Review on latent thermal energy storage using phase change material

IF 1.1 Q3 Engineering

Journal of Thermal Engineering Pub Date : 2023-01-31 DOI:10.18186/thermal.1245298

Sattar Aljabair, Israa Alesbe, S. Ibrahim

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引用次数: 2

Abstract

One of the appealing technologies that contributes to raising the energy storage density is latent heat thermal energy storage. The heat of fusion is isothermally stored at a temperature representing the temperature at which a phase-change material transitions between phases. The current research provides a review of how phase transition materials are used in melting and solidification. Generally, the range of working temperature extends from -20 °C to 200 °C for solidification and melting applications. The first range (-20 to 5 °C) is employed for commercial and domestic refrigeration. The second range (5 to 40 °C) is utilized to lower the energy requirements for air-conditioning applications. The applications includes in third range (40 to 82 °C) are solar collector and heating of water. Applications of absorption cooling, waste electricity generations, and heat recovery are operated at high temperature range (82 to180 °C). There are various types of PCMs for all the above temperature ranges. The present review paper will discuss the application field, Geometry, PCM type, heat transfer augmentation technique and their effects on the performance. The conclusions are mentioned to give more insight about the PCM behavior in various applications.

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相变材料潜热储能研究进展

潜热热能存储是有助于提高能量存储密度的有吸引力的技术之一。熔化热在代表相变材料在相之间转变的温度的温度下等温储存。目前的研究综述了相变材料如何用于熔化和固化。通常，固化和熔融应用的工作温度范围为-20°C至200°C。第一个范围（-20至5°C）用于商业和家用制冷。第二个范围（5至40°C）用于降低空调应用的能源需求。第三个范围（40至82°C）的应用包括太阳能收集器和水加热。吸收冷却、废发电和热回收的应用在高温范围（82至180°C）下运行。对于上述所有温度范围，都有各种类型的PCM。综述了相变材料的应用领域、几何结构、相变材料类型、传热强化技术及其对性能的影响。提到这些结论是为了更好地了解PCM在各种应用中的行为。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Thermal Engineering THERMODYNAMICS-

CiteScore

2.40

自引率

18.20%

发文量

审稿时长

4 weeks

期刊介绍： Journal of Thermal Enginering is aimed at giving a recognized platform to students, researchers, research scholars, teachers, authors and other professionals in the field of research in Thermal Engineering subjects, to publish their original and current research work to a wide, international audience. In order to achieve this goal, we will have applied for SCI-Expanded Index in 2021 after having an Impact Factor in 2020. The aim of the journal, published on behalf of Yildiz Technical University in Istanbul-Turkey, is to not only include actual, original and applied studies prepared on the sciences of heat transfer and thermodynamics, and contribute to the literature of engineering sciences on the national and international areas but also help the development of Mechanical Engineering. Engineers and academicians from disciplines of Power Plant Engineering, Energy Engineering, Building Services Engineering, HVAC Engineering, Solar Engineering, Wind Engineering, Nanoengineering, surface engineering, thin film technologies, and Computer Aided Engineering will be expected to benefit from this journal’s outputs.