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引用次数: 1
摘要
要实现《欧洲绿色协议》中提出的到2050年实现气候中和的目标,供暖和制冷行业需要进行大规模转型。减少温室气体排放的一个经常讨论的选择是广泛使用地源热泵(GSHPs)来加热和冷却生活空间。在这里,分析了地源热泵为德国巴登- w ü符腾堡州的建筑物供热的技术潜力。这项研究是基于建筑物规模的年供暖能源需求,地质条件,年平均地表温度,以及法律限制,如热泵的温差,最大月度热量提取率以及限制钻井的区域。结果表明,对于许多人口稠密的地区,将需要许多地源热泵来提供供暖所需的全部能源。然而,在人口密度较低的地区,地源热泵可用于供暖。如果未来的供暖需求由于广泛的隔热改造而降低,即使在人口稠密的地区,地源热泵也可以提供大部分供暖所需的能源。
Shallow geothermal energy potential of south-west Germany
A large-scale transformation of the heating and cooling sector is needed to achieve the climate neutrality goals by 2050 as outlined in the European Green Deal. One frequently discussed option for reducing the greenhouse gas emissions is the widespread use of ground source heat pumps (GSHPs) for heating and cooling living spaces. Here, the technical potential of GSHPs to supply heat to buildings in the state of Baden-Württemberg, Germany, is analysed. This study is based on the yearly demand for heating energy at a building block scale, geological conditions, mean annual surface temperatures, as well as legal restrictions such as temperature differences at the heat pump, maximum monthly heat extraction rates as well as areas restricted from drilling. It is shown that for many densely populated areas many GSHPs would be needed to supply all the energy needed for heating. However, in less densely populated areas GSHPs can be used for heating. If future heating demand is lower due to wide-spread insulation retrofitting, GSHPs could supply most of the energy needed for heating even in densely populated areas.
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