- Boolean operators
- This OR that
This AND that
This NOT that
- Must include "This" and "That"
- This That
- Must not include "That"
- This -That
- "This" is optional
- This +That
- Exact phrase "This That"
- "This That"
- (this AND that) OR (that AND other)
- Specifying fields
- publisher:"Publisher Name"
author:(Smith OR Jones)
Technology Options and Integration Concepts for Implementing CO2 Capture in Oil-Sands Operations
- Guillermo Ordorica-Garcia (Alberta Innovates - Technology Futures) | Mehrdokt Nikoo (Alberta Innovates - Technology Futures) | Michiel Carbo (Energy Research Centre of the Netherlands) | Irene Bolea (Universidad de Zaragoza)
- Document ID
- Society of Petroleum Engineers
- Journal of Canadian Petroleum Technology
- Publication Date
- September 2012
- Document Type
- Journal Paper
- 362 - 375
- 2012. Society of Petroleum Engineers
- 5 in the last 30 days
- 561 since 2007
- Show more detail
The majority of the technology development for CO2 capture and storage (CCS) is driven by the electric-utility industry, in which the emphasis is on large centralized units for electric-power generation with coal as the primary fuel. The implementation of CCS in oil-sands operations has significant potential to provide meaningful carbon-emissions reductions. This paper presents various concepts for integrating leading CO2-capture techniques to bitumen-extraction and -upgrading processes. The main carbon-capture technologies are reviewed, and their relative advantages and disadvantages for implementation in bitumen mining, thermal bitumen extraction, and bitumen upgrading are discussed, leading to a qualitative assessment of their suitability for each oil-sands process.
Abdulally, I., Andrus Jr., H.E., Thibeault, P.R., and Chiu, J.H. 2010.Alstom's Chemical Looping Combustion Coal Power Technology DevelopmentPrototype. Paper presented at the 1st International Conference on ChemicalLooping (IFP-Lyon), Lyon, France, 17-19 March.
Aimard, N., Prebende, C., Cieutat, D., Sanchez-Molinero, I., and Tsiava, R. 2009. The CO2 pilot at Lacq: CO2 capture,transportation, injection and strorage ready for start up. Paper presented atthe 1st Oxyfuel Combustion Conference, Cottbus, Germany, 8-11 September.
Anderson, R.E., MacAdam, S., Viteri, F., Davies, D.O., Downs, J.P.,and Paliszewski, A. 2008. Adapting gas turbines to zero emission oxy-fuelpower plants. Paper GT2008-51377 presented at the ASME Turbo Expo 2008: Powerfor Land, Sea and Air (GT2008), Berlin, Germany, 9-13 June.
Anheden, M., Yan, J., and De Smedt, G. 2005. Capture paroxy-combustion. Oil & Gas Science and Technology - Rev. IFP 60 (3): 485-495. http://dx.doi.org/10.2516/ogst:2005030.
Arias, B., Pevida, C., Rubiera, F., and Pis, J.J. 2008. Effect of biomassblending on coal ignition and burnout during oxy-fuel combustion. Fuel 87 (12): 2753-2759. http://dx.doi.org/10.1016/j.fuel.2008.01.020.
Becher, V. 2008. Controlled Staging with Non-Stoichiometric Burners forOxyfuel Processes-Experimental Validation. Paper presented at the 2nd YoungResearcher Forum on Oxyfuel Combustion, Gotheborg, Sweden, 18-19 September.
Berguerand, N. and Lyngfelt, A. 2008. Design and operation of a 10kWth chemical-looping combustor for solid fuels - Testing with SouthAfrican coal. Fuel 87 (12): 2713-2726. http://dx.doi.org/10.1016/j.fuel.2008.03.008.
Bernardo, P., Drioli, E., and Golemme, G. 2009. Membrane GasSeparation: A Review/State of the Art. Ind. Eng. Chem. Res. 48 (10): 4638-4663. http://dx.doi.org/10.1021/ie8019032.
