Energizing the Thermal Conductivity and Optical Performance of Salt Hydrate Phase Change Material Using Copper (II) Oxide Nano Additives for Sustainable Thermal Energy Storage
Due to intermittent nature of solar energy, scientists and researchers are working to develop thermal energy storage (TES) systems for effectively use the solar energy. One promising avenue involves utilizing phase change materials (PCMs), but primary challenge lies in their limited thermal conducti...
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my.uniten.dspace-368532025-03-03T15:45:12Z Energizing the Thermal Conductivity and Optical Performance of Salt Hydrate Phase Change Material Using Copper (II) Oxide Nano Additives for Sustainable Thermal Energy Storage Kumar Rajamony R. Samykano M. Kousik Suraparaju S. Sofiah A.G.N. Namasivayam S. Rajkumar K. Kadirgama K. Ramasamy D. 57218845246 57192878324 58930666500 57197805797 55745037200 58931059900 12761486500 26325891500 Due to intermittent nature of solar energy, scientists and researchers are working to develop thermal energy storage (TES) systems for effectively use the solar energy. One promising avenue involves utilizing phase change materials (PCMs), but primary challenge lies in their limited thermal conductivity, which results in slower heat transfer rate and lower thermal energy storage density. The present research work demonstrates, to develop and explore a PCM composite by embedding salt hydrate and coper (II) oxide to enhance the heat transfer mechanism for potential utilization of TES material. The optical behavior, and thermal conductivity were analyzed by using Ultraviolet visible spectrum, and thermal property analyzer. The developed copper oxide dispersed PCM composite displayed the thermal conductivity was energized up to 71.5 % without affecting the other properties. Also, the optical absorptance was remarkably enhanced and the transmittance reduced to 87 %. Increasing the concentration of copper oxide nanoparticles in the salt hydrate PCM improves the optical absorptivity and heat conductivity. With these extraordinary abilities the nanocomposite could play a significant role in progress of sustainable TES with significance to contribute towards sustainable development goal of affordable and clean energy and climate change. ? 2024 EDP Sciences. All rights reserved. Final 2025-03-03T07:45:12Z 2025-03-03T07:45:12Z 2024 Conference paper 10.1051/e3sconf/202448801009 2-s2.0-85187372409 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85187372409&doi=10.1051%2fe3sconf%2f202448801009&partnerID=40&md5=063290c49eb7e8c3d1586afff7fc0524 https://irepository.uniten.edu.my/handle/123456789/36853 488 1009 All Open Access; Gold Open Access; Green Open Access EDP Sciences Scopus |
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Due to intermittent nature of solar energy, scientists and researchers are working to develop thermal energy storage (TES) systems for effectively use the solar energy. One promising avenue involves utilizing phase change materials (PCMs), but primary challenge lies in their limited thermal conductivity, which results in slower heat transfer rate and lower thermal energy storage density. The present research work demonstrates, to develop and explore a PCM composite by embedding salt hydrate and coper (II) oxide to enhance the heat transfer mechanism for potential utilization of TES material. The optical behavior, and thermal conductivity were analyzed by using Ultraviolet visible spectrum, and thermal property analyzer. The developed copper oxide dispersed PCM composite displayed the thermal conductivity was energized up to 71.5 % without affecting the other properties. Also, the optical absorptance was remarkably enhanced and the transmittance reduced to 87 %. Increasing the concentration of copper oxide nanoparticles in the salt hydrate PCM improves the optical absorptivity and heat conductivity. With these extraordinary abilities the nanocomposite could play a significant role in progress of sustainable TES with significance to contribute towards sustainable development goal of affordable and clean energy and climate change. ? 2024 EDP Sciences. All rights reserved. |
| author2 |
57218845246 |
| author_facet |
57218845246 Kumar Rajamony R. Samykano M. Kousik Suraparaju S. Sofiah A.G.N. Namasivayam S. Rajkumar K. Kadirgama K. Ramasamy D. |
| format |
Conference paper |
| author |
Kumar Rajamony R. Samykano M. Kousik Suraparaju S. Sofiah A.G.N. Namasivayam S. Rajkumar K. Kadirgama K. Ramasamy D. |
| spellingShingle |
Kumar Rajamony R. Samykano M. Kousik Suraparaju S. Sofiah A.G.N. Namasivayam S. Rajkumar K. Kadirgama K. Ramasamy D. Energizing the Thermal Conductivity and Optical Performance of Salt Hydrate Phase Change Material Using Copper (II) Oxide Nano Additives for Sustainable Thermal Energy Storage |
| author_sort |
Kumar Rajamony R. |
| title |
Energizing the Thermal Conductivity and Optical Performance of Salt Hydrate Phase Change Material Using Copper (II) Oxide Nano Additives for Sustainable Thermal Energy Storage |
| title_short |
Energizing the Thermal Conductivity and Optical Performance of Salt Hydrate Phase Change Material Using Copper (II) Oxide Nano Additives for Sustainable Thermal Energy Storage |
| title_full |
Energizing the Thermal Conductivity and Optical Performance of Salt Hydrate Phase Change Material Using Copper (II) Oxide Nano Additives for Sustainable Thermal Energy Storage |
| title_fullStr |
Energizing the Thermal Conductivity and Optical Performance of Salt Hydrate Phase Change Material Using Copper (II) Oxide Nano Additives for Sustainable Thermal Energy Storage |
| title_full_unstemmed |
Energizing the Thermal Conductivity and Optical Performance of Salt Hydrate Phase Change Material Using Copper (II) Oxide Nano Additives for Sustainable Thermal Energy Storage |
| title_sort |
energizing the thermal conductivity and optical performance of salt hydrate phase change material using copper (ii) oxide nano additives for sustainable thermal energy storage |
| publisher |
EDP Sciences |
| publishDate |
2025 |
| _version_ |
1825816076824346624 |
| score |
13.244413 |