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Received December 13, 2011
Accepted May 31, 2012
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Optimal strategy for carbon capture and storage infrastructure: A review
Department of Chemical Engineering, POSTECH, Pohang 790-784, Korea
iblee@postech.ac.kr
Korean Journal of Chemical Engineering, August 2012, 29(8), 975-984(10), 10.1007/s11814-012-0083-3
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Abstract
To effectively reduce CO2, CO2 mitigation technologies should be employed tactically. This paper focuses on carbon capture and storage (CCS) as the most promising CO2 reduction technology and investigates how to establish CCS strategy suitably. We confirm a major part of the optimal strategy for CCS infrastructure planning through a literature review according to mathematical optimization criteria associated with facility location models. In particular, the feasibility of large scale CCS infrastructure is evaluated through economic, environmental, and technical assessment. The current state-of-the-art optimization techniques for CCS infrastructure planning are also addressed while taking numerous factors into account. Finally, a list of issues for future research is highlighted.
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Han JH, Lee IB, Ind. Eng. Chem. Res., 50(10), 6297 (2011)
Melo MT, Nickel S, Saldanha-da-Gama F, European J. Operational Res., 196(2), 401 (2009)
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McCoy ST, Rubin ES, Int. J. Greenhouse Gas Control., 2(2), 219 (2008)
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Lauer M, Methodology guideline on techno economic assessment (TEA), Workshop WP3B Economics, Methodology Guideline (2008)
Bey RB, Doersch RH, Patterson JH, Project Management Quarterly., 12(2), 35 (1981)
Bakken BH, Velken IV, IEEE Trans. Energy Convers., 23(3), 824 (2008)
Svensson R, Odenberger M, Johnsson F, Stromberg L, Energy Conv. Manag., 45(15-16), 2343 (2004)
McCoy ST, Rubin ES, Models of CO2 transport and storage costs and their importance in CCS cost estimates, Proceedings of the Fourth Annual Conference on Carbon Capture and Sequestration DOE/NETL (2005)
van den Broek M, Faaij A, Turkenburg W, Int. J. Greenhouse Gas Control., 2(1), 105 (2008)
van den Broek M, Ramirez A, Groenenberg H, Neele F, Viebahn P, Turkenburg W, Faaij A, Int. J. Greenhouse Gas Control., 4(2), 351 (2010)
Damen K, Faaij A, Turkenburg W, Int. J. Greenhouse Gas Control., 3(2), 217 (2009)
Middleton RS, Bielicki JM, Energy Policy, 37(3), 1052 (2009)
Johnson N, Ogden J, Detailed spatial modeling of carbon capture and storage (CCS) infrastructure deployment in the southwestern United States, Amsterdam (2011)
Kuby MJ, Bielicki JM, Middleton RS, International Regional Science Review., 34(3), 285 (2011)
Morbee J, Serpa J, Tzimas E, Optimal planning of CO2 transmission infrastructure: The JRC InfraCCS tool, Amsterdam (2011)
Kuby MJ, Middleton RS, Bielicki JM from networking pipelines in CCS infrastructure systems, Amsterdam, Analysis of cost savings (2011)
Chen WT, Li YP, Huang GH, Chen X, Li YF, Appl. Energy, 87(3), 1033 (2010)
Zhou WJ, Zhu B, Fuss S, Szolgayova J, Obersteiner M, Fei WY, Appl. Energy, 87(7), 2392 (2010)
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Han JH, Lee IB, Appl. Energy, 88(12), 5056 (2011)
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Han JH, Ryu JH, Lee IB, Ind. Eng. Chem. Res., 51(8), 3368 (2012)