Borrego, A.G. and Alvarez, D. 2007. Comparison of Chars Obtained underOxy-Fuel and Conventional Pulverized Coal Combustion Atmospheres. EnergyFuels 21 (6): 3171-3179. http://dx.doi.org/10.1021/ef700353n.
Burchhardt, U. 2009. Experiences from Commissioning and Test Operation ofVattenfall's Oxyfuel Pilot Plant. Paper presented at the 1st Oxyfuel CombustionConference, Cottbus, Germany, 8-11 September.
Chapel, D.G. and Mariz, C.L. 1999. Recovery of CO2 from FlueGases: Commercial Trends. Paper presented at the Canadian Society of ChemicalEngineers Annual Meeting, Saskatoon, Saskatchewan, Canada, 4-6 October.
Charpentier, A.D., Joule, A.B., and Heather, L.M. 2009. Understandingthe Canadian oil sands industry's greenhouse gas emissions. Environ. Res.Lett. 4 (1): 014005. http://dx.doi.org/10.1088/1748-9326/4/1/014005.
Chui, E.H., Douglas, M.A., and Tan, Y. 2003. Modeling of oxy-fuelcombustion for a western Canadian sub-bituminous coal. Fuel 82(10): 1201-1210. http://dx.doi.org/10.1016/s0016-2361(02)00400-3.
Ciferno, J. 2008. Pulverized Coal Oxycombustion Power Plants. Volume 1:Bituminous Coal to Electricity. Final Report (Rev. 2) DOE/NETL-2007/1291, USDOE/NETL, Washington, DC (August 2008), http://www.netl.doe.gov/energy-analyses/pubs/BitBase_FinRep_2007.pdf.
Croiset, E. and Thambimuthu, K.V. 2001. NOx andSO2 emissions from O2/CO2 recycle coalcombustion. Fuel 80 (14): 2117-2121. http://dx.doi.org/10.1016/s0016-2361(00)00197-6.
Cuadrat, A., Abad, A., Adánez, J., de Diego, L.F., García-Labiano, F.,and Gayán, P. 2010. Performance of ilmenite as oxygen carrier forchemical looping combustion using coal as fuel. Paper presented at the 1stInternational Conference on Chemical Looping (IFP-Lyon), Lyon, France, 17-19March.
Czakiert, T., Karski, S., Szetkler, K., et al. 2009. Operating Experiencewith a 0.1 MWth OxyFuel-CFB Test Rig. Paper presented at the 1st OxyfuelCombustion Conference, Cottbus, Germany, 8-11 September.
de Diego, L.F., Ortiz, M., García-Labiano, F., Adánez, J., Abad, A., andGayán, P. 2009. Synthesis gas generation by chemical-looping reforming using aNibased oxygen carrier. Energy Procedia 1 (1): 3-10. http://dx.doi.org/10.1016/j.egypro.2009.01.003.
de Kler, R. 2009. Towards 2nd generation of IGCC plants: Nuon Magnummulti-fuel power plant. Paper presented at the 4th International Conference onClean Coal Technologies (CCT 2009), Dresden, Germany, 18-21 May.
Dugas, R. and Rochelle, G. 2009. Absorption and desorption rates of carbondioxide with monoethanolamine and piperazine. Energy Procedia 1 (1): 1163-1169. http://dx.doi.org/10.1016/j.egypro.2009.01.153.
Eddings, E.G., Okerlund, R., and Bool, L.E. 2009. Pilot-Scale Evaluation ofOxycoal Firing in Circulating Fluidized Bed and Pulverized Coal-Fired TestFacilities. Paper presented at the 1st Oxyfuel Combustion Conference, Cottbus,Germany, 8-11 September.
Fan, L.S. 2010. Chemical looping processes. Paper presented at the 1stInternational Conference on Chemical Looping (IFP-Lyon), Lyon, France, 17-19March.
Ferguson, C.R., Falsetti, J.S., and Volk, W.P. 1999. Refining Gasification:Petroleum Coke to Fertilizer at Farmland's Coffeyville, KS Refinery. PaperAM-99-13 presented at the NPRA 1999 Annual Meeting, San Antonio, Texas, USA,21-23 March.
