Carbon Capture and Storage Short Course

Description

In this course, you will delve into the various components of CCS. Gain insights into different carbon capture methods, including post-combustion, pre-combustion, and oxyfuel combustion, and understand their respective benefits and challenges. Explore storage options, such as geological, ocean, and mineral storage, and learn about site characterization, injection techniques, and monitoring. Additionally, examine carbon transportation and infrastructure considerations, environmental and safety aspects, economics and policies, and the integration of CCS with renewable energy and decarbonization strategies.

Course Syllabus: Carbon Capture and Storage Short Course

1. Introduction to Carbon Capture and Storage (CCS)

• Overview of CCS technologies and their role in mitigating climate change
• Carbon capture methods: post-combustion, pre-combustion, and oxyfuel combustion
• Storage options: geological, ocean, and mineral storage

2. Carbon Capture Technologies

• Post-combustion capture: absorption, adsorption, and membrane separation processes
• Pre-combustion capture: gasification and reforming processes
• Oxyfuel combustion: combustion in a CO2-rich atmosphere

3. Carbon Storage and Sequestration

• Geological storage: site characterization, injection techniques, and monitoring
• Ocean storage: challenges, potential risks, and environmental impacts
• Mineral storage: carbonation of industrial by-products and natural minerals

4. Carbon Transportation and Infrastructure

• Carbon capture transportation: pipeline systems and shipping methods
• Infrastructure considerations: storage facilities, monitoring networks, and regulatory frameworks

5. Environmental and Safety Considerations

• Environmental impacts of CCS: potential risks and mitigation measures
• Safety aspects: monitoring, leak detection, and emergency response procedures

6. Economics and Policy of CCS

• Cost analysis of CCS technologies: capture, transportation, and storage expenses
• Government policies and incentives for promoting CCS deployment
• Carbon pricing mechanisms and the role of CCS in carbon markets

7. Case Studies: Successful CCS Projects

• Examining real-world CCS projects and their outcomes
• Lessons learned and best practices from implemented CCS initiatives

8. Emerging Technologies and Research Trends

• Innovative carbon capture technologies: direct air capture, bioenergy with carbon capture and storage (BECCS), and more
• Research developments and future prospects for CCS

9. Social Acceptance and Public Engagement

• Addressing public concerns and misconceptions about CCS
• Strategies for effective communication and engagement with stakeholders

10. Integration with Renewable Energy and Decarbonization Strategies

• Synergies between CCS and renewable energy sources
• Role of CCS in achieving net-zero emissions and decarbonization goals

Gain a holistic understanding of CCS and its potential to significantly reduce greenhouse gas emissions. You will learn from real-world case studies, explore emerging technologies and research trends, and discuss social acceptance and public engagement strategies. Join us in this journey towards a sustainable future, where you will develop the expertise to contribute to the deployment of CCS and drive meaningful climate solutions.