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Best practices for the design and engineering of geothermal HVAC systemsWith a focus on market needs and customer goals, this practical guide explains how to realize the full potential of geothermal HVAC by integrating hydronic systems and controls at maximum capacity. Modern Geothermal HVAC: Engineering and Control Applications explains how to engineer and specify geothermal HVAC for building projects in varying geographic regions. Typical details on control parameters are provided. By using the proven methods in this innovative resource, you will be able to develop highly efficient, long-lasting, and aesthetically pleasing geothermal HVAC systems.
Coverage includes:
Low-temperature geothermal or earth coupling
Geothermal heat-pump equipment
Variations in earth coupling
Application of earth coupling with regard to site conditions
Closed-loop earth coupling and fusion
Intermediate heat exchanger usage in geothermal applications
Standing column and open geothermal systems
Fundamentals of comfort, psychrometrics, and thermodynamics
Hydronic and air HVAC system basics
Hydronic HVAC system equipment
Variations and improvements to hydronic systems
Control systems
Load sharing and energy recovery
Calculating system efficiencies, heat gain, and loss
Geothermal rebates, incentives, and renewables legislation
Contents
Low Temperature Geothermal or Earth Coupling
Application of Heat Transfer-Convection, Conduction, Radiation
Geothermal or Earth-Coupled Heat Pump Equipment
Variations of Earth Coupling
Earth and Sight Conditions
Hydronic Basics for Geothermal HVAC Engineering
Variations and Improvements to Hydronic Systems
Pumps and Efficiencies
Load Shedding and Sharing
Use of Load Sharing to Channel the Heat Differential of One Device into Useful Energy for Another
Calculating System Efficiencies, Heat Gain and Loss
Hydronic Valves and Devices
Control Schemes
Controller Interfaces
Complex Energy Calculations
Appendix
