Litcius/Paper detail

Analysis of the transient performance of coaxial and u-tube borehole heat exchangers

B.E. Harris, M.F. Lightstone, Stanley Reitsma, James S. Cotton

2022Geothermics36 citationsDOIOpen Access PDF

Abstract

While coaxial borehole heat exchangers often have lower borehole thermal resistances than u-tubes, studies in the literature have mixed results as to whether the coaxial design always outperforms the u-tube. This study contributes a systematic comparison between the two designs, accomplished using a custom numerical model in OpenFOAM that provides detailed predictions of the heat transfer within the ground heat exchangers. The modelling and subsequent analysis of system thermal resistances demonstrated that the u-tube and coaxial heat exchanger performances differed the most during the early, transient phase of operation. Furthermore, modelling showed that the coaxial design does not necessarily exceed the u-tube performance long term; testing of coaxial heat exchangers with polyethylene piping showed small differences in outlet temperature compared to the u-tube after 72 h. Additional testing showed that using a steel coaxial outer tube could provide a 22% improvement to performance over the u-tube design. These findings are used to compare predictions of thermal resistance with available analytical models. The impact of the results on the potential for length reductions is also discussed.

Topics & Concepts

CoaxialHeat exchangerPipingTransient (computer programming)Tube (container)BoreholeMaterials scienceHeat transferThermalMechanicsMechanical engineeringEngineeringComposite materialThermodynamicsGeotechnical engineeringPhysicsComputer scienceOperating systemGeothermal Energy Systems and ApplicationsDrilling and Well EngineeringSoil and Unsaturated Flow