垂直闭环地热加热和冷却系统的综述,重点是地下的重要性

2区 工程技术 Q1 Earth and Planetary Sciences Journal of Petroleum Science and Engineering Pub Date : 2023-01-01 DOI:10.1016/j.petrol.2022.111137
Keivan Khaleghi, Silviu Livescu
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引用次数: 2

摘要

地热热泵(GHP)系统已被证明是一种用于住宅、公共和商业建筑制冷和供暖的成熟技术。有一个地热解决方案可以实现太空供暖和制冷脱碳的宏伟目标,这取决于GHP技术的成功部署。这反过来又需要准确的现场特征、完善的设计方法、有效的控制逻辑以及短期和长期(生命周期)性能分析和优化。在这篇文章中,我们回顾了垂直闭环GHP的上述方面,特别关注地下的重要作用。介绍了GHP技术的基本原理以及相关趋势和统计数据。将GHP与空气源热泵(ASHP)等类似技术以及部署对电网峰值负荷的影响进行了比较。然后,我们回顾了常见的系统架构、更深钻孔的增长趋势及其背后的驱动因素。介绍了GHP的各种设计、规模确定和模拟方法,以及研究和工业中常见的软件工具。然后,我们转向地下表征、钻井和垂直钻孔的井施工。GHP系统的长期性能监测是模型验证和工程设计的重要信息来源,近年来越来越受到关注。数据科学是另一个快速发展的领域,其方法越来越多地用于GHP应用。简要回顾了全球统一制度的环境方面。最后,对综述进行了总结,并强调了石油工程专业知识和方法在GHP应用中的潜力。
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A review of vertical closed-loop geothermal heating and cooling systems with an Emphasis on the importance of the subsurface

Geothermal heat pump (GHP) systems have been established as a proven technology for cooling and heating residential, public and commercial buildings. There is a geothermal solution to the ambitious goal of decarbonizing the space heating and cooling, which is contingent on the successful deployment of the GHP technology. This in turn requires accurate site characterization, sound design methodologies, effective control logic, and short and long-term (life-cycle) performance analysis and optimization. In this article, we review the aforementioned aspects of the vertical closed-loop GHPs specifically focusing on the important role of the subsurface. The basics of GHP technology are introduced along with relevant trends and statistics. GHPs are compared with similar technologies such as air source heat pumps (ASHP) along with the effects of deployment on the grid peak load. We then review the common system architectures and the growing trends for deeper boreholes and the drivers behind it. Various methods for design, sizing, and simulation of GHPs are introduced along with software tools common in research and industry. We then move to subsurface characterization, drilling and well construction of vertical boreholes. Long-term performance monitoring for GHP systems is an important source of information for model validation and engineering design and is garnering increasing attention recently. Data science is another field that is growing rapidly with its methods increasingly utilized in GHP applications. The environmental aspect of GHPs is briefly reviewed. Finally, concluding remarks are given to summarize the review and highlight the potential of petroleum engineering expertise and methods in GHP applications.

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来源期刊
Journal of Petroleum Science and Engineering
Journal of Petroleum Science and Engineering 工程技术-地球科学综合
CiteScore
11.30
自引率
0.00%
发文量
1511
审稿时长
13.5 months
期刊介绍: The objective of the Journal of Petroleum Science and Engineering is to bridge the gap between the engineering, the geology and the science of petroleum and natural gas by publishing explicitly written articles intelligible to scientists and engineers working in any field of petroleum engineering, natural gas engineering and petroleum (natural gas) geology. An attempt is made in all issues to balance the subject matter and to appeal to a broad readership. The Journal of Petroleum Science and Engineering covers the fields of petroleum (and natural gas) exploration, production and flow in its broadest possible sense. Topics include: origin and accumulation of petroleum and natural gas; petroleum geochemistry; reservoir engineering; reservoir simulation; rock mechanics; petrophysics; pore-level phenomena; well logging, testing and evaluation; mathematical modelling; enhanced oil and gas recovery; petroleum geology; compaction/diagenesis; petroleum economics; drilling and drilling fluids; thermodynamics and phase behavior; fluid mechanics; multi-phase flow in porous media; production engineering; formation evaluation; exploration methods; CO2 Sequestration in geological formations/sub-surface; management and development of unconventional resources such as heavy oil and bitumen, tight oil and liquid rich shales.
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