Advances in Ground-Source Heat Pump Systems

Coordinator: Rees Simon

Language: English
Cover of the book Advances in Ground-Source Heat Pump Systems

Subject for Advances in Ground-Source Heat Pump Systems

Keywords

Air-to-refrigerant heat exchangers; Aquifer thermal energy storage (ATES)Ground-source heat pump (GSHP)Groundwater loop design; Aquifer; Borehole heat exchanger; Borehole heat exchangers; Borehole thermal energy storage; Borehole thermal resistance; Brine/water to refrigerant heat exchangers; BTES; Calculation; Carbon emissions; Coefficient of performance; Comparison; Control; COP; Cylinder source; Design; Desuperheater; Development; Direct surface water cooling (DSWC)Hypolimnion regions; Direct-expansion evaporator; DTES; Dual-source heat pump; Duct thermal energy storage; Dynamic-state modelling; Effective resistance; Energy piles; Energy tunnels; Energy walls; Foundation heat exchanger; GEOTABS; Ground heat exchanger; Ground heat exchangers; Ground source heat pump; Ground thermal conductivity; Ground-coupled heat pumps; Ground-source heat pump technology; Ground-source heat pumps; Grout resistance; Heat pump modelling; Heat pump systems; Heat pump; Heat source solution; History; Horizontal; Hydronic heating; Lake heat pumps; Line source; Local resistance; Low GWP refrigerants; Metalimnion region; Model predictive control; Modelling; Multipole; Natural refrigerants; Nonpure heat conduction solution; Numerical models; Outlook; Policy; Pure heat conduction solutions; Residential; Resistance network; Scroll compressors; Seasonal thermal storage; Slinky; Standing column well; Steady-state modelling; Surface water heat pumps; System integration; Thermal energy storage; Thermal resistance and capacity model; Thermal response test; Thermally activated building system; Thermo-hydrogeochemical model; Thermo-hydromechanical interactions; Vapour-compression heat pumps; Variable speed compressors; Well site design

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Advances in Ground-Source Heat Pump Systems relates the latest information on source heat pumps (GSHPs), the types of heating and/or cooling systems that transfer heat from, or to, the ground, or, less commonly, a body of water.

As one of the fastest growing renewable energy technologies, they are amongst the most energy efficient systems for space heating, cooling, and hot water production, with significant potential for a reduction in building carbon emissions.

The book provides an authoritative overview of developments in closed loop GSHP systems, surface water, open loop systems, and related thermal energy storage systems, addressing the different technologies and component methods of analysis and optimization, among other subjects. Chapters on building integration and hybrid systems complete the volume.

1. An introduction to ground-source heat pump technology S.J. Rees

Part One Closed-loop systems 2. Vertical borehole ground heat exchanger design methods J.D. Spitler, M. Bernier 3. Calculation of borehole thermal resistance S. Javed, J.D Spitler 4. In situ estimation of ground thermal properties H.J.L. Witte 5. Horizontal and compact ground heat exchangers S.J. Rees 6. Analytical methods for thermal analysis of vertical ground heat exchangers Z. Fang, M. Li, K. Zhu 7. Energy geostructures K. Soga, Y. Rui

Part Two Open-loop systems and energy storage 8. Surface water heat pump systems J.D. Spitler, M.S. Mitchell 9. Open-loop heat pump and thermal energy storage systems A.L. Snijders, B.C. Drijver 10. Standing column wells P. Pasquier, A. Nguyen, F.Eppner, D. Marcotte, P. Baudron 11. Borehole thermal energy storage S. Gehlin

Part Three Building integration and hybrid systems 12. Hybrid ground-source heat pump systems Y. Kim, J.S. Lee, S.W. Jeon 13. New trends and developments in ground-source heat pumps J.M. Corberan 14. Heat pump modelling C.P. Underwood 15. Geothermally activated building structures L. Helsen

Professional scientists, engineers and postgraduate researchers involved in the development, design, manufacture, installation and commissioning of renewable heating and cooling systems.

Dr Simon Rees is Associate Professor in Building Physics in the School of Civil Engineering at the University of Leeds, UK. He has been active in ground source heat pump research since joining Oklahoma State University (headquarters of the International Ground Source Heat Pump Association) in 1998 and has published more than fifty papers on GSHP and building energy simulation topics. His work focusses on modelling ground heat exchanger devices and whole system performance analysis. He participates in the European Geothermal Energy Council and EU Renewable Heating and Cooling Technology Panel concerned with shallow geothermal systems and is a regular speaker at UK Ground Source Heat Pump Association research seminars.
  • Provides the geological aspects and building integration covered together in one convenient volume
  • Includes chapters on hybrid systems
  • Presents carefully selected chapters that cover areas in which there is significant ongoing research
  • Addresses geothermal heat pumps in both heating and cooling modes