Flexible Air Source Heat pump for domestic heating decarbonisation (FASHION)

用于家庭供暖脱碳的灵活空气源热泵（时尚）

• 批准号: EP/V042033/2
• 负责人: Zhibin Yu
• 金额: $ 44.87万
• 依托单位: University of Liverpool
• 依托单位国家: 英国
• 项目类别: Research Grant
• 财政年份: 2024
• 资助国家: 英国
• 起止时间: 2024 至 无数据
• 项目状态: 未结题
• 来源: https://gtr.ukri.org/projects?ref=EP%2FV042033%2F2
• 关键词: Flexible; Air; Source; Heat; pump

The UK has set a target to reach net zero emissions by 2050. Heat accounts for nearly half of the UK's energy consumption. Among several possible solutions, heat pumps are considered as one of the most promising technologies for decarbonising the domestic heating sector. Among all heat pumps, air source heat pumps (ASHP) are the most cost-effective option for householders. the Committee on Climate Change (CCC) recommends mass deployment of heat pumps to comply with the net zero target, and their net zero 'Further Ambition' scenario includes the deployment of 19 million heat pumps in homes by 2050. However, the uptake of heat pumps in the UK is very low at present. In 2018, heat pump sales in the UK were around 27,000 units (most are ASHPs), significantly lower than other EU countries. This represents a grand challenge for the government, industry, business, and research communities. There are a number of technological and non-technological barriers hindering the wide uptake of heat pumps, particularly air source heat pumps in the UK. There is a mismatch between the current ASHP products and the existing infrastructure and property configuration. Over 80% of houses in the UK use gas boilers for space heating, so their heat emitters (i.e., radiators) are designed for high temperature heat supply using gas boilers. However, most ASHPs available in the market have a relatively low heat production temperature. Secondly, ASHPs are vulnerable to ambient conditions. Their heating capacity and coefficient of performance drop dramatically as the ambient air temperature falls. Furthermore, frost starts to build up at the surface of the outdoor unit when the air temperature drops to around 6 C, so the outdoor units have to be regularly defrosted. Non-technical barriers have also played an important role behind the low uptake of heat pumps. The current UK heat pump market suffers from high capital cost and a low awareness of the product. This project, based on the PI's pending patent (Application number: 2015531.3), aims to develop a novel flexible, multi-mode air source heat pump (ASHP). This offers energy-free defrosting and is capable of continuous heating during frosting, thus eliminating the backup heater that is required by current ASHPs. We will address the key technical and non-technical challenges through interdisciplinary innovations. Our project is also supported by leading industrial companies with substantial contributions (e.g. the compressor). The developed technology offers energy-free defrosting and can be operated at different modes to benefit from off-peak electricity and/or warm air during the daytime. It will be much more energy-efficient than the current products, and thus could facilitate rapid uptake of air source heat pumps, making an important contribution to the decarbonisation of the domestic heating sector in the UK.

英国设定了一个目标，可以到2050年达到零排放量。热量占英国能源消耗的近一半。在几种可能的解决方案中，热泵被认为是脱碳的最有前途的技术之一。在所有热泵中，空气源热泵（ASHP）是住户最具成本效益的选择。气候变化委员会（CCC）建议将热泵进行大规模部署以符合零净目标，其净零“进一步的野心”情况包括到2050年到2050年在家庭中部署了1900万个热泵。但是，目前英国的热泵吸收非常低。 2018年，英国的热泵销售约为27,000辆（大多数是ASHP），明显低于其他欧盟国家。这对政府，工业，商业和研究社区来说是一个巨大的挑战。有许多技术和非技术障碍阻碍了热泵的广泛吸收，尤其是英国的空气源热泵。当前的ASHP产品与现有基础架构和属性配置之间存在不匹配。英国超过80％的房屋使用燃气锅炉进行空间加热，因此它们的热量发射器（即散热器）是为使用燃气锅炉的高温热供应而设计的。但是，市场上可用的大多数灰烬的热量生产温度相对较低。其次，ASHP容易受到环境条件的影响。随着环境空气温度的下降，它们的加热能力和性能系数急剧下降。此外，当空气温度下降到6 C左右时，霜冻开始在室外单元的表面上积聚，因此必须定期将室外单元定期解冻。非技术障碍物在低吸收泵的吸收后也发挥了重要作用。当前的英国热泵市场遭受了高资本成本，对产品的认识较低。该项目基于PI的未决专利（申请号：2015531.3），旨在开发一种新型的灵活的多模式空气源热泵（ASHP）。这提供了无能的解冻，并且能够在糖霜过程中连续加热，从而消除了当前ASHP所需的备用加热器。我们将通过跨学科创新解决关键的技术和非技术挑战。我们的项目也得到了具有重大贡献（例如压缩机）的领先工业公司的支持。开发的技术提供了无能的解冻，可以在不同的模式下运行，以便在白天的非高峰电力和/或温暖的空气中受益。它将比目前的产品更节能，因此可以促进空气源热泵的快速吸收，从而为英国国内供暖部门的脱碳做出重要贡献。