Numerical and experimental studies of a Capillary-Tube embedded PCM component for improving indoor thermal environment
This paper aims to analyse the thermal characteristics of a novel system of Capillary Tubes embedded in a Phase Change Material (CT-PCM) as part of active building environmental design for energy conservation and the improvement of indoor thermal environment. The CT-PCM system is proposed based on...
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my.unimas.ir.228662021-04-21T00:36:23Z http://ir.unimas.my/id/eprint/22866/ Numerical and experimental studies of a Capillary-Tube embedded PCM component for improving indoor thermal environment Mohamad Iskandar, Jobli Runming, Yao Zhiwen, Luo Shahrestani, Mehdi Nan, Li Hong, Liu T Technology (General) TJ Mechanical engineering and machinery This paper aims to analyse the thermal characteristics of a novel system of Capillary Tubes embedded in a Phase Change Material (CT-PCM) as part of active building environmental design for energy conservation and the improvement of indoor thermal environment. The CT-PCM system is proposed based on the concept that lowgrade energy utilisation potential could be harnessed and maximised by buildings’ radiant heating/cooling systems and phase change material. The CT-PCM component is first built in the laboratory, and the thermal characteristics of the CT-PCM are investigated through a set of thermal response experiments. In addition, a simplified model is developed to assess the long-term thermal performance of the CT-PCM system for its application during a strategical system design stage. To ensure the robustness of the numerical model in the assessment of the thermal performance of the system, the developed model is evaluated against the experiments under a set of dynamic thermal boundary conditions. The evaluation process revealed that when the flow rate of thermal fluids in the CT-PCM system is more than 800 ml/min, the simulation results of the proposed simplified model is in a good agreement with the experiment. When the flow rate in the capillary tube is smaller than 800 ml/min, the correction factors are derived to address the non-uniformity of temperature distribution. Elsevier 2019 Article PeerReviewed text en http://ir.unimas.my/id/eprint/22866/1/Mohamad%20Iskandar.pdf Mohamad Iskandar, Jobli and Runming, Yao and Zhiwen, Luo and Shahrestani, Mehdi and Nan, Li and Hong, Liu (2019) Numerical and experimental studies of a Capillary-Tube embedded PCM component for improving indoor thermal environment. Applied Thermal Engineering, 148. pp. 466-477. ISSN 1359-4311 https://www.journals.elsevier.com/applied-thermal-engineering DOI:org/10.1016/j.applthermaleng.2018.10.041 |
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T Technology (General) TJ Mechanical engineering and machinery Mohamad Iskandar, Jobli Runming, Yao Zhiwen, Luo Shahrestani, Mehdi Nan, Li Hong, Liu Numerical and experimental studies of a Capillary-Tube embedded PCM component for improving indoor thermal environment |
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This paper aims to analyse the thermal characteristics of a novel system of Capillary Tubes embedded in a Phase
Change Material (CT-PCM) as part of active building environmental design for energy conservation and the
improvement of indoor thermal environment. The CT-PCM system is proposed based on the concept that lowgrade energy utilisation potential could be harnessed and maximised by buildings’ radiant heating/cooling
systems and phase change material. The CT-PCM component is first built in the laboratory, and the thermal
characteristics of the CT-PCM are investigated through a set of thermal response experiments. In addition, a
simplified model is developed to assess the long-term thermal performance of the CT-PCM system for its application during a strategical system design stage. To ensure the robustness of the numerical model in the
assessment of the thermal performance of the system, the developed model is evaluated against the experiments
under a set of dynamic thermal boundary conditions. The evaluation process revealed that when the flow rate of
thermal fluids in the CT-PCM system is more than 800 ml/min, the simulation results of the proposed simplified
model is in a good agreement with the experiment. When the flow rate in the capillary tube is smaller than
800 ml/min, the correction factors are derived to address the non-uniformity of temperature distribution. |
format |
Article |
author |
Mohamad Iskandar, Jobli Runming, Yao Zhiwen, Luo Shahrestani, Mehdi Nan, Li Hong, Liu |
author_facet |
Mohamad Iskandar, Jobli Runming, Yao Zhiwen, Luo Shahrestani, Mehdi Nan, Li Hong, Liu |
author_sort |
Mohamad Iskandar, Jobli |
title |
Numerical and experimental studies of a Capillary-Tube embedded PCM component for improving indoor thermal environment |
title_short |
Numerical and experimental studies of a Capillary-Tube embedded PCM component for improving indoor thermal environment |
title_full |
Numerical and experimental studies of a Capillary-Tube embedded PCM component for improving indoor thermal environment |
title_fullStr |
Numerical and experimental studies of a Capillary-Tube embedded PCM component for improving indoor thermal environment |
title_full_unstemmed |
Numerical and experimental studies of a Capillary-Tube embedded PCM component for improving indoor thermal environment |
title_sort |
numerical and experimental studies of a capillary-tube embedded pcm component for improving indoor thermal environment |
publisher |
Elsevier |
publishDate |
2019 |
url |
http://ir.unimas.my/id/eprint/22866/1/Mohamad%20Iskandar.pdf http://ir.unimas.my/id/eprint/22866/ https://www.journals.elsevier.com/applied-thermal-engineering |
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1698700781798031360 |