Is Your Ground Source Heat Pump Climate-Ready™?
Ground source heat pumps face several critical challenges that engineers must overcome to ensure optimal functionality and performance. A volatile electricity market, combined with higher demands for efficiency and reduced CO2 emissions, is setting the scene for the next operating envelope, resulting in stable and high performance at all conditions, generation of ground source heat pumps.
Optimizing performance across the entire operating envelope and managing variable speed compressors and water pumps sets a new level of demand on the system design. The selected heat transfer technology will have a major impact on meeting these challenges.


How can Heat Transfer Technologies Elevate Performance and Sustainability?
Our heat transfer solutions are designed to tackle these challenges effectively. Our CFD-optimized channel plates enhance overall performance by perfectly adapting heat transfer to the specific conditions of ground source heat pumps.
Additionally, our heat exchangers feature an asymmetric design, where the channels are meticulously developed to balance refrigerant charge, performance, and water/brine pressure drop. This allows for minimal use of refrigerant in the system, contributing to better efficiency and environmental sustainability. Moreover, our heat exchangers are optimized for variable speed operation. This optimization ensures efficient refrigerant distribution and maximum utilization of the heat transfer area across the full operating envelope.
By addressing these critical challenges with our innovative solutions, we provide engineers with the tools they need to drive SCOP to new levels, achieving superior performance and sustainability in ground source heat pump systems.
Challenge
- SCOP
- Low refrigerant charge
- Wide envelope
- Natural refrigerants
Solution
- CFD optimized plates
- Asymmetric
- Adapted distribution
- Variable speed suitable

GS-product range dedicated for Ground Source Heat Pumps

- Condenser GSC
- Evaporator GSE
- Range <30kW