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Han JH, Ahn YC, Lee IB, Appl. Energy., 95, 186 (2012)
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van den Broek M, Brederode E, Ramirez A, Kramers L, van der Kuip M, Wildenborg T, Turkenburg W, Faaij A, Environmental Modelling & Software., 25(12), 1754 (2010)
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Azapagic A, Chem. Eng. J., 73(1), 1 (1999)
Heijungs R, Sun S, The International Journal of Life Cycle Assessment., 7(5), 314 (2002)
Spriensma MGAR, The Eco-indicator 99 A damage oriented method for Life Cycle Impact Assessment. (2000)
Guillen-Gosalbez G, Caballero JA, Jimenez L, Ind. Eng. Chem. Res., 47(3), 777 (2008)
Guillen-Gosalbez G, Mele FD, Grossmann IE, AIChE J., 56(3), 650 (2010)
Hugo A, Pistikopoulos EN, J. Cleaner Production., 13(15), 1471 (2005)
Summerfield IR, Goldthorpe SH, Sheikh KA, Williams N, Ball P, Energy Convers. Manage., 36(6-9), 849 (1995)
Waku H, Tamura I, Inoue M, Akai M, Energy Convers. Manage., 36(6-9), 877 (1995)
Mann MK, Spath PL, Craig KR, Economic and life cycle assessment of an integrated biomass gasification combined cycle system (1996)
Rao AB, Rubin ES, Environ. Sci. Technol., 36(20), 4467 (2002)
Lombardi L, Energy Conv. Manag., 44(1), 93 (2003)
Benetto E, Popovici EC, Rousseaux P, Blondin J, Energy Conv. Manag., 45(18-19), 3053 (2004)
Spath PL, Mann MK, Biomass Power and Conventional Fossil Systems with and without CO2 Sequestration - Comparing the Energy Balance, Greenhouse Gas Emissions and Economics (2004)
Carpentieri M, Corti A, Lombardi L, Energy Conv. Manag., 46(11-12), 1790 (2005)
Khoo HH, Tan RBH, Energy Fuels, 20(5), 1914 (2006)
Khoo HH, Tan RBH, Environ. Sci. Technol., 40(12), 4016 (2006)
Odeh NA, Life Cycle Emissions from Fossil Fuel Power Plants with Carbon Capture and Storagestorage (2007)
Viebahn P, Nitsch J, Fischedick M, Esken A, Schuwer D, Supersberger N, Zuberbuhler U, Edenhofer O, Int. J. Greenhouse Gas Control., 1(1), 121 (2007)
Hertwich EG, Aaberg M, Singh B, Stromman AH, Chin. J. Chem. Eng., 16(3), 343 (2008)
Koornneef J, van Keulen T, Faaij A, Turkenburg W, Int. J.Greenhouse Gas Control., 2(4), 448 (2008)
Odeh NA, Cockerill TT, Energy Policy, 36(1), 367 (2008)
Pehnt M, Henkel J, Int. J. Greenhouse Gas Control., 3(1), 49 (2009)
Korre A, Nie Z, Durucan S, Int. J. Greenhouse Gas Control., 4(2), 289 (2010)
Singh B, Strømman AH, Hertwich EG, Int. J. Greenhouse Gas Control., 5(4), 911 (2010)
Khoo HH, Bu J, Wong RL, Kuan SY, Sharratt PN, Energy Procedia., 4, 2494 (2011)
Akai M, Nomura N, Waku H, Inoue M, Energy, 22(2-3), 249 (1997)
Wildbolz C, Life cycle assessment of selected technologies for CO2 transport and sequestration (2007)
Aycaguer AC, Lev-On M, Winer AM, AAPG Bull., 15(2), 303 (2001)
Suebsiri J, Wilson M, Tontiwachwuthikul P, Ind. Eng. Chem. Res., 45(8), 2483 (2005)
Joint Committee of the Royal Society of Canada and the Canadian Academy of Engineering on Health and Safety, in Health and Safety Policies: Guiding Principles for Risk Management (2007)
Froot KA, Scharfstein DS, Stein JC, J. Finance., 48(5), 1629 (1993)
Carpenter M, Kvien K, Aarnes J, Int. J. Greenhouse Gas Control., 5(4), 942 (2011)
Koornneef J, Ramirez A, Turkenburg W, Faaij A, The environmental impact and risk assessment of CO2 capture, transport and storage - An evaluation of the knowledge base, Progress in Energy and Combustion Science.
