Potential of Utilizing Thermal Energy Storage Integrated Ground Source Heat Pump System to Reshape Electricity Demand in the United States

Abstract: More than 20% of electricity generated in the United States each year is consumed for meeting the thermal demands (e.g., space cooling, space heating, and water heating) in residential and commercial buildings. Integrating thermal energy storage (TES) with building's HVAC systems has the potential to reshape the electric load profile of the building and mitigate the mismatch between the renewable generation and the demand of buildings. A novel ground source heat pump (GSHP) system integrated with underground t… Show more

“…• The first paper included in this issue is titled "Potential of utilizing energy storage integrated ground source heat pump system to reshape electricity demand in the United States." [1] The authors introduced a novel ground source heat pumps systems integrated with underground thermal energy storage an evaluated the impact on the electricity demand in multiple electricity markets in the US. The integrated system has a potential to manage the peak in electricity consumption while serving the thermal demand.…”

Special Issue: Electrification of the Building Heating Sector

“…• The first paper included in this issue is titled "Potential of utilizing energy storage integrated ground source heat pump system to reshape electricity demand in the United States." [1] The authors introduced a novel ground source heat pumps systems integrated with underground thermal energy storage an evaluated the impact on the electricity demand in multiple electricity markets in the US. The integrated system has a potential to manage the peak in electricity consumption while serving the thermal demand.…”

Special Issue: Electrification of the Building Heating Sector

Numerical modeling and parametric study of a dual purpose underground thermal battery

A review of vertical closed-loop geothermal heating and cooling systems with an Emphasis on the importance of the subsurface