Packing Heat: Energy Storage Using Phase Change Materials

P. Shrestha
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Abstract

Many technological applications that involve intermittent energy demand and supply, such as solar or building energy systems, function more effectively if there is a storage mechanism to act as a buffer. Phase Change Materials (PCMs) can greatly increase the energy storage capacity of conventional (sensible energy) storage systems because of the high-energy transfer during their phase transition. With the help of PCMs, larger amounts of energy can be stored in smaller volume and at lower temperatures (resulting in lower insulation costs). This research paper discusses the problem-solving process of selecting a novel PCM (myristic acid) and designing a model apparatus to measure its thermal properties and behaviour. Experiments were conducted on water to calibrate the apparatus and estimate the errors in the experiment.
包装热:相变材料储能
许多涉及间歇性能源需求和供应的技术应用,如太阳能或建筑能源系统,如果有储存机制作为缓冲,就能更有效地发挥作用。相变材料由于其相变过程中的高能转移,可以大大提高传统(显能)储能系统的储能容量。在pcm的帮助下,可以在更小的体积和更低的温度下存储更多的能量(从而降低绝缘成本)。本文讨论了选择一种新型的肉豆蔻酸(PCM)并设计一种模型装置来测量其热性能和行为的问题解决过程。在水中进行了实验,对仪器进行了标定,并对实验误差进行了估计。
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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