A new optimization approach to energy network modeling: Anthropogenic CO2 capture coupled with enhanced oil recovery

International Journal of Energy Research

Volumn 37, Issue 14, 2013, Pages 1794-1810

  Middleton, Richard S ^a  

^a LOS ALAMOS NATIONAL LABORATORY   (United States)

Author keywords

Climate change policy; CO2 capture and storage (CCS); Energy network modeling; Enhanced oil recovery (EOR); Pipeline optimization; SimCCS

Indexed keywords

CLIMATE CHANGE POLICIES; ENERGY NETWORKS; ENHANCED OIL RECOVERY; PIPELINE OPTIMIZATION; SIMCCS;

BIOFUELS; CARBON CAPTURE; CARBON FOOTPRINT; CLIMATE CHANGE; COMPLEX NETWORKS; COST ENGINEERING; ELECTRIC LINES; ELECTRICITY; ENERGY RESOURCES; ENHANCED RECOVERY; ETHYLENE; LINEARIZATION; OIL FIELDS; OPTIMIZATION; PIPELINES; SOLAR ENERGY; TRANSMISSION LINE THEORY;

CARBON DIOXIDE;

EID: 84875761746     PISSN: 0363907X     EISSN: 1099114X     Source Type: Journal    
DOI: 10.1002/er.2993     Document Type: Article

References (41)

