SASKATOON – DEEP Earth Energy Production Corp. (“DEEP” or “the Corporation”) announces that SLB’s GeothermEx consulting service has completed a geoscience and reservoir engineering technical review of DEEP’s geothermal project. Their findings support the ability of the geothermal resource to sustain thermal energy production. This level of due diligence work from SLB is considered a recognized standard for geothermal investments. GeothermEx has evaluated more than 8.5 GW of clean geothermal electricity and more than $14 billion of related investments.
SLB’s review was based on DEEP’s Phase 1 geothermal pilot project, which is a 5 MW nameplate (4 MW average after seasonal fluctuations) binary geothermal plant supplied by 2 production wells and 2 injection wells, followed by a Phase 2 – 25 MW nameplate power plant (20 MW average after seasonal fluctuations) as a later expansion. DEEP anticipates additional future buildouts in 25 to 50 MW increments, potentially leading to a total of 180 MW for the project. Phase 1 and 2 would provide baseload power capacity for approximately 25,000 homes.
“GeothermEx is the gold standard for geothermal resource evaluation. This positive and comprehensive review by the world’s most established geothermal resource consulting and services firm is a major milestone as we move into construction of our first facility,” explains DEEP’s CEO Kirsten Marcia, adding, “All the drilling, testing, reservoir modelling and well design work DEEP has completed has led us to this landmark moment. It provides confidence that the geothermal resource will support the Phase 1 and 2 developments for the forecasted 40 years.”
DEEP conducted surface and subsurface resource exploration and reservoir testing activities to characterize the geothermal resource in the Project area and its ability to support the development of geothermal power facilities. GeothermEx reviewed and evaluated the exploration activities undertaken by DEEP, including geology, geophysics, sustained flow testing, brine composition, temperature distribution and geologic controls on permeability.
To assess the resource’s ability to support the project development plan, GeothermEx evaluated, utilized and updated DEEP’s full-field thermal numerical reservoir model to quantify the impact that various uncertainties may have on the long-term sustainability of production from the resource. DEEP’s numerical model was created in the SLB Petrel™ E&P software platform and utilizes INTERSECT™ high-resolution reservoir simulator to perform the flow simulation calculations. Sensitivity cases were run by the GeothermEx team of experts using different production rates, injection temperatures, production and injection pressure, reservoir permeability and conductive heat transfer rate within the cased portion of the wells.
GeothermEx’s assessment includes the following conclusions:
- The results of our detailed numerical modeling analysis indicate that DEEP has prepared a prudent resource development and operations plan to sustain thermal energy generation for the life of the project. The well field layout has 3,000-metre lateral wells that alternate between injectors and producers and are separated by 500 metres. This configuration is well suited for sustaining operations, given the petrophysical reservoir properties determined from wells that have been drilled into the target sandstone reservoir (the “DEEP Sand”). The project design and well layout enable conductive heat transfer from above and below the DEEP Sand to sustain thermal energy production. DEEP’s development approach is also prudent in that DEEP will gain resource knowledge from operation of the 5 MW Phase 1 pilot plant before implementation of the 25 MW Phase 2 plant.
- The modeling results have shown that the project design takes advantage of changing fluid densities to reduce power consumption for pumping. The project can sustain injection with zero wellhead pressure because of the greater density of the cooled fluid, while the higher-temperature (lower density) production fluid decreases production pumping power requirements.
- Sensitivity modeling runs on DEEP Sand permeabilities resulted in little variation in well productivity, due to beneficial conductive heat transfer from above and below the laterally continuous DEEP Sand.
DEEP is grateful for the advice and guidance received from GeothermEx geothermal consulting services since 2013 – from early exploration planning to well design, well testing, reservoir modelling and now resource confirmation.
*The INTERSECT simulator is a joint product collaboration of SLB, Chevron, and Total.
About DEEP Earth Energy Production:
DEEP is developing geothermal resources to meet increasing energy needs with sustainable, clean and renewable energy. The company is advancing its first planned ~30 MW geothermal power facility in southeastern Saskatchewan that will produce emissions-free baseload power. This first facility is planned for full commissioning by 2026. A staged build aims to increase the project to produce approximately 180 MW of renewable power generation.
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Future Oriented Financial Information Disclaimer:
Some of the statements in this news release may be forward-looking statements or statements of future expectations based on currently available information. Such statements are naturally subject to risks and uncertainties. Factors such as the development of general economic conditions, future market conditions, unusual catastrophic loss events, changes in the capital markets and other circumstances may cause the actual events or results to be materially different from those anticipated by such statements. DEEP, including its directors or officers, do not make any representation or warranty, express or implied, as to the accuracy, completeness or updated status of such statements. Therefore, in no case whatsoever will DEEP or its directors or officers be liable to anyone for any decision made or action taken in conjunction with the information and/or statements in this update or for any related damages. You should consult your professional advisors before deciding to make an investment decision in DEEP.