Engineers monitor the stimulation using microseismic imaging to map the fracture network and ensure it remains contained within the target formation. As these innovations mature, the levelized cost of electricity is expected to decrease, making enhanced geothermal competitive with other renewable sources.
Enhanced Geothermal Induced Seismicity Risks and Mitigation
Provides consistent baseload power independent of weather conditions. There is also a risk of induced seismicity, where the fracturing process triggers small, non-destructive earthquakes.
Unlike conventional hydrothermal resources that rely on naturally occurring fractures and water, this technology creates new pathways deep underground. How Enhanced Geothermal Works The core process begins with drilling a well into the target hot rock formation, typically reaching depths of three to ten kilometers.
Enhanced Geothermal Induced Seismicity Risks and Mitigation
The goal is to create a durable, permeable reservoir that allows the injected water to circulate slowly, absorbing intense heat from the surrounding rock. The long-term vision is a future where this clean energy supports grid stability and decarbonization goals worldwide.
More About Enhanced geothermal
Looking at Enhanced geothermal from another angle can help expand the discussion and give readers a second clear paragraph under the same section.
More perspective on Enhanced geothermal can make the topic easier to follow by connecting earlier points with a few simple takeaways.