Supercooling of phase change energy storage materials

What is supercooling in thermal energy storage?

Supercooling can be experimentally characterized in differential scanning calorimetry and predicted in larger systems. A new supercooling model can be incorporated into existing phase change material computational models. A new standardized definition of supercooling for thermal energy storage is suggested.

Can supercooling and crystal nucleation be controlled in phase change energy storage?

The supercooling of phase change materials leads to the inability to recover the stored latent heat, which is an urgent problem to be solved during the development of phase change energy storage technology. This paper reviews the research progress of controlling the supercooling and crystal nucleation of phase change materials.

Are phase change materials suitable for thermal energy storage?

Phase change materials are promising for thermal energy storage; however, one major bottleneck for their practical implementation is their unclear supercooling behaviors.

Can a new supercooling model be incorporated into existing phase change material computational models?

A new supercooling model can be incorporated into existing phase change material computational models. A new standardized definition of supercooling for thermal energy storage is suggested. Supercooling predictive model is validated experimentally using Neopentyl Glycol. 1. Introduction

How can we predict supercooling performance in large scale thermal energy storage applications?

Using lab scale experimental data to predict supercooling performance in large scale thermal energy storage applications is crucial for the analysis and prediction of phase change material performance metrics.

Is supercooling a problem in heat storage?

Hence, studying thermal behavior and thermophysical properties of heat storages is of great importance. In this study, we review a common but not very well-known problem of supercooling of Phase Change Materials (PCM). Supercooling is a thermophysical property of PCMs that is problematic in thermal storage applications.