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Thermal and Economic Analysis of Heat Exchangers as Part of a Geothermal District Heating Scheme in the Cheshire Basin, UK

Christopher S. Brown, Nigel J. Cassidy, Stuart Egan, Dan Griffiths

2022Energies19 citationsDOIOpen Access PDF

Abstract

Heat exchangers are vital to any geothermal system looking to use direct heat supplied via a district heat network. Attention on geothermal schemes in the UK has been growing, with minimal attention on the performance of heat exchangers. In this study, different types of heat exchangers are analysed for the Cheshire Basin as a case study, specifically the Crewe area, to establish their effectiveness and optimal heat transfer area. The results indicate that counter-current flow heat exchangers have a higher effectiveness than co-current heat exchangers. Optimisation of the heat exchange area can produce total savings of £43.06 million and £71.5 million, over a 25-year lifetime, in comparison with a fossil-fuelled district heat network using geothermal fluid input temperatures of 67 °C and 86 °C, respectively.

Topics & Concepts

Geothermal gradientHeat exchangerGeothermal heatingEnvironmental scienceCopper in heat exchangersMicro heat exchangerGeothermal energyPetroleum engineeringHeat transferPlate heat exchangerPlate fin heat exchangerEngineeringThermodynamicsGeologyMechanical engineeringPhysicsGeophysicsGeothermal Energy Systems and ApplicationsReservoir Engineering and Simulation MethodsCO2 Sequestration and Geologic Interactions