Gao, Z., Shen, L., Xiao, J., Qing, C., and Song, Q. 2008. Use of Coal asFuel for Chemical-Looping Combustion with Ni-Based Oxygen Carrier. Ind. Eng.Chem. Res. 47 (23): 9279-9287. http://dx.doi.org/10.1021/ie800850p.
García-Peña, F. and Coca, P. 2009. ELCOGAS: R&D activities towards zeroemissions IGCC plants. Paper presented at the 4th International Conference onClean Coal Technologies (CCT 2009), Dresden, Germany, 18-21 May.
Hill, G. 2009. Carbon Capture & Sequestration: Views from Industry.Presentation given at the Carbon Capture and Sequestration Public Workshop, NewYork, 5 March.
Hiller, H.Reimert, R.Marschner, F. et al. 2000. Gas Production. InUllmann's Encyclopedia of Industrial Chemistry, ed. M. Bohnet, C.J.Brinker, H. Clemens, B. Cornils, and T.J. Evans. Weinheim, Germany: Wiley-VCHVerlag. http://dx.doi.org/10.1002/14356007.a12_169.pub2.
Honea, F.I. 1985. Great Plains Gasification Project process streamdesign data. Final Report DOE/METC-86/0229, OSTI ID 6508028, USDOE Grand ForksProject Office, Grand Forks, North Dakota (01 September 1985), http://www.osti.gov/energycitations/product.biblio.jsp?query_id=1&page=0&osti_id=6508028.
Hossain, M.M., Sedor, K.E., and de Lasa, H.I. 2007.Co-Ni/Al2O3 oxygen carrier forfluidized bed chemical-looping combustion: Desorption kinetics andmetal-support interaction. Chem. Eng. Sci. 62 (18-20): 5464-5472.http://dx.doi.org/10.1016/j.ces.2006.12.066.
Hoteit, A., Chandel, M.K., Durécu, S., and Delebarre, A. 2009. Biogascombustion in a chemical looping fluidized bed reactor. Int. J. GreenhouseGas Control 3 (5): 561-567. http://dx.doi.org/10.1016/j.ijggc.2009.04.003.
Hoteit, A., Forret, A., Pelletant, W., Roesler, J., and Gauthier, T.2010. Chemical looping combustion with different types of liquid fuels. Paperpresented at the 1st International Conference on Chemical Looping (IFP-Lyon),Lyon, France, 17-19 March.
IEA GHG. 2008. International network for CO2 capture: Report on11th workshop. Technical Study, Report No. 2008/7, IEA GreenhouseGas R&D Programme, Cheltenham, UK (July 2008).
Ivie, M.A. and Irvin, N. 2010. Project Status and Research Plans of 500 TPDCO2 Capture Demonstration at Alabama Power's Plant Barry. Paperpresented at the 10th International Conference on Greenhouse Gas ControlTechnologies (GHGT-10), Amsterdam, 19-23 September.
Jäntti, T., Eriksson, T., Hotta, A., Hyppänen, T., and Nuortimo, K.2007. Circulating Fluidized-Bed Technology Toward Zero CO2Emissions. Foster Wheeler Energia Oy, Varkaus, Finland (June 2007), http://www.energycentral.com/download/products/TP_CFB_07_03.pdf.
Jia, L., Tan, Y., Wang, C., and Anthony, E.J. 2007. Experimental Study ofOxy-Fuel Combustion and Sulfur Capture in a Mini-CFBC. Energy Fuels 21 (6): 3160-3164. http://dx.doi.org/10.1021/ef7002359.
Johansson, E., Lyngfelt, A., Mattisson, T., and Johnsson, F. 2003. Gasleakage measurements in a cold model of an interconnected fluidized bed forchemical-looping combustion. Powder Technol. 134 (3):210-217. http://dx.doi.org/10.1016/s0032-5910(03)00125-6.
