Kathryn A. MUMFORD , Yue WU , Kathryn H. SMITH , Geoffrey W. STEVENS . Review of solvent based carbon-dioxide capture technologies[J]. Frontiers of Chemical Science and Engineering, 2015 , 9(2) : 125 -141 . DOI: 10.1007/s11705-015-1514-6

1	Working Group III of the Intergovernmental Panel on Climate Change. IPCC Special Report on Carbon Dioxide Capture and Storage. 2005

2	Carbon Visuals. CCS: A 2 Degree Solution. 2014

3	Spasoff P. Saskpower selects carbon capture technology for Boundary Dam Project. 2010

4	Department of Mines and Petroleum, Australia. Fact Sheet: Century Plant. 2014

5	Global CCS Institute. Coffeyville Gasification Plant. 2014

6	Carbon Capture & Sequestration Technologies @ MIT. Enid Fertiliser Fact Sheet: Commercial EOR using Anthropogenic Carbon Dioxide. 2015

7	Global CCS Institute. Great Plains Synfuel Plant and Weyburn-Midale Project. 2014

8	Global CCS Institute. Lost Cabin Gas Plant. 2014

9	Global CCS Institute. Shute Creek Gas Processing Facility. 2014

10	Johannessen E. CO2 removal at Sleipner. 2012

11	Global CCS Institute. Snohvit CO2 storage project. 2014

12	Department of Mines and Petroleum, Australia. Fact Sheet: Val Verde Gas Plants. 2014

13	Global CCS Institute. Alberta Carbon Trunk Line (“ACTL”) with Agrium CO2 Stream. 2014

14	Global CCS Institute. Alberta Carbon Trunk Line (“ACTL”) with North Sturgeon Refinery CO2 stream. 2014

15	Chevron. Gorgon Project: Overview. 2014

16	Global CCS Institute. Kemper County Energy Facility (formerly Kemper County IGCC Project). 2014

17	Shell. Quest Carbon Capture and Storage Project. Amendment to OSCA and EPEA Approvals for the Carbon Capture Infrastructure. 2010

18	Global CCS Institute. Uthmaniyah CO2 EOR Demonstration Project. 2014

19	Global CCS Institute. Projects: Saudi Aramco Shedgum Gas Plant. 2014

20	Global CCS Institute. Abu Dhabi CCS Project (formerly Emirates Steel Industries (ESI) CCS Project). 2014

21	ZeroCO2. WA Parish CCS (Petra Nova Carbon Capture Project). 2014

22	National Energy Technology Laboratory, U.S. Department of Energy. DOE/NETL Advanced Carbon Dioxide Capture R&D Program: Technology Update. 2013

23	Olajire A A. CO2 capture and separation technologies for end-of-pipe applications—A review. Energy, 2010, 35: 2610–2628

24	Owens W, Buchanan T, DeLallo M, Schoff R, White J. Evaluaton of innovative fossil fuel power plants with CO2 removal. 2000

25	Gainar I, Anitescu G. The solubility of CO2, N2 and H2 in a mixture of dimethylether polyethylene glycolds at high pressures. Fluid Phase Equilibria, 1995, 109(2): 281–289

26	ThyssenKrupp. Morphysorb/Genosorb Physical Solvents for Acid Gas Removal, T.I. Solutions. 2014

27	Bucklin R W, Schendel R L. Comparison of fluor solvent and Selexol processes. Energy Progress, 1984, 4(3): 137–142

28	Wang M, Lawal A, Stephenson P, Sidders J, Ramshaw C. Post-combustion CO2 capture with chemical absorption: A state-of-the-art review. Chemical Engineering Research & Design, 2011, 89(9): 1609–1624

29	Abu-Zahra M R M, Abbas Z, Singh P, Feron P. Carbon Dioxide Post-Combustion Capture: Solvent Technologies Overview, Status and Future Directions. Materials and Processes for Energy: Communicating Current Research and Technological Developments. 2013

30	Huttenhuis P J G, Agrawal N J, Hogendoom J A, Versteeg G F. Gas solubility of H2S and CO2 in aqueous solutions of N-methyldiethanolamine. Journal of Petroleum Science Engineering, 2007, 55: 122–134

31	Padurean A, Cormos C C, Agachi P S. Techno-economical evaluation of post-and pre-combustion carbon dioxide capture methods applied for an IGCC power generation plant. Environmental Engineering and Management Journal, 2013, 12(11): 2191–2201

