Scientists design residential ice-source heat pump using repurposed gas pipes

Researchers from the University of Nottingham in the United Kingdom have developed a residential ice-source heat pump system that uses repurposing existing gas pipelines to transport water for the ice-source heat pump's operation.

“Our heat pump demonstrates superior performance compared to all existing types, based on our claims. We have developed a prototype and are about to begin testing its performance,” corresponding author, Ramin Mehdipour, told pv magazine. 

The research group carried out a numerical simulation of the system on a house with a 98 m2 floor area, operating in the weather of the British city of Nottingham in 2021.

“The biggest issue with air-source heat pumps (ASHPs) is their inability to provide adequate heating during peak cold conditions, leading to higher electricity consumption and potential strain on the energy supply system,” the academics said. “Innovative solutions are vital for overcoming challenges in the heating sector, and ice-source heat pumps, by repurposing gas pipelines, offer a promising alternative that balances technological feasibility with environmental sustainability.”

Ice-source heat pumps are based on utilizing the latent heat produced when water freezes to ice. It cools the water until freezing with the R290 refrigerant and utilizes the released heat to warm the house. The ice slurry produced is then discharged into the drainage system or stored for cooling purposes in the summer.

The scientists also explained that ground temperatures during winter are higher than the external environment, which they said provides a stable heat source. “Our system aligns with geothermal heat pump principles and can be seen as a central heat pump system,” said Mehdipour. “While other heat pumps experience performance drops during peak cold conditions, the ice-source heat pump is specifically designed to operate in such conditions without disruption. Additionally, it significantly reduces ancillary energy needs for fluid circulation and water consumption, making it a suitable and efficient option.”

After designing the system, the team developed its governing equations based on thermodynamic principles and heat transfer. As references, it compared the systems to heat pumps with another heat source. They were, namely, heated by air, ground, lake and river water, pipe water, and wastewater.

The analysis showed that the heat pump's operating temperature aligns with that of systems using water near freezing. Its coefficient of performance (COP) was found to be approximately 4.77.

“The system can reduce the water mass needed for energy supply by up to 95% when using a 70% ice slurry concentration,” the scientists said. “In practical terms, the ice-source heat pump requires approximately 36.7 times less water volume than traditional heating systems for residential use, making it a highly efficient alternative.”

In concluding the research, they also said that although other heat pumps may perform better in seasons with moderate temperatures, they may also have “significant” performance decreases at low temperatures, particularly during peak cold periods.

Their findings were presented in “,” published in Renewable Energy.

• You May Needs

Customized/OEM/ODM Service

HomSolar Supports Lifepo4 battery pack customization/OEM/ODM service, welcome to contact us and tell us your needs.

HomSolar: Your One-stop LiFePO4 Battery Pack & ESS Solution Manufacturer

Our line of LiFePO4 (LFP) batteries offer a solution to demanding applications that require a lighter weight, longer life, and higher capacity battery. Features include advanced battery management systems (BMS), Bluetooth® communication and active intelligent monitoring.

Customised Lithium Iron Phosphate Battery Casing

ABS plastic housing, aluminium housing, stainless steel housing and iron housing are available, and can also be designed and customised according to your needs.

HomSolar Smart BMS

Intelligent Battery Management System for HomSolar Energy Storage System. Bluetooth, temperature sensor, LCD display, CAN interface, UART interface also available.

Terminals & Plugs Can Be Customized

A wide range of terminals and plugs can be customised to suit the application needs of your battery products.

Well-designed Solutions for Energy Storage Systems

We will design the perfect energy storage system solution according to your needs, so that you can easily solve the specific industry applications of battery products.

About Our Battery Cells

Our energy storage system products use brand new grade A LiFePO4 cells with a battery lifespan of more than 4,000 charge/discharge cycles.

Applications in Different Industries

We supply customized & OEM battery pack, assemble cells with wiring, fuse and plastic cover, all the cell wires connected to PCB plug or built BMS.
Applications: E-bike, Electric Scooter, Golf Carts, RV, Electric Wheelchair, Electric Tools, Robot Cleaner, Robot Sweeper, Solar Energy Storage System, Emergency Light, Solar Power Light, Medical Equipment, UPS Backup Power Supply.
We can provide you with customized services. We have the ability to provide a vertical supply chain, from single cells to pack/module and to a complete power solution with BMS, etc.

• About HomSolar

HomSolar (Shenzhen) Technology Co., Ltd