A critical assessment and summary on the low carbon energy pile technologies based on the life-cycle perspective
Challenges and prospects
Linfeng Zhang (Southeast University)
Haozhe Han (The Hong Kong Polytechnic University)
Wenxin Li (Southeast University)
Kewei Guo (Southeast University)
Minglu Yuan (Southeast University)
Zhengxuan Liu (Hunan University, TU Delft - Design & Construction Management)
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Abstract
Energy piles, a technology integrating the heat exchange component within building pile foundations for shallow geothermal energy utilization, have proven economically efficient. They outperform conventional ground source heat pumps by mitigating additional borehole costs and space requirements. This paper systematically examines low-carbon considerations and optimization measures throughout the planning, design, construction, and operation stages of energy piles, considering the entire lifecycle. Furthermore, this paper discusses potential challenges associated with decarbonizing energy piles, offering solutions based on case studies and environmental impact assessments. Through a comprehensive critical review and analysis of existing knowledge, this paper presents a systematic theory and methodology for optimal decarbonization of energy piles, serving as a valuable resource for building practitioners and researchers in this field. The findings not only contribute to a solid theoretical foundation but also provide technical support for the advancement and application of energy pile systems.