1. Middleton RS, Keating GN, Stauffer PH, Viswanathan HS, Pawar RJ. Effects of geologic reservoir uncertainty on CCS infrastructure. International Journal of Greenhouse Gas Control 2012; 8:132-142.
2. Stauffer PH, Keating GN, Middleton RS, Viswanathan HS, Berchtod KA, Singh RP, Pawar RJ, Mancino A. Greening Coal: Breakthroughs and Challenges in Carbon Capture and Storage. Environmental Science and Technology 2011; 45:8597-8604. DOI:10.1021/es200510f.
3. Baumrucker BT, Biegler LT. MPEC strategies for cost optimization of pipeline operations. Computers and Chemical Engineering 2010; 34. DOI:10.1016/j.compchemeng.2009.07.012.
4. Fleischmann B. Designing distribution-systems with transport economies of scale. European Journal of Operational Research 1993; 70. DOI:10.1016/0377-2217(93)90230-k.
5. Gunnerud V, Foss B. Oil production optimization-A piecewise linear model, solved with two decomposition strategies. Computers and Chemical Engineering 2010; 34. DOI:10.1016/j.compchemeng.2009.10.019.
6. Kuby M, Neuman S, Zhang CT, Cook P, Zhou DD, Friesz T, Shi QQ, Gao SH, Watanatada T, Cao W, Sun XF, Xie ZJ. A strategic investment planning-model for china coal and electricity delivery system. Energy 1993; 18:1-24. DOI:10.1016/0360-5442(93)90075-O.
7. Morbee J, Serpa J, Tzimas E. Optimised deployment of a European CO2 transport network. International Journal of Greenhouse Gas Control 2012; 7:48-61. DOI:10.1016/j.ijggc.2011.11.011.
8. Johnson N, Ogden J. A spatially-explicit optimization model for long-term hydrogen pipeline planning. International Journal of Hydrogen Energy 2012; 37:5421-5433. DOI:10.1016/j.ijhydene.2011.08.109.
9. 2 transport network. European Commission Joint Research Centre JRC Scientific and Technical Reports (EUR collection), 2010. (Available from: http://publications.jrc.ec.europa.eu/repository/handle/111111111/15100.)
10. Osleeb JP, Ratick SJ. An Interperiod Network Storage Location-Allocation (INSLA) model for rail distribution of ethanol biofuels. Journal of Transport Geography 2010; 18:729-737. DOI:10.1016/j.jtrangeo.2009.09.011.
11. Brimberg J, Hansen P, Lih KW, Mladenovic N, Breton M. An oil pipeline design problem. Operations Research 2003; 51:228-239. DOI:10.1287/opre.51.2.228.12786.
12. Klokk O, Schreiner PF, Pages-Bernaus A, Tomasgard A. Optimizing a CO(2) value chain for the Norwegian Continental Shelf. Energy Policy 2010; 38:6604-6614. DOI:10.1016/j.enpol.2010.06.031.
13. De Wolf D, Smeers Y. The gas transmission problem solved by an extension of the simplex algorithm. Management Science 2000; 46:1454-1465. DOI:10.1287/mnsc.46.11.1454.12087.
14. Phillips BR, Middleton RS. SimWIND: A Geospatial Infrastructure Model for Optimizing Wind Power Generation and Transmission. Energy Policy 2012; 43:291-302. DOI:10.1016/j.enpol.2012.01.006.
15. PHMSA. National Pipeline Mapping System. US Department of Transport Pipeline and Hazardous Materials Administration, 2009.
16. 2 storage infrastructure using a GIS based linear optimization energy model. Environmental Modelling and Software 2010; 25:1754-1768. DOI:10.1016/j.envsoft.2010.06.015.
17. Middleton RS, Bielicki JM. A scalable infrastructure model for carbon capture and storage: SimCCS. Energy Policy 2009; 37:1052-1060. DOI:10.1016/j.enpol.2008.09.049.
18. 2 pipeline transport and cost model. Carbon Capture and Sequestration Technologies Program, 2006. (Available from: http://e40-hjh-server1.mit.edu/energylab/wikka.php?wakka=MIT.)
19. Brown D, Cabe J, Stout T. National lab uses OGJ data to develop cost equations. Oil and Gas Journal 2011; 109:108-111.
20. Poiencot B, Brown C. Evaluation of carbon dioxide transportation deployment alternatives for Florida. USA: Florida Scientist, 2012; 75.
21. Kemp AG, Kasim AS. A futuristic least-cost optimisation model of CO2 transportation and storage in the UK/UK Continental Shelf. Energy Policy 2010; 38:3652-3667. DOI:10.1016/j.enpol.2010.02.042.
22. Mendelevitch R, Herold J, Oei P-Y, Tissen A. CO2 Highways for Europe: Modelling a Carbon Capture, Transport and Storage Infrastructure for Europe. CEPS Working Document No. 340, 2010.
23. Poiencot B, Brown C. An optimal centralized carbon dioxide repository for Florida, USA. International Journal of Environmental Research and Public Health 2011; 8:955-975. DOI:10.3390/ijerph8040955.
24. Li J, Liang X, Cockerill T. Getting ready for carbon capture and storage through a 'CCS (Carbon Capture and Storage) Ready Hub': A case study of Shenzhen city in Guangdong province, China. Energy 2011; 36:5916-5924. DOI:10.1016/j.energy.2011.08.030.
25. Strachan N, Hoefnagels R, Ramírez A, van den Broek M, Fidje A, Espegren K, Seljom P, Blesl M, Kober T, Grohnheit PE. CCS in the North Sea region: A comparison on the cost-effectiveness of storing CO2 in the Utsira formation at regional and national scales. International Journal of Greenhouse Gas Control 2011; 5:1517-1532. DOI:10.1016/j.ijggc.2011.08.009.
26. Han J-H, Lee I-B. Development of a Scalable and Comprehensive Infrastructure Model for Carbon Dioxide Utilization and Disposal. Industrial and Engineering Chemistry Research 2011; 50:6297-6315. DOI:10.1021/ie200344t.
27. Roddy RJ. Development of a CO2 network for industrial emissions. Applied Energy 2012; 91:459-465. DOI:10.1016/j.apenergy.2011.10.016.
28. Middleton RS, Kuby MJ, Bielicki JM. Generating candidate networks for optimization: The CO2 capture and storage optimization problem. Computers, Environment and Urban Systems 2012; 36:18-29. DOI:10.1016/j.compenvurbsys.2011.08.002.
29. Keating GN, Middleton RS, Stauffer PH, Viswanathan HS, Letellier BC, Pasqualini D, Pawar RJ, Wolfsberg AV. Mesoscale Carbon Sequestration Site Screening and CCS Infrastructure Analysis. Environmental Science and Technology 2011; 45:215-222. DOI:10.1021/es101470m.
30. Middleton RS, Keating GN, Stauffer PH, Jordan AB, Viswanathan HS, Kang QJ, Carey JW, Mulkey ML, Sullivan EJ, Chu SP, Esposito R, Meckel TA. The cross-scale science of CO2 capture and storage: from pore scale to regional scale. Energy and Environmental Science 2012; 5:7328-7345. DOI:10.1039/C2EE03227A.
31. 2 Capture and Storage Given a Price on Carbon. International Regional Science Review 2011; 34:285-305. DOI:10.1177/0160017610397191.
32. 2 for enhanced oil recovery. Energy Procedia 2011; 4:2185-2191.
33. Middleton RS, Wei R, Kuby MJ, Keating GN, Pawar RJ. A dynamic model for optimally phasing in CCS infrastructure. Environmental Modeling and Software 2012. DOI:10.1039/C2EE03227A, 10.1039/C2EE03227A.
34. Kuby MJ, Middleton RS, Bielicki JM. Analysis of cost savings from networking pipelines in CCS infrastructure systems. Energy Procedia 2011; 4:2808-2815. DOI:10.1016/j.egypro.2011.02.185.
35. NETL. Carbon Sequestration Atlas of the United States and Canada - Third Edition (Atlas III). U.S. Department of Energy, Office of Fossil Energy, National Energy Technology Laboratory, 2010; 162.
36. Metz B, Davidson O, De Coninck H, Loos M, Meyer L. IPCC special report on carbon dioxide capture and storage. Working Group III of the Intergovernmental Panel on Climate Change: Cambridge, 2005.
37. NETL. Improving Domestic Energy Security and Lowering CO2 Emissions with "Next Generation" CO2-Enhanced Oil Recovery (CO2-EOR) DOE/NETL-2011/1504, 2011.
38. Middleton RS. Geographical distillation: Application of the p-median, traveling salesman, and regionalization problems, Geography. University of California: Santa Barbara, Santa Barbara, 2006.
39. ERCOT. Competitive renewable energy zones (CREZ) transmission optimization study, 2008.
40. ERCOT. Report on existing and potential electric system constraints and needs, 2010.
41. Eccles JK, Pratson L, Newell RG, Jackson RB. The impact of geologic variability on capacity and cost estimates for storing CO2 in deep-saline aquifers. Energy Economics. DOI:10.1016/j.eneco.2011.11.015.