An experimental facility for latent heat thermal energy storage units

2022 IEEE 7th International Energy Conference (ENERGYCON) Pub Date : 2022-05-09 DOI:10.1109/energycon53164.2022.9830278

Héctor Bastida, Amanda Younes, C. E. Ugalde-Loo, Rob Smart, M. Khaljani, N. Jenkins, Babar Baluch

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Abstract

Assessing the performance of thermal energy storage (TES) units beyond software simulation requires testing in a controlled environment, with specific operating modes, and in safe conditions. A test-rig with an energy source and a monitoring system is very helpful to conduct experimental tests to assess the performance of TES systems. To this end, this paper presents an experimental facility for the study of latent heat TES (LH-TES) units. Emphasis is placed on the individual elements of the facility, which includes plumbing components and electric heaters to support the charging process of the TES units. Water is used as the heat transfer fluid (HTF). To demonstrate the capabilities of the test-rig, an LH-TES prototype for heating applications is used. Four different configurations and three operating modes are assessed: charging, discharging and discharging-mixing. The wide range of the experiments possible with the developed facility enables testing of early designs of LH-TES units ahead of deployment in real thermal networks.

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潜热蓄热装置的实验装置

除了软件模拟之外，评估热储能(TES)装置的性能需要在受控环境、特定操作模式和安全条件下进行测试。具有能量源和监测系统的试验台对进行测试以评估TES系统的性能非常有帮助。为此，本文设计了一个潜热TES (LH-TES)装置的实验装置。重点放在设施的各个组成部分，包括管道组件和电加热器，以支持TES单元的充电过程。水被用作传热流体(HTF)。为了展示试验台的能力，使用了用于加热应用的LH-TES原型。评估了四种不同的配置和三种操作模式:充电，放电和放电混合。开发的设备可以进行广泛的实验，可以在实际热网络部署之前对LH-TES单元的早期设计进行测试。

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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2022 IEEE 7th International Energy Conference (ENERGYCON)

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