浅层地热换热技术与系统优化研究进展

江振辉; 王李昌; 刘井鹏

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浅层地热换热技术与系统优化研究进展

清洁能源与储能 | 更新时间：2026-02-25

- 浅层地热换热技术与系统优化研究进展
- 浅层地热换热技术与系统优化研究进展
- 中外能源 2026年31卷第2期页码：17-28
- 作者机构：
  
  1. 中南大学地球科学与信息物理学院
  2. 长沙市深地资源能源开发技术创新中心
- 作者简介：
- 基金信息：
  
  湖南省自然资源厅科技计划项目“浅层地热开发利用关键技术研发及应用”（编号：20230101DZ）;湖南省自然科学基金项目“干热型地热开发钻井岩心孔隙-裂隙演化规律”（编号：2024JJ8361）;湖南省自然科学基金项目“深地钻探结晶岩损伤演化机理”（编号：2025JJ20030）
- DOI：
  中图分类号： TK529;TU83
- 纸质出版：2026
- 稿件说明：
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江振辉, 王李昌, 刘井鹏. 浅层地热换热技术与系统优化研究进展[J]. 中外能源, 2026,31(2):17-28.

江振辉, 王李昌, 刘井鹏. 浅层地热换热技术与系统优化研究进展[J]. 2026, 31(2): 17-28.
江振辉, 王李昌, 刘井鹏. 浅层地热换热技术与系统优化研究进展[J]. 中外能源, 2026,31(2):17-28. DOI：

江振辉, 王李昌, 刘井鹏. 浅层地热换热技术与系统优化研究进展[J]. 2026, 31(2): 17-28. DOI：

摘要

浅层地热能低碳环保、运行稳定，对能源转型具有重要支撑作用。地源热泵系统在浅层地热能的开发利用中受到广泛关注，但目前仍面临诸多挑战。为推动浅层地热能开发利用的理论体系构建，系统分析了地埋管地源热泵、水源热泵等核心换热技术以及地源热泵系统的优化策略。水平地埋管换热器施工便捷、成本较低，但由于占地面积大等因素而受到限制。竖直U型地埋管换热器占地面积小、换热效率较高，但面临钻井成本高、热干扰等挑战。地表水源热泵系统在寒冷地区比传统空气源热泵更高效且运行稳定，但受水质影响，维护成本高，且存在热传递短路问题。地下水源热泵系统能效高，可大幅减少二氧化碳排放，且全年能相对稳定运行，但设备及管道容易氧化和腐蚀，影响换热效率。未来地源热泵系统的优化方向，一是发展混合地源热泵系统，通过耦合太阳能等其他可再生能源缓解热失衡问题，并提升能效；二是引入智能控制系统，利用人工智能算法实现能源动态调度与运行策略优化。

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