Abstract
Flexibility is the capability of the power grid to maintain a balance between electricity generation and variable demand. This study presents preliminary results evaluating the impact of geothermal district heating systems on the flexibility of a conceptual microgrid in Tuttle, Oklahoma. Heating demand profiles were modeled using EnergyPlus for the district that includes two schools and 250 single-family houses. Then, geothermal energy production was modeled using GEOPHIRES to estimate how much heating demand in the district can be supplied by five different geothermal system scenarios. The results indicated that geothermal energy production varied depending on the resource temperature at different depths, system configurations, and flow rates. For the grid flexibility analysis, electricity consumptions in the five geothermal systems were estimated for pump operations to circulate water from the wells to radiators, while electricity consumption by air-source heat pump in the base case was estimated to supply the same heating load. Electricity consumption in the geothermal systems was significantly lower than those in base cases. The electricity saved by the geothermal system was then incorporated into the microgrid electrical load profiles where variable renewable electricity generation is significantly high. The results visually showed that geothermal district heating system can improve grid flexibility as a baseload during the winter season. The results also highlighted potential opportunities to save energy costs that will be further analyzed in future study.
Original language | American English |
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Number of pages | 13 |
State | Published - 2024 |
Event | 2024 Geothermal Rising Conference - Waikoloa, Hawaii Duration: 27 Oct 2024 → 30 Oct 2024 |
Conference
Conference | 2024 Geothermal Rising Conference |
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City | Waikoloa, Hawaii |
Period | 27/10/24 → 30/10/24 |
NREL Publication Number
- NREL/CP-5700-90334
Keywords
- Cambium
- EnergyPlus
- geothermal district heating
- grid flexibility
- heating demand
- microgrid