Tzimas E, Mercier A, Cormos CC, Peteves SD, Energy Policy, 35(8), 3991 (2007)
Strazisar BR, Anderson RR, White CM, Energy Fuels, 17(4), 1034 (2003)
Britter RE, Annual Review of Fluid Mechanics., 21, 317 (1989)
Aines RD, Leach MJ, Weisgraber TH, Simpson MD, Friedmann SJ, Bruton CJ, Quantifying the potential exposure hazard due to energetic releases of CO2 from a failed sequestration well, Washington DC (2009)
Damen K, Faaij A, Turkenburg W, Climatic Change., 74(1-3), 289 (2006)
Karl M, Wright RF, Berglen TF, Denby B, Int. J. Greenhouse Gas Control., 5(3), 439 (2011)
Khan FI, Abbasi SA, J. Loss Prev. Process Ind., 12(5), 361 (1999)
Beamon AJ, Leckey TJ, Trends in power plant operating costs, Issues in Midterm Analysis and Forecasting 1999 - Trends in Power Plant Operating Costs. EIA/DOE-0607(99) (1999)
Singh V, Fehrs J, The work that goes into renewable energy, The Work That Goes into Renewable Energy (2001)
Golomb D, Energy Conv. Manag., Supplement(0), 38, S279 (1997)
Koornneef J, Spruijt M, Molag M, Ramirez A, Turkenburg W, Faaij A, J. Hazard. Mater., 177(1-3), 12 (2010)
Gale J, Davison J, Energy, 29(9-10), 1319 (2004)
Burgherr P, Hirschberg S, Energy, 33(4), 538 (2008)
Ranheim E, The responsibilities of the ship owner and what he can do to improve safety, “securite Maritime et Protection de l’Environnement" Evolution et Perspectives Conference, 68 (2002)
Skjong R, Proceedings of the International Conference on Offshore Mechanics and Arctic Engineering - OMAE, 2, 319 (2005)
Saripalli KP, Mahasenan NM, Cook EM, Proceedings of the 6th International Conference on Greenhouse Gas Control Technologies, 1, 511 (2003)
Vendrig M, The use of SWIFT and QRA in determining risk of leakage from CO2 capture, transport and storage systems, Report Number PH4/31, 230 (2004)
Benson SM, Hepple R, Apps J, Tsang CF, Lippmann M, Lessons learned from natural and industrial analogues for storage of carbon dioxide in deep geological formations, Lessons Learned from Natural and Industrial Analogues for Storage of Carbon Dioxide in Deep Geological Formations (2002)
Jordan PD, Benson SM, Environmental Geology., 57(5), 1103 (2009)
Viebahn P, Esken A, Fischedick M, Energy Procedia., 1(1), 4023 (2009)
Middleton RS, Kuby MJ, Bielicki JM, Generating candidate networks for optimization: The CO2 capture and storage optimization problem, Computers, Environment and Urban Systems.
Ha-Duong M, Loisel R, Int. J. Greenhouse Gas Control., 5(5), 1346 (2011)
Metz M, IPCC special report on carbon dioxide capture and storage 2005: Cambridge University Press.
