Prioritizing Countries and Regions for Carbon Capture and Utilization in Europe
Leonardo Rosado
Chalmers University of Technology
Dr. Leonardo Rosado has ten years of expertise in Material Flow Accounting and developer of a groundbreaking method that allows a complete quantification of material flows at the metropolitan area level, with disaggregation by economic activities, municipalities within the metropolitan area and by product types. Currently, working at the district level on Factor 10 area of research, as well as circular economy methods that include establishment of Industrial Symbiosis at the urban level. He has been involved in various research projects focused on urban systems, such as the Regional Industrial Symbiosis, Municipal Environmental Impacts method. He has also been involved in various European consortiums in different platforms, such as, Climate-KIC Industrial Symbiosis platform, acting as deputy member representing Chalmers, and the Smart Sustainable Districts and the enCO2re (enabling CO2reuse) flagships has the main lead at Chalmers.
Abstract
In recent years several strategies have been developed and adopted to reduce the levels of the Greenhouse Gas Emissions emitted to the atmosphere. In the last decade Carbon Capture and Utilization (CCU) has been rapidly... [ view full abstract ]
In recent years several strategies have been developed and adopted to reduce the levels of the Greenhouse Gas Emissions emitted to the atmosphere. In the last decade Carbon Capture and Utilization (CCU) has been rapidly developing worldwide through the development from pilot and demonstration plants to full scale projects (Roh, Lee, & Gani, 2016). The adoption of CCU technologies may contribute for carbon sequestration as well as to the creation of value-added products (Bocin et al. 2013). This study presents a top-down methodological approach to identify key European countries as well as regions with potential for developing CCU partnerships. To that end a methodology was developed to quantify the amount of CO2 emitted from industrial stationary sources, and assess the potential of CO2 utilization, using for that nine carbon dioxide utilization technologies as example of some of the most promising CCU technologies. The results show that Germany, UK and France followed by Spain, Italy and Poland are the countries with the larger quantities of emitted and available CO2 and they also have the highest potential for utilizing CO2. The study has also discovered several specific regions where reuse schemes based on CO2 could be developed both in Central Europe (Dusseldorf and Cologne - Germany, Antwerp Province and East Flanders - Belgium and Łódzkie - Poland) and in Scandinavia (Södra Sverige - Sweden and Etelä-Suomi and Helsinki-Uusimaa - Finland). Finally, among all the selected technologies, concrete curing and horticulture production are the technologies with the higher potential for CO2 utilization in Europe.
References:
BOCIN, D. A., F. M. D. M. PEREZ, E. TZIMAS, and T. SVEEN. 2013. Carbon Capture and Utilisation Workshop: Background and Proceedings: Publications Office of the European Union.
Roh, K., Lee, J. H., & Gani, R. (2016). International Journal of Greenhouse Gas Control A methodological framework for the development of feasible CO 2 conversion processes. International Journal of Greenhouse Gas Control, 47, 250–265. http://doi.org/10.1016/j.ijggc.
Authors
-
Joao Patricio
(Chalmers University of Technology)
-
Athanasios Angelis-dimakis
(University of Huddersfield)
-
Arturo Castillo-Castillo
(Imperial College London)
-
Yuliya Kalmykova
(Chalmers University of Technology)
-
Leonardo Rosado
(Chalmers University of Technology)
Topic Areas
• Decision support methods and tools , • Circular economy
Session
TS-14 » Climate change and carbon management (13:45 - Tuesday, 27th June, Room E)
Presentation Files
The presenter has not uploaded any presentation files.
