钻孔
热泵
资本成本
热交换器
环境科学
钻探
工程类
石油工程
瞬态(计算机编程)
空气源热泵
热回收通风
地热能
热能储存
采暖系统
营业成本
可再生能源
降低成本
性能系数
地温梯度
模式(计算机接口)
土木工程
核工程
NTU法
作者
Mohammad Mahmoudi Majdabadi,Misagh Irandoostshahrestani,Seama Koohi-Fayegh
出处
期刊:Geothermics
[Elsevier BV]
日期:2026-03-03
卷期号:138: 103640-103640
标识
DOI:10.1016/j.geothermics.2026.103640
摘要
• The novel dual-source heat pump (DSHP) model is developed for three Canadian cities. • Transient ground-source heat pump (GSHP) and borehole behavior is captured. • DSHP reduces borehole length by up to 40 % compared to GSHP systems. • Life-cycle cost analysis reveals reduction of up to 8 % for Canadian climates. • DSHP economic feasibility is mainly dependent on drilling costs and heating loads. Dual-source heat pumps (DSHPs) mitigate high upfront costs of ground-source systems (GSHPs) by dynamically switching between air and ground sources. They might be a particularly feasible technology for climate with unbalanced heating and cooling loads that often result in large ground heat exchanger sizes, and consequently high capital costs and low community adoption, if only ground were to be used as a heat source/sink. This study proposes a framework to accurately evaluate the performance and economic advantages of adopting DSHP compared to GSHPs through semi-analytical dynamic simulations of DSHP system and life-cycle cost analysis. It then uses this framework to assess such advantages for DSHPs used in three Canadian cities (Edmonton, Toronto, and Montreal). By adjusting the outdoor air temperature set points, which determine when the heat pump switches from air-source to ground-source mode during heating and cooling modes, borehole lengths are reduced by up to approximately 40 % compared to GSHP-only designs. As a result, capital cost savings are achieved in Toronto and Montreal, while maintaining or improving life-cycle costs. Edmonton, in Climate Zone 6, shows limited overall savings.
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