Johansson, M., Mattisson, T., Ryden, M., and Lynfgelt, A. 2006. Carboncapture via chemical looping combustion and reforming. Paper presented at theInternational Seminar on Carbon Sequestration and Climate Change, Rio deJaneiro, 24-27 October.
Kather, A. 2007. Oxy-fuel Process for Hard Coal with CO2 Capture.A Part of the ADECOS Project. Paper presented at the 2nd Workshop of theInternational Oxy-Combustion Research Network, Windsor, Connecticut, USA, 25-26January.
Kiga, T., Takano, S., Kimura, N. et al. 1997. Characteristics ofpulverized-coal combustion in the system of oxygen/recycled flue gascombustion. Energy Convers. Manage. 38 (Supplement): S129-S134.http://dx.doi.org/10.1016/s0196-8904(96)00258-0.
Kishimoto, S., Hirata, T., Iijima, M., Ohishi, T., Higaki, K., and Mitchell,R. 2009. Current status of MHI's CO2 recovery technology andoptimization of CO2 recovery plant with a PC fired power plant.Energy Procedia 1 (1): 1091-1098. http://dx.doi.org/10.1016/j.egypro.2009.01.144.
Kohl, A.L. and Nielsen, R.B. 1997. Gas Purification, fifth edition.Houston, Texas: Gulf Publishing Company.
Köpke, D., Eggers, R., Mieske, K., and Kather, A. 2009. Liquefacitonof Oxyfuel Flue Gas. Experimental Results and Comparison with Phase EquilibriumCalculations. Paper presented at the 1st Oxyfuel Combustion Conference,Cottbus, Germany, 8-11 September.
Ksepko, E., Siriwardane, R.V., Tian, H., Simonyi, T., and Scia¸z?ko, M.2010. Comparative Investigation on Chemical Looping Combustion of Coal-DerivedSynthesis Gas containing H2S over Supported NiO Oxygen Carriers. EnergyFuels 24 (8): 4206-4214. http://dx.doi.org/10.1021/ef100490m.
Kuivalainen, R., Eriksson, T., Hotta, A. et al. 2010. Development andDemonstration of Oxy-fuel CFB Technology. Paper TP_CCS_10_3 presented at the35th International Technical Conference on Clean Coal & Fuel Systems,Clearwater, Florida, USA, 6-11 June.
Lee, D.K., Noh, D.S., Choi, K.B., Seo, D.M., Ko, C.B., and Lee, E.K.2009. Development of 0.1MW class Oxy-PC Swirl Burner with Primary O2Direct-injection. Paper presented at the 1st Oxyfuel Combustion Conference,Cottbus, Germany, 8-11 September.
Li, H., Yan, J., and Anheden, M. 2009. Impurity impacts on the purificationprocess in oxy-fuel combustion based CO2 capture and storage system.Appl. Energy 86 (2): 202-213. http://dx.doi.org/10.1016/j.apenergy.2008.05.006.
Mattisson, T., Lyngfelt, A., and Cho, P. 2001. The use of iron oxide as anoxygen carrier in chemical-looping combustion of methane with inherentseparation of CO2. Fuel 80 (13): 1953-1962. http://dx.doi.org/10.1016/s0016-2361(01)00051-5.
Mattisson, T., Lyngfelt, A., and Leion, H. 2009. Chemical-looping withoxygen uncoupling for combustion of solid fuels. Int. J. Greenhouse GasControl 3 (1): 11-19. http://dx.doi.org/10.1016/j.ijggc.2008.06.002.
Miracca, I., Ingvar Åsen, K., Assink, J. et al. 2009. The CO2Capture Project (CCP): Results from Phase II (2004-2009). EnergyProcedia 1 (1): 55-62. http://dx.doi.org/10.1016/j.egypro.2009.01.010.
Moghaderi, B. and Wall, T. 2007. An Overview of Chemical Looping Combustionas a Potential Clean Coal Technology. Paper #24282 presented at the Coal21Conference 2007, NSW, Australia, 18-19 September.
