The Experts below are selected from a list of 324 Experts worldwide ranked by ideXlab platform
Emel Onder - One of the best experts on this subject based on the ideXlab platform.
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Organic Phase change materials and their textile applications an overview
Thermochimica Acta, 2012Co-Authors: Nihal Sarier, Emel OnderAbstract:Abstract An Organic Phase change material (PCM) possesses the ability to absorb and release large quantity of latent heat during a Phase change process over a certain temperature range. The use of PCMs in energy storage and thermal insulation has been tested scientifically and industrially in many applications. The broad based research and development studies concentrating on the characteristics of known Organic PCMs and new materials as PCM candidates, the storage methods of PCMs, as well as the resolution of specific Phase change problems, such as low thermal conductivity and supercooling have been reviewed. The potential industrial applications of PCMs in textiles and clothing systems, the methods of PCM integration into textiles and the methods of evaluating their thermal properties are also presented in this study.
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Review: Organic Phase change materials and their textile applications: An overview
Thermochimica Acta, 2012Co-Authors: Nihal Sarier, Emel OnderAbstract:An Organic Phase change material (PCM) possesses the ability to absorb and release large quantity of latent heat during a Phase change process over a certain temperature range. The use of PCMs in energy storage and thermal insulation has been tested scientifically and industrially in many applications. The broad based research and development studies concentrating on the characteristics of known Organic PCMs and new materials as PCM candidates, the storage methods of PCMs, as well as the resolution of specific Phase change problems, such as low thermal conductivity and supercooling have been reviewed. The potential industrial applications of PCMs in textiles and clothing systems, the methods of PCM integration into textiles and the methods of evaluating their thermal properties are also presented in this study.
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Organic Phase change materials and their textile applications: An overview
Thermochimica Acta, 2012Co-Authors: Nihal Sarier, Emel OnderAbstract:An Organic Phase change material (PCM) possesses the ability to absorb and release large quantity of latent heat during a Phase change process over a certain temperature range. The use of PCMs in energy storage and thermal insulation has been tested scientifically and industrially in many applications. The broad based research and development studies concentrating on the characteristics of known Organic PCMs and new materials as PCM candidates, the storage methods of PCMs, as well as the resolution of specific Phase change problems, such as low thermal conductivity and supercooling have been reviewed. The potential industrial applications of PCMs in textiles and clothing systems, the methods of PCM integration into textiles and the methods of evaluating their thermal properties are also presented in this study. © 2012 Elsevier B.V. All rights reserved.
Rafeadah Rusli - One of the best experts on this subject based on the ideXlab platform.
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Encapsulation techniques for Organic Phase change materials as thermal energy storage medium: A review
Solar Energy Materials and Solar Cells, 2015Co-Authors: Tumirah Khadiran, Zulkarnain Zainal, Mohd Zobir Hussein, Rafeadah RusliAbstract:Abstract Thermal energy storage based on Organic Phase change materials (OPCMs) has attracted much attention to various applications for their excellence properties. However, OPCMs suffers from liquid leakage problem and low thermal conductivity, which limit their application as TES material. Encapsulation of OPCMs using Organic or inOrganic supporting materials is an effective way to overcome the leakage problem and enhancing their thermal conductivity property. In addition, the capsules could prevent possible interaction between OPCMs with the environment. There are many technologies described the encapsulation of OPCMs which depending on the type of supporting material and chemical properties of the OPCMs used. However, no complete overview of the techniques for encapsulation of OPCMs is available in the open literature. In this paper, we reviewed the techniques used for encapsulation of OPCMs and the method used to characterize the physico-chemical and thermal properties of encapsulated OPCMs. We believed that this review could provide useful information on the various encapsulation methods of OPCMs.
Nihal Sarier - One of the best experts on this subject based on the ideXlab platform.
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Organic Phase change materials and their textile applications an overview
Thermochimica Acta, 2012Co-Authors: Nihal Sarier, Emel OnderAbstract:Abstract An Organic Phase change material (PCM) possesses the ability to absorb and release large quantity of latent heat during a Phase change process over a certain temperature range. The use of PCMs in energy storage and thermal insulation has been tested scientifically and industrially in many applications. The broad based research and development studies concentrating on the characteristics of known Organic PCMs and new materials as PCM candidates, the storage methods of PCMs, as well as the resolution of specific Phase change problems, such as low thermal conductivity and supercooling have been reviewed. The potential industrial applications of PCMs in textiles and clothing systems, the methods of PCM integration into textiles and the methods of evaluating their thermal properties are also presented in this study.
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Review: Organic Phase change materials and their textile applications: An overview
Thermochimica Acta, 2012Co-Authors: Nihal Sarier, Emel OnderAbstract:An Organic Phase change material (PCM) possesses the ability to absorb and release large quantity of latent heat during a Phase change process over a certain temperature range. The use of PCMs in energy storage and thermal insulation has been tested scientifically and industrially in many applications. The broad based research and development studies concentrating on the characteristics of known Organic PCMs and new materials as PCM candidates, the storage methods of PCMs, as well as the resolution of specific Phase change problems, such as low thermal conductivity and supercooling have been reviewed. The potential industrial applications of PCMs in textiles and clothing systems, the methods of PCM integration into textiles and the methods of evaluating their thermal properties are also presented in this study.
