A comprehensive review of integrating phase change materials with radiant cooling panel systems for energy savings and improved thermal comfort designs
With growing concerns about global warming, pollution, and the depletion of fossil fuels, the need for renewable energy sources to meet high energy demands is imperative. Furthermore, the buildings sector, accounting for more than 40% of energy consumption, constitutes a critical area for improvemen...
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Elsevier
2025-06-01
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| Series: | Results in Engineering |
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| Online Access: | http://www.sciencedirect.com/science/article/pii/S2590123025012447 |
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| author | Osama sabah Almtuly Mazlan Abdul Wahid Mohd Ibthisham Ardani Hasanen M. Hussen Fahad Taha AL-Dhief |
| author_facet | Osama sabah Almtuly Mazlan Abdul Wahid Mohd Ibthisham Ardani Hasanen M. Hussen Fahad Taha AL-Dhief |
| author_sort | Osama sabah Almtuly |
| collection | DOAJ |
| description | With growing concerns about global warming, pollution, and the depletion of fossil fuels, the need for renewable energy sources to meet high energy demands is imperative. Furthermore, the buildings sector, accounting for more than 40% of energy consumption, constitutes a critical area for improvement. The rising demand for space cooling, driven by the widespread adoption of air-conditioning systems (ACs), has led to a discernible shift in global building energy consumption patterns. Thus, contemporary energy technology perspectives underscore the imperative of creative cooling solutions to address this mounting demand effectively. However, the fundamental issue is that reconstructing many structures is so costly that modifying them for energy use has become necessary. Moreover, lightweight buildings need additional thermal storage mass to enhance thermal comfort and minimize energy consumption. Hence, Phase Change Material (PCM) systems have emerged as a promising solution due to their capacity to deliver increased space cooling efficiency and augmented demand-side adaptability in both ceiling and floor Radiant Cooling Panel (RCP) systems. Notably, recent trends in the incorporated PCM-RCP technology have underscored the critical need for robust simulation models facilitating advancements in energy-efficient building design. This paper presents a review of the role of PCMs in energy-saving applications for the most common RCP systems. In addition, it aims to evaluate the energy and thermal performance of radiant cooling systems with integrated PCMs for reducing cooling and heating loads in existing buildings. This paper also critically examines alternative cooling systems, including traditional air-conditioning and hybrid approaches, providing a comparative perspective on their efficiency, cost, and thermal comfort benefits relative to PCM-RCP systems. Despite having high heat storage capacity and equal capability during charging and discharging periods, PCMs are still largely underutilized in thermal applications due to the slow rate of heat transmission during these processes. The RCP system is one of the most promising forms of radiant cooling systems, offering high thermal comfort, efficient energy consumption, and quiet operation. Experimental results from several studies have shown that the thermal conductivity of PCMs is the most important parameter affecting system performance. |
| format | Article |
| id | doaj-art-93515b9e681649b2a933f0d5ac42e1ae |
| institution | DOAJ |
| issn | 2590-1230 |
| language | English |
| publishDate | 2025-06-01 |
| publisher | Elsevier |
| record_format | Article |
| series | Results in Engineering |
| spelling | doaj-art-93515b9e681649b2a933f0d5ac42e1ae2025-08-20T02:57:30ZengElsevierResults in Engineering2590-12302025-06-012610516910.1016/j.rineng.2025.105169A comprehensive review of integrating phase change materials with radiant cooling panel systems for energy savings and improved thermal comfort designsOsama sabah Almtuly0Mazlan Abdul Wahid1Mohd Ibthisham Ardani2Hasanen M. Hussen3Fahad Taha AL-Dhief4High Speed Reacting Flow Laboratory, School of Mechanical Engineering, Universiti Teknologi Malaysia, Malaysia; Corresponding author.High Speed Reacting Flow Laboratory, School of Mechanical Engineering, Universiti Teknologi Malaysia, MalaysiaUTM Center for Low Carbon Transport in Cooperation with Imperial College London (LoCARTIC), Universiti Teknologi Malaysia, Skudai, Johor 81310, MalaysiaMechanical Engineering Department, University of Technology, Baghdad, IraqFaculty of Information Science and Technology, Universiti Kebangsaan Malaysia (UKM), Bangi 43600, MalaysiaWith growing concerns about global warming, pollution, and the depletion of fossil fuels, the need for renewable energy sources to meet high energy demands is imperative. Furthermore, the buildings sector, accounting for more than 40% of energy consumption, constitutes a critical area for improvement. The rising demand for space cooling, driven by the widespread adoption of air-conditioning systems (ACs), has led to a discernible shift in global building energy consumption patterns. Thus, contemporary energy technology perspectives underscore the imperative of creative cooling solutions to address this mounting demand effectively. However, the fundamental issue is that reconstructing many structures is so costly that modifying them for energy use has become necessary. Moreover, lightweight buildings need additional thermal storage mass to enhance thermal comfort and minimize energy consumption. Hence, Phase Change Material (PCM) systems have emerged as a promising solution due to their capacity to deliver increased space cooling efficiency and augmented demand-side adaptability in both ceiling and floor Radiant Cooling Panel (RCP) systems. Notably, recent trends in the incorporated PCM-RCP technology have underscored the critical need for robust simulation models facilitating advancements in energy-efficient building design. This paper presents a review of the role of PCMs in energy-saving applications for the most common RCP systems. In addition, it aims to evaluate the energy and thermal performance of radiant cooling systems with integrated PCMs for reducing cooling and heating loads in existing buildings. This paper also critically examines alternative cooling systems, including traditional air-conditioning and hybrid approaches, providing a comparative perspective on their efficiency, cost, and thermal comfort benefits relative to PCM-RCP systems. Despite having high heat storage capacity and equal capability during charging and discharging periods, PCMs are still largely underutilized in thermal applications due to the slow rate of heat transmission during these processes. The RCP system is one of the most promising forms of radiant cooling systems, offering high thermal comfort, efficient energy consumption, and quiet operation. Experimental results from several studies have shown that the thermal conductivity of PCMs is the most important parameter affecting system performance.http://www.sciencedirect.com/science/article/pii/S2590123025012447Air-conditioning systemsPhase change materialRadiant cooling panelCeiling radiant cooling panel |
| spellingShingle | Osama sabah Almtuly Mazlan Abdul Wahid Mohd Ibthisham Ardani Hasanen M. Hussen Fahad Taha AL-Dhief A comprehensive review of integrating phase change materials with radiant cooling panel systems for energy savings and improved thermal comfort designs Results in Engineering Air-conditioning systems Phase change material Radiant cooling panel Ceiling radiant cooling panel |
| title | A comprehensive review of integrating phase change materials with radiant cooling panel systems for energy savings and improved thermal comfort designs |
| title_full | A comprehensive review of integrating phase change materials with radiant cooling panel systems for energy savings and improved thermal comfort designs |
| title_fullStr | A comprehensive review of integrating phase change materials with radiant cooling panel systems for energy savings and improved thermal comfort designs |
| title_full_unstemmed | A comprehensive review of integrating phase change materials with radiant cooling panel systems for energy savings and improved thermal comfort designs |
| title_short | A comprehensive review of integrating phase change materials with radiant cooling panel systems for energy savings and improved thermal comfort designs |
| title_sort | comprehensive review of integrating phase change materials with radiant cooling panel systems for energy savings and improved thermal comfort designs |
| topic | Air-conditioning systems Phase change material Radiant cooling panel Ceiling radiant cooling panel |
| url | http://www.sciencedirect.com/science/article/pii/S2590123025012447 |
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