Han JH, Lee IB, Ind. Eng. Chem. Res., 50(10), 6297 (2011)
Melo MT, Nickel S, Saldanha-da-Gama F, European J. Operational Res., 196(2), 401 (2009)
Jakobsen JP, Brunsvold A, Husebye J, Hognes ES, Myhrvold T, Friis-Hansen P, Hektor EA, Torvanger A, Comprehensive assessment of CCS chains - Consistent and transparent methodology., Amsterdam (2011)
Rao AB, Rubin ES, Environ. Sci. Technol., 36(20), 4467 (2002)
McCoy ST, Rubin ES, Int. J. Greenhouse Gas Control., 2(2), 219 (2008)
Rao AB, Rubin ES, Keith DW, Morgan MG, Energy Policy, 34(18), 3765 (2006)
McCollum DL, Ogden JM, Techno-Economic Models for Carbon Dioxide Compression, Transport and Storage & Correlations for estimating Carbon Dioxide Density and Viscosity, UCDITS-RR-06-14 (2006)
Zahid U, Lim Y, Jung J, Han C, Korean J. Chem. Eng., 28(3), 674 (2011)
Lauer M, Methodology guideline on techno economic assessment (TEA), Workshop WP3B Economics, Methodology Guideline (2008)
Bey RB, Doersch RH, Patterson JH, Project Management Quarterly., 12(2), 35 (1981)
Bakken BH, Velken IV, IEEE Trans. Energy Convers., 23(3), 824 (2008)
Svensson R, Odenberger M, Johnsson F, Stromberg L, Energy Conv. Manag., 45(15-16), 2343 (2004)
McCoy ST, Rubin ES, Models of CO2 transport and storage costs and their importance in CCS cost estimates, Proceedings of the Fourth Annual Conference on Carbon Capture and Sequestration DOE/NETL (2005)
van den Broek M, Faaij A, Turkenburg W, Int. J. Greenhouse Gas Control., 2(1), 105 (2008)
van den Broek M, Ramirez A, Groenenberg H, Neele F, Viebahn P, Turkenburg W, Faaij A, Int. J. Greenhouse Gas Control., 4(2), 351 (2010)
Damen K, Faaij A, Turkenburg W, Int. J. Greenhouse Gas Control., 3(2), 217 (2009)
Middleton RS, Bielicki JM, Energy Policy, 37(3), 1052 (2009)
Johnson N, Ogden J, Detailed spatial modeling of carbon capture and storage (CCS) infrastructure deployment in the southwestern United States, Amsterdam (2011)
Kuby MJ, Bielicki JM, Middleton RS, International Regional Science Review., 34(3), 285 (2011)
Morbee J, Serpa J, Tzimas E, Optimal planning of CO2 transmission infrastructure: The JRC InfraCCS tool, Amsterdam (2011)
Kuby MJ, Middleton RS, Bielicki JM from networking pipelines in CCS infrastructure systems, Amsterdam, Analysis of cost savings (2011)
Chen WT, Li YP, Huang GH, Chen X, Li YF, Appl. Energy, 87(3), 1033 (2010)
Zhou WJ, Zhu B, Fuss S, Szolgayova J, Obersteiner M, Fei WY, Appl. Energy, 87(7), 2392 (2010)
Brunsvold A, Jakobsen JP, Husebye J, Kalinin A, Case studies on CO2 transport infrastructure: Optimization of pipeline network, effect of ownership, and political incentives, Amsterdam (2011)
Han JH, Lee IB, Appl. Energy, 88(12), 5056 (2011)
Han JH, Lee IB, Ind. Eng. Chem. Res., 50(23), 13435 (2011)
Han JH, Ryu JH, Lee IB, Ind. Eng. Chem. Res., 51(8), 3368 (2012)
Han JH, Lee JU, Lee IB, Ind. Eng. Chem. Res., 51(7), 2983 (2012)
Han JH, Ahn YC, Lee IB, Appl. Energy., 95, 186 (2012)
Ilyas M, Lim Y, Han C, Korean J. Chem. Eng., 10.1007/s11814-011-0302-3 (2012)
Park K, Shin D, Lee G, Yoon E, Korean J. Chem. Eng., DOI:10.1007/s11814-011-0295-y (2012)
van den Broek M, Brederode E, Ramirez A, Kramers L, van der Kuip M, Wildenborg T, Turkenburg W, Faaij A, Environmental Modelling & Software., 25(12), 1754 (2010)
Sabio N, Gadalla M, Guillen-Gosalbez G, Jimenez L, Int. J.Hydrog. Energy., 35(13), 6836 (2010)
Fava JA, Denison R, Jones B, Curran MA, Vigon B, Selke S, Society of Environmental Toxicology and Chemistry (SETAC). (1991)
Fava JA, A technical framework for life-cycle assessments 1991: Society of Environmental Toxicology and Chemistry.
