Energy Demand Reduction in the Built Environment Using Shallow Geothermal Integrated Energy Systems—A Comprehensive Review: Part I. Design Consideration of Ground Heat Exchanger

ASME Journal of Engineering for Sustainable Buildings and Cities Pub Date : 2021-08-01 DOI:10.1115/1.4052187

K. Balaji

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引用次数: 4

Abstract

The research collection aims at finding the various possible opportunities for the effective integration of shallow geothermal energy (SGE) to decrease the energy demand in the built environment and to reduce emission associated with it. The integration of SGE with heat pump using pipe network is extensively reviewed. The open-loop and closed-loop (vertical, horizontal, energy piles) pipe networks are the most common type of ground heat exchanging methods. The objective of the review is to improve the heat exchanger effectiveness through various design aspects according to the local climatic conditions. This comprehensive review part I contains the research details pertaining to the last two decades about ground heat exchangers (geometrical aspects, borehole material, grout material, thermal response test, analytical and numerical models). Also, the factors influencing the ground heat exchanger’s performance such as heat transfer fluid (HTF), groundwater flow, and soil properties are discussed in detail. This paper highlights the recent research findings and potential research points in the ground heat exchanger.

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利用浅层地热综合能源系统降低建筑环境的能源需求——综述:第一部分:地面换热器的设计考虑

本研究旨在寻找有效整合浅层地热能(SGE)的各种可能机会，以减少建筑环境中的能源需求并减少与之相关的排放。综述了热泵与SGE的管网集成。开环和闭环(垂直、水平、能量桩)管网是最常用的地下换热方式。回顾的目的是根据当地的气候条件，通过各种设计方面提高热交换器的效率。这篇全面的综述第一部分包含了近二十年来关于地下热交换器的研究细节(几何方面，钻孔材料，灌浆材料，热响应测试，分析和数值模型)。此外，还详细讨论了影响地下换热器性能的因素，如换热流体、地下水流和土壤性质等。本文重点介绍了地下换热器的最新研究成果和潜在的研究方向。

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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ASME Journal of Engineering for Sustainable Buildings and Cities

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