32	Pennline H W, Luebke D R, Jones K L, Myers C R, Morsi B I, Heintz Y J, Ilconich J B. Progress in carbon dioxide capture and separation research for gasification-based power generation point sources. Fuel Processing Technology, 2008, 89(9): 897–907

33	Heintz Y J, Sehabiague L, Morsi B I, Jones K L, Pennline H W. Novel physical solvents for selective CO2 capture from fuel gas streams at elevated pressures and temperatures. Energy & Fuels, 2008, 22(6): 3824–3837

34

Miller A L, Carlisle T K, LaFrate A L, Voss B A, Bara J E, Hudiono Y C, Wiesenauer B R, Gin D L, Noble R D. Design of functionalized room-temperature ionic liquid-based materials for CO2 separations and selective blocking of hazardous chemical vapors. Separation Science and Technology, 2012, 47(2): 169–177

35	Finkenrath M. Carbon dioxide capture from power generation—Status of cost and performance. Chemical Engineering & Technology, 2012, 35(3): 482

36	Davison J. Performance and costs of power plants with capture and storage of CO2. Energy, 2007, 32(7): 1163–1176

37	SaskPower. Boundary Dam project is reaping benefits. 2015

38	Munson R. Boundary Dam first to power with CCS. 2014

39	IEA Greenhouse Gas R&D Programme (IEA GHG). Evaluation of post-combustion CO2 capture solvent concepts, 2009

40	Business Wire. World’s Largest Post-Combustion Carbon Capture-Enhanced Oil Recovery Project to be built by NRG Energy and JX Nippon Oil & Gas Exploration. Construction begins at WA Parish plant near Houston. 2014

41	Reddy S, Scherffius J R, Yonkoski J, Radgen P, Rode H. Initial results from Fluor’s CO2 capture demonstration plant using econamine FG PlusSM technology at E.ON Kraftwerke’s Wilhelmshaven Power Plant. Energy Procedia, 2013, 37: 6216–6225

42	Goto K, Yogo K, Higashii T. A review of efficiency penalty in a coal-fired power plant with post-combustion CO2 capture. Applied Energy, 2013, 111: 710–720

43	Knudsen J N, Jensen J N, Vilhelmsen P J, Biede O. Experience with CO2 capture from coal flue gas in pilot-scale: Testing of different amine solvents. Greenhouse Gas Control Technologies, 2009, 1(1): 783–790

44	Knudsen J N, Andersen J, Jensen J N, Biede O. Evaluation of process upgrades and novel solvents for the post combustion CO2 capture process in pilot-scale. Energy Procedia, 2011, 4: 1558–1565

45	Cousins A, Cottrell A, Lawson A, Huang S, Feron P H M. Model verification and evaluation of the rich-split process modification at an Australian-based post combustion CO2 capture pilot plant. Greenhouse Gases-Science and Technology, 2012, 2(5): 329–345

46	Artanto Y, Jansen J, Pearson P, Do T, Cottrell A, Meuleman E, Feron P. Performance of MEA and amine-blends in the CSIRO PCC pilot plant at Loy Yang Power in Australia. Fuel, 2012, 101: 264–275

47	Hart C, Liu H. Advancing carbon capture and sequestration in China: A global learning laboratory. China Environment Series Issue 11. Woodrow Wilson International Center for Scholars, 2010, 11: 99–121

48	Wangyi Finance. The second carbon capture project operated by Huaneng begins to construct in Shanghai 2009 (in Chinese)

49	CCUS in China. Petrochina’s CO2-EOR Research and Demonstration Project in the Jilin Oil Field. 2014

50	Conti F, Oettinger G, Prestigiacomo S, Ferrarese M, Mennitti D. ENEL: Inauguration of Italy’s first CCS pilot plant in Brindisi. 2011

51	Casero P, García-Peña F, Coca P. Elcogas pre-combustion carbon capture pilot. Real experience of commercial technology. Energy Procedia, 2013, 37: 6374–6382

52	Inatsune Y, Fukuda Y, Sugasawa M, Kimura H. Development of an environmentally conscious thermal power system. Hitachi Review, 2013, 62(1): 31–38

53	Liu K. Application of a Heat Integrated Post-Combustion CO2 Capture System. In: 2013 NETL CO2 Capture Technology Meeting, Pittsburgh, PA, 2013

54	Alstom. Charleston Carbon Capture Field Pilot. 2012

55	Idem R, Tontiwachwuthikul P, Gelowitz D, Wilson M. Latest research on fundamental studies of CO2 capture process technologies at the international test centre for CO2 capture. Energy Procedia, 2011, 4: 1707–1712

