5 Must Know Facts For Your Next Test

1. EGS can be deployed in areas that lack conventional geothermal resources, significantly increasing the geographic potential for geothermal energy production.
2. The EGS process often involves hydraulic stimulation, which increases rock permeability by creating fractures in the reservoir.
3. The generated heat from EGS can be used for electricity generation or direct use applications, such as district heating.
4. Environmental concerns related to EGS include induced seismicity, which refers to small earthquakes triggered by fluid injection.
5. Research and development in EGS technology continue to focus on improving efficiency and reducing costs associated with drilling and system maintenance.

Review Questions

• How do Enhanced Geothermal Systems differ from traditional geothermal energy sources?
  • Enhanced Geothermal Systems differ from traditional geothermal energy sources in that they are specifically engineered to create artificial reservoirs in areas without naturally occurring hydrothermal resources. While traditional systems rely on existing hot water and steam from underground reservoirs, EGS uses hydraulic stimulation techniques to enhance the permeability of hot, dry rocks. This innovation allows for the extraction of geothermal energy in a wider range of geographical locations, making it a more versatile option for energy production.
• Evaluate the environmental impacts associated with Enhanced Geothermal Systems, particularly concerning induced seismicity.
  • The environmental impacts of Enhanced Geothermal Systems primarily include the risk of induced seismicity, which can occur when high-pressure fluid injections alter subsurface pressure and trigger small earthquakes. While these events are generally minor, they raise concerns about the safety and stability of EGS operations. Ongoing research aims to develop best practices for minimizing seismic risks while maximizing energy extraction. Addressing these environmental challenges is essential to gaining public acceptance and ensuring sustainable development of EGS technology.
• Synthesize the current challenges faced by Enhanced Geothermal Systems and propose potential solutions to enhance their viability as a renewable energy source.
  • Current challenges faced by Enhanced Geothermal Systems include high drilling costs, potential environmental impacts like induced seismicity, and uncertainty regarding long-term reservoir sustainability. To enhance their viability as a renewable energy source, potential solutions could involve advancing drilling technologies to reduce costs, implementing comprehensive monitoring systems to manage seismic risks effectively, and developing better models to predict reservoir behavior over time. By addressing these challenges through research and technological innovations, EGS can become a more reliable and widely adopted form of renewable energy.

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