Consoli F, Workshop S, Guidelines for life-cycle assessment: a code of practice 1993: Society of Environmental Toxicology and Chemistry (SETAC) Pensacola, FL.
Azapagic A, Chem. Eng. J., 73(1), 1 (1999)
Heijungs R, Sun S, The International Journal of Life Cycle Assessment., 7(5), 314 (2002)
Spriensma MGAR, The Eco-indicator 99 A damage oriented method for Life Cycle Impact Assessment. (2000)
Guillen-Gosalbez G, Caballero JA, Jimenez L, Ind. Eng. Chem. Res., 47(3), 777 (2008)
Guillen-Gosalbez G, Mele FD, Grossmann IE, AIChE J., 56(3), 650 (2010)
Hugo A, Pistikopoulos EN, J. Cleaner Production., 13(15), 1471 (2005)
Summerfield IR, Goldthorpe SH, Sheikh KA, Williams N, Ball P, Energy Convers. Manage., 36(6-9), 849 (1995)
Waku H, Tamura I, Inoue M, Akai M, Energy Convers. Manage., 36(6-9), 877 (1995)
Mann MK, Spath PL, Craig KR, Economic and life cycle assessment of an integrated biomass gasification combined cycle system (1996)
Rao AB, Rubin ES, Environ. Sci. Technol., 36(20), 4467 (2002)
Lombardi L, Energy Conv. Manag., 44(1), 93 (2003)
Benetto E, Popovici EC, Rousseaux P, Blondin J, Energy Conv. Manag., 45(18-19), 3053 (2004)
Spath PL, Mann MK, Biomass Power and Conventional Fossil Systems with and without CO2 Sequestration - Comparing the Energy Balance, Greenhouse Gas Emissions and Economics (2004)
Carpentieri M, Corti A, Lombardi L, Energy Conv. Manag., 46(11-12), 1790 (2005)
Khoo HH, Tan RBH, Energy Fuels, 20(5), 1914 (2006)
Khoo HH, Tan RBH, Environ. Sci. Technol., 40(12), 4016 (2006)
Odeh NA, Life Cycle Emissions from Fossil Fuel Power Plants with Carbon Capture and Storagestorage (2007)
Viebahn P, Nitsch J, Fischedick M, Esken A, Schuwer D, Supersberger N, Zuberbuhler U, Edenhofer O, Int. J. Greenhouse Gas Control., 1(1), 121 (2007)
Hertwich EG, Aaberg M, Singh B, Stromman AH, Chin. J. Chem. Eng., 16(3), 343 (2008)
Koornneef J, van Keulen T, Faaij A, Turkenburg W, Int. J.Greenhouse Gas Control., 2(4), 448 (2008)
Odeh NA, Cockerill TT, Energy Policy, 36(1), 367 (2008)
Pehnt M, Henkel J, Int. J. Greenhouse Gas Control., 3(1), 49 (2009)
Korre A, Nie Z, Durucan S, Int. J. Greenhouse Gas Control., 4(2), 289 (2010)
Singh B, Strømman AH, Hertwich EG, Int. J. Greenhouse Gas Control., 5(4), 911 (2010)
Khoo HH, Bu J, Wong RL, Kuan SY, Sharratt PN, Energy Procedia., 4, 2494 (2011)
Akai M, Nomura N, Waku H, Inoue M, Energy, 22(2-3), 249 (1997)
Wildbolz C, Life cycle assessment of selected technologies for CO2 transport and sequestration (2007)
Aycaguer AC, Lev-On M, Winer AM, AAPG Bull., 15(2), 303 (2001)
Suebsiri J, Wilson M, Tontiwachwuthikul P, Ind. Eng. Chem. Res., 45(8), 2483 (2005)
Joint Committee of the Royal Society of Canada and the Canadian Academy of Engineering on Health and Safety, in Health and Safety Policies: Guiding Principles for Risk Management (2007)
Froot KA, Scharfstein DS, Stein JC, J. Finance., 48(5), 1629 (1993)
Carpenter M, Kvien K, Aarnes J, Int. J. Greenhouse Gas Control., 5(4), 942 (2011)
Koornneef J, Ramirez A, Turkenburg W, Faaij A, The environmental impact and risk assessment of CO2 capture, transport and storage - An evaluation of the knowledge base, Progress in Energy and Combustion Science.
