Geological sequestration
Geological sequestration is a process that captures and stores carbon dioxide (CO2) emissions underground to prevent them from entering the atmosphere and contributing to climate change. Essentially, CO2 is captured from sources like power plants, then compressed and injected deep into rock formations, often in abandoned oil or gas fields, saline aquifers, or coal seams. These formations can securely contain CO2 for long periods, reducing greenhouse gas levels in the atmosphere and mitigating global warming. This method is part of broader efforts to manage carbon emissions and transition to a more sustainable future.
Additional Insights
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Geological sequestration is a process used to capture and store carbon dioxide (CO2) emissions from sources like power plants to reduce greenhouse gases in the atmosphere. The captured CO2 is injected deep underground into rock formations, where it is trapped and prevented from escaping. This technique helps mitigate climate change by preventing CO2 from contributing to global warming. Geological sequestration is considered a key strategy in efforts to transition to cleaner energy and minimize the environmental impact of industrial activities.
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Geological sequestration, or carbon capture and storage (CCS), is a process aimed at reducing greenhouse gases in the atmosphere. It involves capturing carbon dioxide (CO2) emissions from sources like power plants, then transporting it underground and storing it in deep rock formations, such as depleted oil and gas fields or saline aquifers. This prevents CO2 from entering the atmosphere and helps combat climate change. The stored CO2 is monitored to ensure it stays contained, contributing to efforts to lower global warming and maintain a stable climate for future generations.