Mosera, P., Schmidta, S., Siederb, G., Garciab, H., Stoffregenc, T., andStamatov, V. 2010. The post-combustion capture pilot plant Niederaussem—Resultsof the first half of the testing programme. Paper presented at theInternational Conference on Greenhouse Gas Control Technologies (GHGT-10),Amsterdam, 19-23 September.
Murphy, J.J. and Shaddix, C.R. 2006. Combustion kinetics of coal chars inoxygen-enriched environments. Combust. Flame 144 (4):710-729. http://dx.doi.org/10.1016/j.combustflame.2005.08.039.
Ordorica-Garcia, G., Croiset, E., Douglas, P., Elkamel, A., and Gupta, M.2007. Modeling the Energy Demands and Greenhouse Gas Emissions of the CanadianOil Sands Industry. Energy Fuels 21 (4): 2098-2111. http://dx.doi.org/10.1021/ef0700984.
Ordorica-Garcia, G., Wong, S., and Faltinson, J. CO2 Supplyfrom the Fort McMurray Area 2005-2020. Final Report, Alberta Research Council,Edmonton, Alberta (31 March 2009), http://eipa.alberta.ca/media/40306/final%20report%20co2%20supply%20and%20cost%20from%20fort%20mcmurray.pdf.
Ordorica-Garcia, J.G. 2007. Development of optimal energy infrastructuresfor the oil sands industry in a carbon dioxide-constrained world. PhDthesis, University of Waterloo, Waterloo, Ontario.
Pröll, T., Mayer, K., Bolhàr-Nordenkampf, J. et al. 2009. Natural mineralsas oxygen carriers for chemical looping combustion in a dual circulatingfluidized bed system. Energy Procedia 1 (1): 27-34. http://dx.doi.org/10.1016/j.egypro.2009.01.006.
Romeo, L.M., Díez, L.I., Guedea, I. et al. 2011. Design and operationassessment of an oxyfuel fluidized bed combustor. Exp. Therm Fluid Sci. 35 (3): 477-484. http://dx.doi.org/10.1016/j.expthermflusci.2010.11.011.
Ryu H. 2011. Korea Institute of Energy Research, http://www.clctech.re.kr/ (AccessedSeptember, 2011).
Santos, S. 2009. Challenges in the Development of Oxy-Coal Combustion PowerPlant with CO2 Capture. Lecture 2, Asia Pacific Programme OxyfuelWorking Group (APP OFWG) Capacity Building Course, Daejeon, South Korea (5February 2009), http://www.newcastle.edu.au/Resources/Projects/Asia%20Pacific%20Partnership%20Oxy-fuel%20Working%20Group/2_Santos.pdf.
Sarofim, A. 2007. Oxy-fuel Combustion: Progress and Remaining Issues. PaperKeynote Presentation (01) given at the 2nd Workshop of the InternationalOxy-Combustion Research Network, Windsor, Connecticut, USA, 25-26 January.
Scotton, G. 2008. Carbon capture plan lauded. Calgary Herald, 9 July2008, E1/Front. http://www.canada.com/calgaryherald/news/calgarybusiness/story.html?id=cdbc1331-af15-495f-892f-bdaabe07bf2b.
SCS Energy. 2009. Revised Application for Certification for Hydrogen EnergyCalifornia (HECA). Application No. 08-AFC-8, California Energy Commission,Sacramento, California (22 October 2009).
Seevam, P.N., Downie, M.J., and Race, J.M. 2008. The Next Generationof CO2 Pipelines. Paper presented at the IEA Summer School 2008,Vancouver, Canada, 24-30 August.
Shaddix, C.R. and Molina, A. 2009. Particle imaging of ignition anddevolatilization of pulverized coal during oxy-fuel combustion. Proc.Combust. Inst. 32 (2): 2091-2098. http://dx.doi.org/10.1016/j.proci.2008.06.157.
Sit, S. 2009. Chemical looping steam generation for SAGD. Paper presented atthe 2009 Global Petroleum Conference, Calgary, 9-11 June.
Spero, C. and Montagner, F. 2007. Oxy-combustion Technology in the WorldScene. Paper presented at the Coal21 Conference 2007, NSW, Australia, 18-19September.
