Deep Earth Energy Production Corp. (DEEP) is pleased to announce that the spring/summer flow testing program indicates the temperature and flow rates from the geothermal reservoir in the Deadwood Formation are sufficient to support multiple geothermal power facilities.
DEEP will commence drilling this month with the deepest horizontal well to date in Saskatchewan’s history, allowing for the installation of a large diameter submersible pump. This initial horizontal well will be the first step in constructing the first geothermal power facility in Canada. Early power generation technology is being sourced for immediate self-generation, supplying power for drilling, testing and construction activities for the Williston Basin’s first 20-megawatt (MW) geothermal power plant, which can supply enough power for approximately 20,000 households.
In addition to geothermal power generation, DEEP is pursuing the utilization of waste oilfield flare gas and solar generation to power the facility’s internal and external parasitic power requirements (cooling towers, lighting and pumps). This globally unique power hub will produce clean baseload power while significantly reducing fossil fuel emissions.
Utilizing local world class oilfield drilling expertise, this project is a first step in Canada’s significant energy transition to clean power. This first 20-MW field would offset approximately 114,000 metric tonnes of carbon dioxide per year, equal to removing 32,000 cars off the road annually.
Private and public sector greenhouse developments that support research into diverse high-value crops, increase farm profitability and supply locally grown produce will utilize waste heat from the project, providing major local employment opportunities and addressing national food security concerns.
“DEEP’s vision to build 100 MWs of geothermal power and greenhouse development could be a new $1 billion industry for southeast Saskatchewan,” said Kirsten Marcia, DEEP president and CEO.
“This is a first for Canada – and it’s the beginning of something big. Geothermal energy can create lots of jobs in Western Canada and across the country – all while helping us get to net zero,” said Seamus O’Regan, Minister of Natural Resources Canada.
Previous winter drilling and testing demonstrate that the vast and predictable hot sedimentary aquifer at the base of the Williston Basin can support multiple 20 MW baseload geothermal power facilities. Flow tests and injection tests have demonstrated consistent and repeatable results in the Deadwood Formation sandstone.
Testing of the Border-4 well, located seven kilometres to the west of the main project site, demonstrated the same consistent production rates.
As shown in the video link above, the first geothermal production and injection “loop” test of its kind in Canada has been in operation since July 31, 2020, using Border-3 as the production well and Border-1 as the injection well.
The reservoir and the wells – which are about 750 metres apart – are performing at or above expectations with no operational issues. Hot (122 C) brine is brought to the surface from a vertical depth of approximately 3,500 metres using an electric submersible pump (ESP) installed at a depth of 2,800 metres. At surface, the brine flows through containment tanks before being re-injected back into the same formation. A chemical tracer injected into Border-1 at the start of the loop test and daily water sampling are providing valuable data to better understand fluid flow dynamics and reservoir parameters.
DEEP has completed a preliminary subsurface design that optimizes the well spacing and configuration to produce 20 MWs of geothermal power using ten horizontal wells (six producers
and four injectors). Each well will be drilled to a vertical depth of approximately 3 1/2 kilometers (km) and a horizontal length of approximately two kms.
The subsurface development area for each 20-MW block measures approximately five by eight kms, while the surface disturbance is approximately 300 by 300 metres. This innovative design was developed by Dr. Matthew Minnick (RESPEC Inc.) and Leo Groenewoud, DEEP’s Exploration and Geoscience Manager.
Dave Brown (Frontier Project Solutions) has developed the preliminary well design, engineering and operational details associated with the development wells. To assess feasibility, reservoir engineering will be undertaken by GeothermEx, Inc. (a Schlumberger company) and surface facilities engineering will be undertaken by Enerpro Engineering, Inc.
The upcoming horizontal well, Border-5HZ, designed to optimize flow rates and contact with the reservoir. After completing the current loop test, Border-3 will be converted for use as an injection well to enable the full-scale commercial loop test, producing from Border-5HZ and injecting into Border-1 and Border-3. Border-2B will be used as a monitoring well.
“We will produce enough high temperature volume from this first horizontal well to generate power utilizing Organic Rankine Cycle technology,” said Marcia. “We are in the process of procuring a temporary 200-400 kilowatt system, providing onsite power during the upcoming construction phase. It’s an exciting step.”
The resource and surface facilities engineering work to confirm the feasibility of the first 20-MW project is expected to be complete in the first quarter of 2021. The feasibility analysis will be based in large on the results of the large volume horizontal well loop test, leading to the final construction design in the Bankable Feasibility Report.
DEEP gratefully acknowledges the continued support from Natural Resources Canada for the funding announced in 2019 and for their ongoing support in the development of Canada’s first geothermal power project. The company also acknowledges support from the Government of Saskatchewan.