Tzimas E, Mercier A, Cormos CC, Peteves SD, Energy Policy, 35(8), 3991 (2007)
Strazisar BR, Anderson RR, White CM, Energy Fuels, 17(4), 1034 (2003)
Britter RE, Annual Review of Fluid Mechanics., 21, 317 (1989)
Aines RD, Leach MJ, Weisgraber TH, Simpson MD, Friedmann SJ, Bruton CJ, Quantifying the potential exposure hazard due to energetic releases of CO2 from a failed sequestration well, Washington DC (2009)
Damen K, Faaij A, Turkenburg W, Climatic Change., 74(1-3), 289 (2006)
Karl M, Wright RF, Berglen TF, Denby B, Int. J. Greenhouse Gas Control., 5(3), 439 (2011)
Khan FI, Abbasi SA, J. Loss Prev. Process Ind., 12(5), 361 (1999)
Beamon AJ, Leckey TJ, Trends in power plant operating costs, Issues in Midterm Analysis and Forecasting 1999 - Trends in Power Plant Operating Costs. EIA/DOE-0607(99) (1999)
Singh V, Fehrs J, The work that goes into renewable energy, The Work That Goes into Renewable Energy (2001)
Golomb D, Energy Conv. Manag., Supplement(0), 38, S279 (1997)
Koornneef J, Spruijt M, Molag M, Ramirez A, Turkenburg W, Faaij A, J. Hazard. Mater., 177(1-3), 12 (2010)
Gale J, Davison J, Energy, 29(9-10), 1319 (2004)
Burgherr P, Hirschberg S, Energy, 33(4), 538 (2008)
Ranheim E, The responsibilities of the ship owner and what he can do to improve safety, “securite Maritime et Protection de l’Environnement" Evolution et Perspectives Conference, 68 (2002)
Skjong R, Proceedings of the International Conference on Offshore Mechanics and Arctic Engineering - OMAE, 2, 319 (2005)
Saripalli KP, Mahasenan NM, Cook EM, Proceedings of the 6th International Conference on Greenhouse Gas Control Technologies, 1, 511 (2003)
Vendrig M, The use of SWIFT and QRA in determining risk of leakage from CO2 capture, transport and storage systems, Report Number PH4/31, 230 (2004)
Benson SM, Hepple R, Apps J, Tsang CF, Lippmann M, Lessons learned from natural and industrial analogues for storage of carbon dioxide in deep geological formations, Lessons Learned from Natural and Industrial Analogues for Storage of Carbon Dioxide in Deep Geological Formations (2002)
Jordan PD, Benson SM, Environmental Geology., 57(5), 1103 (2009)
Viebahn P, Esken A, Fischedick M, Energy Procedia., 1(1), 4023 (2009)
Middleton RS, Kuby MJ, Bielicki JM, Generating candidate networks for optimization: The CO2 capture and storage optimization problem, Computers, Environment and Urban Systems.
Ha-Duong M, Loisel R, Int. J. Greenhouse Gas Control., 5(5), 1346 (2011)
