterating the potential of solar energy in non-conventional heating applications.
太阳能平板集热器与蓄热系统集成供热应用的实验研究
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来源期刊
CiteScore
1.60
自引率
22.20%
发文量
144
期刊介绍: The IJHT covers all kinds of subjects related to heat and technology, including but not limited to turbulence, combustion, cryogenics, porous media, multiphase flow, radiative transfer, heat and mass transfer, micro- and nanoscale systems, and thermophysical property measurement. The editorial board encourages the authors from all countries to submit papers on the relevant issues, especially those aimed at the practitioner as much as the academic. The papers should further our understanding of the said subjects, and make a significant original contribution to knowledge. The IJHT welcomes original research papers, technical notes and review articles on the following disciplines: Heat transfer Fluid dynamics Thermodynamics Turbulence Combustion Cryogenics Porous media Multiphase flow Radiative transfer Heat and mass transfer Micro- and nanoscale systems Thermophysical property measurement.
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