The article "Carbon Capture, Utilization, and Storage: A Literature Synthesis and Bibliometric Analysis" by Lukas Mueller provides a comprehensive overview of the current state of CCUS (Carbon Capture, Utilization, and Storage) research and development. The study aims to advance education, innovation, and public dialogue for sustainable development and climate transition, both within Europe and globally. Key aspects covered include:
1. **Introduction**: CCUS is a comprehensive approach to mitigate greenhouse gas emissions, particularly CO2, from industrial processes and power generation. The article highlights the importance of capturing CO2 at its source and either utilizing it for industrial purposes or storing it underground.
2. **Methodology**: A mixed-methods approach is used, combining a review of existing literature and a bibliometric analysis. The bibliometric analysis involves analyzing the co-citation patterns of references to understand the relationships between different articles.
3. **Existing Reviews**: The article reviews existing literature, focusing on techno-economic aspects, socio-economic perspectives, and recent developments in Europe. Key findings include the technological readiness levels of CCUS technologies, the challenges in capturing CO2, and the economic and policy dimensions of CCUS.
4. **Bibliometric Analysis**: The bibliometric analysis reveals the most productive journals, countries, and authors in the field. It also identifies research clusters, such as sequestration methods, CO2 capture, and techno-economic modeling.
5. **Techno-Economic Summary**: The article discusses the technological readiness levels of CCUS technologies, the challenges in capturing CO2, and the economic and policy barriers to their widespread adoption.
6. **Socio-Economic Review**: The socio-economic literature is reviewed, focusing on public perception, policy implications, and the economic viability of CCUS. The article notes a research gap in the economic and policy dimensions of CCUS.
7. **Recent Development in Europe**: The article provides insights into the recent development of CCUS projects in Europe, highlighting the increasing number of projects and planned capacity.
8. **Conclusion**: The article concludes by summarizing the current state of CCUS research and development, identifying gaps in the literature, and emphasizing the need for further research and policy support to advance CCUS technologies and their deployment.
The study underscores the importance of CCUS in achieving the goals of the European Green Deal and addresses critical challenges such as decarbonization, climate change adaptation, and environmental risks.The article "Carbon Capture, Utilization, and Storage: A Literature Synthesis and Bibliometric Analysis" by Lukas Mueller provides a comprehensive overview of the current state of CCUS (Carbon Capture, Utilization, and Storage) research and development. The study aims to advance education, innovation, and public dialogue for sustainable development and climate transition, both within Europe and globally. Key aspects covered include:
1. **Introduction**: CCUS is a comprehensive approach to mitigate greenhouse gas emissions, particularly CO2, from industrial processes and power generation. The article highlights the importance of capturing CO2 at its source and either utilizing it for industrial purposes or storing it underground.
2. **Methodology**: A mixed-methods approach is used, combining a review of existing literature and a bibliometric analysis. The bibliometric analysis involves analyzing the co-citation patterns of references to understand the relationships between different articles.
3. **Existing Reviews**: The article reviews existing literature, focusing on techno-economic aspects, socio-economic perspectives, and recent developments in Europe. Key findings include the technological readiness levels of CCUS technologies, the challenges in capturing CO2, and the economic and policy dimensions of CCUS.
4. **Bibliometric Analysis**: The bibliometric analysis reveals the most productive journals, countries, and authors in the field. It also identifies research clusters, such as sequestration methods, CO2 capture, and techno-economic modeling.
5. **Techno-Economic Summary**: The article discusses the technological readiness levels of CCUS technologies, the challenges in capturing CO2, and the economic and policy barriers to their widespread adoption.
6. **Socio-Economic Review**: The socio-economic literature is reviewed, focusing on public perception, policy implications, and the economic viability of CCUS. The article notes a research gap in the economic and policy dimensions of CCUS.
7. **Recent Development in Europe**: The article provides insights into the recent development of CCUS projects in Europe, highlighting the increasing number of projects and planned capacity.
8. **Conclusion**: The article concludes by summarizing the current state of CCUS research and development, identifying gaps in the literature, and emphasizing the need for further research and policy support to advance CCUS technologies and their deployment.
The study underscores the importance of CCUS in achieving the goals of the European Green Deal and addresses critical challenges such as decarbonization, climate change adaptation, and environmental risks.