Energy performance of Cutter Soil Mix energy walls: A numerical modelling study

The Cutter Soil Mix (CSM) energy wall represents a novel type of energy geostructure, merging the environmental and cost benefits of the CSM technique with ground source heat pump technology. This innovation necessitated comprehensive research to understand the thermal, physical and mechanical characteristics of the material, and optimise energy performance of the CSM energy wall. Laboratory tests and finite element numerical modelling, replicating a full-scale CSM test site in Amstelveen (the Netherlands), were employed to evaluate energy performance under varying demand scenarios: heating only, and combined heating and cooling. Key aspects examined include the influence of horizontal connection pipes on energy extraction and injection, and the impact of U-loop configuration on heat exchange rates over short and long terms. Findings indicate that energy demand significantly affects system performance, with combined heating and cooling demands enhancing long-term heat exchange rates compared to heating-only scenarios. The study demonstrates that non-insulated connection pipes increase overall heat exchange rates, especially under heating-only conditions, while reducing the number of U-loops decreases thermal interaction and enhances energy extraction rates per activated area.