Strömberg, L. 2005. Launching of the second European Climate ChangeProgramme (ECCP II). Presentation given at the Stakeholder Conference,Brussels, Belgium, 24 October.
Tarr, A. 2009. ZeroGen: low emission power. Paper presented at the AustraliaJapan Coal Technology Workshop, Brisbane, Australia, 26 June.
Telikapalli, V., Kozak, F., Francois, J. et al. 2010. CCS with the Alstomchilled ammonia process development program-Field pilot results. Paperpresented at the 10th International Conference on Greenhouse Gas ControlTechnologies (GHGT-10), Amsterdam, 19-23 September.
Tranier, J.-P., Dubettier, R., and Perrin, N. 2009. Air SeparationUnit for Oxy-Coal Combustion Systems. Paper presented at the 1st OxyfuelCombustion Conference, Cottbus, Germany, 8-11 September.
Wall, T. 2009. Scoping study on oxy-fuel combustion for the AustralianNational Low Emission Coal R&D (ANLECR&D) program. Commissioned Report,Autralian National Low Emission Coal R&D Program, Canberra, Australia(September 2009).
Weiss, H. 1988. Rectisol wash for purification of partial oxidation gases.Gas Separation & Purification 2 (4): 171-176. http://dx.doi.org/10.1016/0950-4214(88)80002-1.
White, V., Allam, R., and Miller, E. 2006. Purification ofOxyfuel-Derived CO2 for Sequestration or EOR. Paper presented at the8th International Conference on Greenhouse Gas Control Technologies (GHGT-8),Trondheim, Norway, 19-22 June.
White, V., Armstrong, P., and Fogash, K. 2009. Oxygen supply forOxyfuel CO2 capture. Paper presented at the 1st Oxyfuel CombustionConference, Cottbus, Germany, 8-11 September.
Woods, M.C., Capicotto, P.J., Haslbeck, J.L. et al. 2007. Cost andPerformance Baseline for Fossil Energy Plants. Volume 1: Bituminous Coal andNatural Gas to Electricity. Final Report (Rev. 1) DOE/NETL-2007/1281, USDOE/NETL, Washington, DC (August 2007), http://www.netl.doe.gov/energy-analyses/pubs/BitBase_FinRep_2007.pdf.
Xu, S. 2008. GreenGen--Near Zero Emission Coal Based Power DemonstrationProject in China. Paper presented at the 2nd US-China Symposium onCO2 Emissions Control Science & Technology, Hangzhou, China,28-30 May.
Yagi, Y., Mimura, T., Yonekawa, T., and Yoshiyama, R. 2006.Development and Improvement of CO2-Capture System. Paper presentedat the 8th International Conference on Greenhouse Gas Control Technologies(GHGT-8), Trondheim, Norway, 19-22 June.
Zanganeh, K.E., Shafeen, A., and Salvador, C. 2009. On the Performanceof an Advanced Pilot-Sacle CO2 Capture and Compression Unit(CO2CCU). Paper presented at the 1st Oxyfuel Combustion Conference,Cottbus, Germany, 8-11 September.
ZEP. 2011. The Costs of CO2 Capture, Transport and Storage.Technical Report, European Technology Platform for Zero Emission Fossil FuelPower Plants (ZEP), Brussels, Belgium (15 July 2011), http://www.zeroemissionsplatform.eu/library/publication/165-zep-cost-report-summary.html.
Zuideveld, P.L., de Graaf, J.D., Posthuma, S.A., and van Dongen, F.G.1998. Initial operation of the Shell Pernis residue gasification project. Paperpresented at the Gasification Technologies Conference, San Francisco,California, USA, 4-7 October.
Not finding what you're looking for? Some of the OnePetro partner societies have developed subject- specific wikis that may help.
The SEG Wiki
The SEG Wiki is a useful collection of information for working geophysicists, educators, and students in the field of geophysics. The initial content has been derived from : Robert E. Sheriff's Encyclopedic Dictionary of Applied Geophysics, fourth edition.