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Seedling Project Report: A Novel Heat Pump Integrated Underground Thermal Energy Storage for Shaping Electric Demand of Buildings
This report presents a preliminary assessment of the technical feasibility of utilizing underground thermal energy storage (UTES) and electric-driven heat pumps (EDHPs) to enable flexible behind-the-meter electric demand of buildings while meeting their thermal demands in an energy-efficient manner. With a combined EDHP+UTES system, overproduced renewable power or the electricity generated at off-peak hours can be used to produce useful thermal energy to be stored in the UTES. The stored thermal energy is later utilized directly or through an EDHP to meet buildings? thermal demands during peak hours. Because UTES is underground, it can utilize geothermal energy by enabling geothermal heat pumps, which can meet thermal demands with higher efficiency than conventional space heating and cooling technologies. The EDHP+UTES system, therefore, not only shapes electric demand but also saves energy due to its higher efficiency.
Complete Metadata
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| contactPoint |
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"fn": "Xiaobing Liu",
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| description | This report presents a preliminary assessment of the technical feasibility of utilizing underground thermal energy storage (UTES) and electric-driven heat pumps (EDHPs) to enable flexible behind-the-meter electric demand of buildings while meeting their thermal demands in an energy-efficient manner. With a combined EDHP+UTES system, overproduced renewable power or the electricity generated at off-peak hours can be used to produce useful thermal energy to be stored in the UTES. The stored thermal energy is later utilized directly or through an EDHP to meet buildings? thermal demands during peak hours. Because UTES is underground, it can utilize geothermal energy by enabling geothermal heat pumps, which can meet thermal demands with higher efficiency than conventional space heating and cooling technologies. The EDHP+UTES system, therefore, not only shapes electric demand but also saves energy due to its higher efficiency. |
| distribution |
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"title": "A Novel Heat Pump Integrated Underground Thermal Energy Storage for Shaping Electric Demand of Buildings .pdf",
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"accessURL": "https://gdr.openei.org/files/1175/EDHP%20UTES%20technical%20report%20%28PTS%29.pdf",
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"description": "This report presents a preliminary assessment of the technical feasibility of utilizing underground thermal energy storage (UTES) and electric-driven heat pumps (EDHPs) to enable flexible behind-the-meter electric demand of buildings while meeting their thermal demands in an energy-efficient manner. "
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|
| identifier | https://data.openei.org/submissions/7310 |
| issued | 2019-05-31T06:00:00Z |
| keyword |
[
"Building",
"DPUTB",
"EDHPs",
"Electric-Driven heat pumps",
"Heat Pump",
"ORNL",
"Oak Ridge National Laboratory",
"Thermal Energy Storage",
"UTES",
"case study",
"conduction heat transfer",
"dual-purpose underground thermal battery",
"energy",
"flexible behind-the-meter electric",
"geothermal",
"lab tested",
"natural convection modeling",
"numerical model",
"peak generation focus",
"phase change modeling",
"seedling project",
"simulation",
"underground thermal energy storage"
]
|
| landingPage | https://gdr.openei.org/submissions/1175 |
| license | https://creativecommons.org/licenses/by/4.0/ |
| modified | 2019-09-23T16:07:21Z |
| programCode |
[
"019:006"
]
|
| projectLead | Arlene Anderson |
| projectNumber | FY18 AOP 2819 |
| projectTitle | A Novel Heat Pump Integrated Underground Thermal Energy Storage for Shaping Electric Demand of Buildings |
| publisher |
{
"name": "Oak Ridge National Laboratory",
"@type": "org:Organization"
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| title | Seedling Project Report: A Novel Heat Pump Integrated Underground Thermal Energy Storage for Shaping Electric Demand of Buildings |
