论文信息 - Development of a Scalable and Comprehensive Infrastructure Model for Carbon Dioxide Utilization and Disposal

Development of a Scalable and Comprehensive Infrastructure Model for Carbon Dioxide Utilization and Disposal

Much of the previous research on carbon capture and storage (CCS) has focused on individual technologies for disposing of CO2, such as capture, storage, sequestration, or transport. Moreover, recent research work considers utilization of CO2 as fuels, chemicals, or nutrients for bioreactors. To efficiently manage CO2 and the economic benefits achieved by this process, the CO2 transport and processing infrastructure supporting CCS will have to be constructed at a macro-scale. This paper introduces a scalable and comprehensive infrastructure model for CO2 utilization and disposal that generates an integrated, profit-maximizing CCS system. The proposed model determines where and how much CO2 to capture, store, transport, utilize or sequester to maximize total annual profit while meeting the CO2 mitigation target. The applicability of the proposed model is demonstrated using a case study for treating CO2 emitted by an industrial complex on the eastern coast of Korea in 2020. The results may be important in sy...

Jeehoon Han | In-Beum Lee | Jee-hoon Han

[1] R. A. Zemlin,et al. Integer Programming Formulation of Traveling Salesman Problems , 1960, JACM.

[2] Olav Kårstad,et al. Saline aquifer storage of carbon dioxide in the Sleipner project , 1998 .

[3] Jinyue Yan,et al. Potential market niches for biomass energy with CO2 capture and storage—Opportunities for energy supply with negative CO2 emissions , 2003 .

[4] Rickard Svensson,et al. Transportation systems for CO2––application to carbon capture and storage , 2004 .

[5] Nilay Shah,et al. Design and operation of a future hydrogen supply chain , 2006 .

[6] Edward S. Rubin,et al. Identifying Cost-Effective CO2 Control Levels for Amine-Based CO2 Capture Systems , 2006 .

[7] Edward S. Rubin,et al. Cost and performance of fossil fuel power plants with CO2 capture and storage , 2007 .

[8] John Davison,et al. Performance and costs of power plants with capture and storage of CO2 , 2007 .

[9] Edward S. Rubin,et al. An engineering-economic model of pipeline transport of CO2 with application to carbon capture and storage , 2008 .

[10] C. Lan,et al. Biofuels from Microalgae , 2008, Biotechnology progress.

[11] Nilay Shah,et al. Design and operation of a future hydrogen supply chain: Multi-period model , 2009 .

[12] Richard S. Middleton,et al. A scalable infrastructure model for carbon capture and storage: SimCCS , 2009 .

[13] 김용진,et al. 해양 바이오 에너지 , 2009 .