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Novel thermal conductivity enhancing containers for performance enhancement of solar photovoltaics system integrated with phase change material

Novel thermal conductivity enhancing containers for performance enhancement of solar photovoltaics system integrated with phase change material
Novel thermal conductivity enhancing containers for performance enhancement of solar photovoltaics system integrated with phase change material

Phase change material (PCM) has capability to increase the power production of solar photovoltaics (PV) by effective temperature regulation. In this work, Thermal Conductivity Enhancing Containers (TCEC) are proposed. They allow the PCM to extract the heat from all sides of the containers instead of only front which improves the thermal conductivity of the PCM containers and increases the PV electrical efficiency. PCM was filled inside the TCECs and pasted at the back of the PV. Systems with and without PCM, with and without TCEC and systems with different tilt angles have been investigated. The melting of PCM, rate of thermal energy storage, charging efficiency and enhancement in PV performance are analyzed. The behavior of the systems is analyzed for the climates of Portsmouth, UK and Chennai, India. It is seen that the average charging efficiency of PCM can be increased from 49% to 62% using proposed TCEC. Moreover, the average rate of thermal energy storage can be increased from 249 W/m2 of aperture to 302 W/m2 and the PV electrical efficiency can be increased from 17.6% to 19.2% using TCEC-PCM. It is also seen that as the inclination of PCM container decreases from 45° to 0°, the charging efficiency decreases by 32%.

Charging efficiency, Energy storage, Phase change material, Photovoltaics, Solar
0360-5442
Singh, Preeti
eba3a34d-0500-424e-8481-5ee3c5eb06a3
Khanna, Sourav
107f4edb-7b07-4bea-bdfb-818d4f03bea9
Mudgal, Vijay
66ba4093-ce27-4c83-a4b1-9457d22faf0a
Newar, Sanjeev
85753202-03d1-4745-8cae-1a60ea0545dd
Sharma, Vashi
b5fc31a8-e676-4c1a-8ac2-636f8eff0381
Becerra, Victor
953ddde2-d86e-4805-9f44-d71ff93edd53
Reddy, K. S.
55fb2ce8-bf9c-47bd-b329-af40739b2131
Mallick, Tapas K.
cdd02dad-d40e-45ad-b72c-be0f44e9cddf
Singh, Preeti
eba3a34d-0500-424e-8481-5ee3c5eb06a3
Khanna, Sourav
107f4edb-7b07-4bea-bdfb-818d4f03bea9
Mudgal, Vijay
66ba4093-ce27-4c83-a4b1-9457d22faf0a
Newar, Sanjeev
85753202-03d1-4745-8cae-1a60ea0545dd
Sharma, Vashi
b5fc31a8-e676-4c1a-8ac2-636f8eff0381
Becerra, Victor
953ddde2-d86e-4805-9f44-d71ff93edd53
Reddy, K. S.
55fb2ce8-bf9c-47bd-b329-af40739b2131
Mallick, Tapas K.
cdd02dad-d40e-45ad-b72c-be0f44e9cddf

Singh, Preeti, Khanna, Sourav, Mudgal, Vijay, Newar, Sanjeev, Sharma, Vashi, Becerra, Victor, Reddy, K. S. and Mallick, Tapas K. (2022) Novel thermal conductivity enhancing containers for performance enhancement of solar photovoltaics system integrated with phase change material. Energy, 243, [122923]. (doi:10.1016/j.energy.2021.122923).

Record type: Article

Abstract

Phase change material (PCM) has capability to increase the power production of solar photovoltaics (PV) by effective temperature regulation. In this work, Thermal Conductivity Enhancing Containers (TCEC) are proposed. They allow the PCM to extract the heat from all sides of the containers instead of only front which improves the thermal conductivity of the PCM containers and increases the PV electrical efficiency. PCM was filled inside the TCECs and pasted at the back of the PV. Systems with and without PCM, with and without TCEC and systems with different tilt angles have been investigated. The melting of PCM, rate of thermal energy storage, charging efficiency and enhancement in PV performance are analyzed. The behavior of the systems is analyzed for the climates of Portsmouth, UK and Chennai, India. It is seen that the average charging efficiency of PCM can be increased from 49% to 62% using proposed TCEC. Moreover, the average rate of thermal energy storage can be increased from 249 W/m2 of aperture to 302 W/m2 and the PV electrical efficiency can be increased from 17.6% to 19.2% using TCEC-PCM. It is also seen that as the inclination of PCM container decreases from 45° to 0°, the charging efficiency decreases by 32%.

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More information

Published date: 15 March 2022
Additional Information: Publisher Copyright: © 2021 Elsevier Ltd
Keywords: Charging efficiency, Energy storage, Phase change material, Photovoltaics, Solar

Identifiers

Local EPrints ID: 506109
URI: http://eprints.soton.ac.uk/id/eprint/506109
DOI: doi:10.1016/j.energy.2021.122923
ISSN: 0360-5442
PURE UUID: 45d06a8e-3256-49b0-a217-e9559d38b97b

Catalogue record

Date deposited: 28 Oct 2025 18:27
Last modified: 28 Oct 2025 18:27

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Contributors

Author: Preeti Singh
Author: Sourav Khanna
Author: Vijay Mudgal
Author: Sanjeev Newar
Author: Vashi Sharma
Author: Victor Becerra
Author: K. S. Reddy
Author: Tapas K. Mallick

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