Thermoeconomic performance of a CO2 heat pump for space and water heating of a 4-bedroom house in the South of England
Heat pumps are considered a key technology for the decarbonisation of space and water heating in domestic dwellings in the UK. Heat pumps that employ high-temperature working fluids such as CO2 have the potential to be used in retrofit applications. This paper presents the characteristics of a CO2 h...
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| Published in | Building services engineering research & technology Vol. 46; no. 4; pp. 545 - 559 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
London, England
SAGE Publications
01.07.2025
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| Subjects | |
| Online Access | Get full text |
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| Abstract | Heat pumps are considered a key technology for the decarbonisation of space and water heating in domestic dwellings in the UK. Heat pumps that employ high-temperature working fluids such as CO2 have the potential to be used in retrofit applications. This paper presents the characteristics of a CO2 heat pump developed at Brunel University of London and the simulation results of its application to provide space and domestic hot water heating in a well-insulated four-bedroom semi-detached house with four occupants. The heating system is assumed to employ water thermal energy storage. Analysis has shown that storage volumes between 200 L and 300 L can satisfy the space temperature control requirements of the domestic dwelling if a heat pump capacity of 4.5 kW at 7°C ambient temperature and 60°C water flow temperature is employed. A comparison of the heat pump with a gas boiler reveals that with current gas and electricity prices, running costs for the heat pump can be 91% higher and CO2 emissions 40% lower than those of the gas boiler. Further design and control optimisation of the heat pump is expected to reduce both its running costs and CO2 emissions.
Practical application
This paper examines the practical application of a 4.5 kW heat pump with water thermal energy storage for domestic heating. The system operates efficiently at 7°C ambient and 60°C water flow temperatures, and can be retrofitted in two-thirds of UK homes without upgrading radiators. For a four-bedroom house, 200–300 L thermal storage volumes are optimal. While running costs are 91% higher than a gas boiler, the heat pump reduces CO2 emissions by 40%, offering a more sustainable heating solution. |
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| AbstractList | Heat pumps are considered a key technology for the decarbonisation of space and water heating in domestic dwellings in the UK. Heat pumps that employ high-temperature working fluids such as CO2 have the potential to be used in retrofit applications. This paper presents the characteristics of a CO2 heat pump developed at Brunel University of London and the simulation results of its application to provide space and domestic hot water heating in a well-insulated four-bedroom semi-detached house with four occupants. The heating system is assumed to employ water thermal energy storage. Analysis has shown that storage volumes between 200 L and 300 L can satisfy the space temperature control requirements of the domestic dwelling if a heat pump capacity of 4.5 kW at 7°C ambient temperature and 60°C water flow temperature is employed. A comparison of the heat pump with a gas boiler reveals that with current gas and electricity prices, running costs for the heat pump can be 91% higher and CO2 emissions 40% lower than those of the gas boiler. Further design and control optimisation of the heat pump is expected to reduce both its running costs and CO2 emissions.
Practical application
This paper examines the practical application of a 4.5 kW heat pump with water thermal energy storage for domestic heating. The system operates efficiently at 7°C ambient and 60°C water flow temperatures, and can be retrofitted in two-thirds of UK homes without upgrading radiators. For a four-bedroom house, 200–300 L thermal storage volumes are optimal. While running costs are 91% higher than a gas boiler, the heat pump reduces CO2 emissions by 40%, offering a more sustainable heating solution. |
| Author | Qayyum, Usman Tassou, Savvas A Torrens, Debarati Tavares, Jose |
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| Keywords | thermal energy storage Air to water CO2 heat pump CO2 emissions domestic hot water and space heating |
| Language | English |
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| References | Wang, Wang, Li 2020; 165 Lamb, Elmes 2024; 3 Gross, Hanna 2019; 4 Cao, Cui, Wei 2019; 106 |
| References_xml | – volume: 3 start-page: 10 year: 2024 article-title: Increasing heat pump adoption: analysing multiple perspectives on preparing homes for heat pumps in the UK publication-title: Carb Neutrality – volume: 4 start-page: 358 year: 2019 end-page: 364 article-title: Path dependency in provision of domestic heating publication-title: Nat Energy – volume: 165 start-page: 114505 year: 2020 article-title: Experimental investigation on thermal characteristics of transcritical CO2 heat pump unit combined with thermal energy storage for residential heating publication-title: Appl Therm Eng – volume: 106 start-page: 539 year: 2019 end-page: 548 article-title: The experimental investigation on a novel transcritical CO2 heat pump combined system for space heating publication-title: Int J Refrig |
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| Title | Thermoeconomic performance of a CO2 heat pump for space and water heating of a 4-bedroom house in the South of England |
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