Carbon Capture & Storage

Capture Technologies and Techniques:

  • Optimize carbon capture technologies to capture and remove carbon dioxide emissions from industrial sources such as power plants and cement kilns.
  • Reduce emissions from fossil fuel combustion through carbon capture and storage technologies in power generation and industrial facilities.
  • Optimize carbon capture and utilization (CCU) techniques to convert captured carbon dioxide into valuable products such as chemicals, fuels, and building materials.
  • Increase investment in research and development of carbon capture and storage technologies to improve efficiency and reduce costs.
  • Minimize the energy requirements and environmental footprint of carbon capture and storage processes through technological innovation and optimization.

Storage and Sequestration:

  • Increase the use of natural carbon sinks such as forests, wetlands, and agricultural soils to capture and store carbon from the atmosphere.
  • Optimize carbon sequestration methods such as direct air capture and enhanced weathering to remove carbon dioxide from the atmosphere.
  • Minimize leakage and ensure the long-term storage integrity of carbon capture and storage projects through rigorous monitoring and verification.
  • Optimize the storage capacity and security of geological storage sites for carbon dioxide, including saline aquifers and depleted oil and gas reservoirs.
  • Minimize the environmental impacts of carbon capture and storage operations through best practices for site characterization, injection, and monitoring.

Policy and Implementation:

  • Optimize policy and regulatory frameworks to incentivize the deployment of carbon capture and storage technologies and facilitate project development.
  • Minimize the carbon footprint of industrial processes through the integration of carbon capture and storage systems into existing infrastructure.
  • Increase investment in carbon capture and storage demonstration projects to validate technology performance and build confidence in its effectiveness.
  • Optimize carbon capture and storage projects to provide co-benefits such as job creation, economic development, and improved air quality.

Collaboration and Public Awareness:

  • Increase collaboration among governments, industries, and research institutions to accelerate the deployment of carbon capture and storage technologies.
  • Increase public awareness of carbon capture and storage as a viable solution for mitigating climate change and reducing greenhouse gas emissions.
  • Minimize public health risks associated with carbon capture and storage operations through rigorous health and safety standards and monitoring.
  • Increase international cooperation and knowledge-sharing on carbon capture and storage to accelerate global deployment and achieve climate targets.