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Organic Phase change materials and their textile applications: An overview
Thermochimica Acta, 2012Co-Authors: Nihal Sarier, Emel OnderAbstract:An Organic Phase change material (PCM) possesses the ability to absorb and release large quantity of latent heat during a Phase change process over a certain temperature range. The use of PCMs in energy storage and thermal insulation has been tested scientifically and industrially in many applications. The broad based research and development studies concentrating on the characteristics of known Organic PCMs and new materials as PCM candidates, the storage methods of PCMs, as well as the resolution of specific Phase change problems, such as low thermal conductivity and supercooling have been reviewed. The potential industrial applications of PCMs in textiles and clothing systems, the methods of PCM integration into textiles and the methods of evaluating their thermal properties are also presented in this study. © 2012 Elsevier B.V. All rights reserved.
Tumirah Khadiran - One of the best experts on this subject based on the ideXlab platform.
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Encapsulation techniques for Organic Phase change materials as thermal energy storage medium: A review
Solar Energy Materials and Solar Cells, 2015Co-Authors: Tumirah Khadiran, Zulkarnain Zainal, Mohd Zobir Hussein, Rafeadah RusliAbstract:Abstract Thermal energy storage based on Organic Phase change materials (OPCMs) has attracted much attention to various applications for their excellence properties. However, OPCMs suffers from liquid leakage problem and low thermal conductivity, which limit their application as TES material. Encapsulation of OPCMs using Organic or inOrganic supporting materials is an effective way to overcome the leakage problem and enhancing their thermal conductivity property. In addition, the capsules could prevent possible interaction between OPCMs with the environment. There are many technologies described the encapsulation of OPCMs which depending on the type of supporting material and chemical properties of the OPCMs used. However, no complete overview of the techniques for encapsulation of OPCMs is available in the open literature. In this paper, we reviewed the techniques used for encapsulation of OPCMs and the method used to characterize the physico-chemical and thermal properties of encapsulated OPCMs. We believed that this review could provide useful information on the various encapsulation methods of OPCMs.
Ju Lan Zeng - One of the best experts on this subject based on the ideXlab platform.
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Effects of copper nanowires on the properties of an Organic Phase change material
Solar Energy Materials and Solar Cells, 2012Co-Authors: Ju Lan Zeng, Fu Rong Zhu, Sai Bo Yu, Zhong Cao, Guang Rong Deng, Wen Pei Yan, Li Xian Sun, Ling Zhu, Ling ZhangAbstract:The effects of copper nanowires (Cu NWs) with ultra-high aspect ratio and sponge-like structure on the properties of an Organic Phase change material (PCM) were investigated. Tetradecanol (TD) was selected as the Organic PCM. The sponge-like Cu NWs clusters were randomly dispersed in the TD matrix and were wrapped by TD to form a new kind of composite PCM. The Phase change enthalpy (ΔH) of the composite PCMs was decreased linearly with the increasing of Cu NWs loading, while the melting speed was accelerated. The thermal conductivity of the composite PCMs was greatly enhanced by Cu NWs. The ΔH of the composite PCM containing 58.9 wt% (corresponding to 11.9 vol%) of Cu NWs was 86.95 J/g, and the thermal conductivity attained to 2.86 W/m K, which was nearly 9 times higher than that of the TD. The thermal conductivity enhancement of Cu NWs on the composite PCMs showed a turning point at the Cu NWs loading of 1.5 vol%. When Cu NWs loading exceeded 1.5 vol%, the thermal conductivity of the composite PCMs increased significantly faster with the increasing of Cu NWs loading. © 2012 Elsevier B.V.
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Thermal conductivity enhancement of Ag nanowires on an Organic Phase change material
Journal of Thermal Analysis and Calorimetry, 2010Co-Authors: Ju Lan Zeng, Zhong Cao, Li Xian Sun, D.-w. Yang, Li-chen ZhangAbstract:One of the greatest challenges in the application of Organic Phase change materials (PCMs) is to increase their thermal conductivity while maintaining high Phase change enthalpy. 1-Tetradecanol/Ag nanowires composite PCM containing 62.73 wt% (about 11.8 vol%) of Ag nanowires showed remarkably high thermal conductivity (1.46 W m?1 K?1) and reasonably high Phase change enthalpy (76.5 J g?1). This behavior was attributed to the high aspect ratio of Ag nanowires, few thermal conduct interfaces, and high interface thermal conductivity of Ag nanowires in the composite PCM. These results indicated that Ag nanowires might be strong candidates for thermal conductivity enhancement of Organic PCMs.
