Abstract
Geothermal electricity co-production is a viable option for oil reservoirs producing large water cuts with elevated wellhead-observed temperatures. Repurposing existing oil wells significantly reduces initial investment costs historically associated with geothermal resource utilization. The National Renewable Energy Laboratory (NREL), partnering with Gradient Geothermal, Inc. (formerly known as Transitional Energy) and Grant Canyon Oil and Gas, has been tasked to evaluate the feasibility of geothermal electricity co-production at the Blackburn Oil Field with Organic Rankine Cycle (ORC) generators. The Devonian steady-state reservoir has historically been producing high water cuts of 240 degrees F (115.6 degrees C) observed at the wellhead without documented pressure drawdown or thermal breakthrough. An estimated initial reservoir temperature of approx. 260degreesF (126.7 degrees C) has been observed in the field and history-matched in a wellbore production analysis and reservoir simulation. Our objective was to develop a conceptual geological model of the subsurface, simulate a natural-state reservoir, model production scenarios, and complete a technical feasibility analysis to accomplish this task. Through extensive modeling and the use of available proprietary and public data, it was possible simulate three scenarios that indicated minimal thermal decline over the duration of a simulated ten-year production and re-injection scheme.
Original language | American English |
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Number of pages | 22 |
State | Published - 2024 |
Event | Geothermal Rising Conference - Waikoloa, HI Duration: 27 Oct 2024 → 30 Oct 2024 |
Conference
Conference | Geothermal Rising Conference |
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City | Waikoloa, HI |
Period | 27/10/24 → 30/10/24 |
NREL Publication Number
- NREL/CP-5700-90827
Keywords
- Blackburn Nevada
- co-production
- Organic Rankine Cycle
- reservoir simulation
- resource characterization
- Wells of Opportunity