56	Thong D, Dave N, Feron P, Azzi M. Environmental Impacts of Amine-based CO2 Post Combustion Capture (PCC) Process. In: Activity 3: Process Modelling for Amine-based Post Combustion Capture Plant. Australia: CSIRO, 2012

57	RWE. Carbon dioxide capture and storage. 2014

58	Knudsen J N, Jensen J N, Vilhelmsen P J, Biede O. Experience with CO2 capture from coal flue gas in pilot-scale: Testing of different amine solvents. Greenhouse Gas Control Technologies, 2009, 1(1): 783–790

59	Ryu C K. Hadong and Boryeong 10 MW Pilot Projects. In: CSLF Technology Workshop in Seoul Korea, 2014

60	Endo T, Kajiya Y, Nagayasu H, Iijima M, Ohishi T, Tanaka H, Mitchell R. Current status of MHI CO2 capture plant technology, large scale demonstration project and road map to commercialization for coal fired flue gas application. Energy Procedia, 2011, 4: 1513–1519

61	Carbon Capture & Sequestration Technologies @ MIT. Plant Barry Fact Sheet: Carbon Dioxide Capture and Storage Project. 2015

62	Neill L. CATO CO2 catcher Pilot Plant Factsheet. 2008

63	CATO. Catching carbon to clear the skies. In: Experiences and Highlights of the Dutch R&D Programme on CCS2010. 2010

64	Tollefson J. Low-cost carbon-capture project sparks interest. Nature, 2011, 469(7330): 276–277

65	Department of Energy & Climate Change, UK. Carbon Capture Project Case Studies. 2013

66	Mangalapally H P, Notz R, Hoch S, Asprion N, Sieder G, Garcia H, Hasse H. Pilot plant experimental studies of post combustion CO2 capture by reactive absorption with MEA and new solvents. Energy Procedia, 2009, 1: 963–970

67	Mangalapally H P, Hasse H. GHGT-10: Pilot plant experiments for post combustion carbon dioxide capture by reactive absorption with novel solvents. Energy Procedia, 2011, 4: 1–8

68	Fluor, E. ON Kraftwerke Carbon Capture Technology Demonstation Plant. 2014

69	Yu H, Morgan S, Allport A, Cottrell A, Do T, McGregor J, Wardhaugh L, Feron P. Results from trialling aqueous NH3 based post-combustion capture in a pilot plant at Munmorah power station: Absorption. Chemical Engineering Research & Design, 2011, 89(8A): 1204–1215

70	McLarnon C R, Duncan J L. Testing of ammonia based CO2 capture with multi-pollutant control technology. Greenhouse Gas Control Technologies, 2009, 1(1): 1027–1034

71	Alstom. We Energies Pleasant Prairie Field Pilot. 2008

72	AEP. Carbon Capture and Storage. 2014

73	Alstom. E.ON Karlshamn Carbon Capture Field Pilot. 2014

74	Carbon Capture & Sequestration Technologies @ MIT. Statoil Mongstad Fact Sheet: Carbon Dioxide Capture and Storage Project. 2015

75	PennEnergy. Clean Coal: Carbon capture pilot begins at Polk IGCC plant. 2014

76	Siemens. Post-Combustion Carbon Capture. 2014

77	Southern Company Services, Inc. The National Carbon Capture Center at the Power Systems Development Facility. 2012

78	Reardon J,Advanced Low Energy Enzyme-Catalyzed Solvent for CO2 Capture. In: NETL National CO2 Capture Technology Meeting, 2013, Pittsburgh, PA, USA

79	Seibert F, Chen E, Perry M, Briggs S, Montgomery R, Rochelle G. UT/SRP CO2 capture pilot plant—Operating experience and procedures. Energy Procedia, 2011, 4: 1616–1623

80

Mumford K A, Smith K H, Anderson C J, Shen S F, Tao W D, Suryaputradinata Y A, Qader A, Hooper B, Innocenzi R A, Kentish S E, Stevens G W. Post-combustion capture of CO2: Results from the solvent absorption capture plant at hazelwood power station using potassium carbonate solvent. Energy & Fuels, 2012, 26(1): 138–146

81

Smith K H, Anderson C J, Tao W, Endo K, Mumford K A, Kentish S E, Qader A, Hooper B, Stevens G W, Pre-combustion capture of CO2—Results from solvent absorption pilot plant trials using 30wt% potassium carbonate and boric acid promoted potassium carbonate solvent. International Journal of Greenhouse Gas Control, 2012, 10(6): 64–73

82	NETL. Carbon Absorber Retrofit Equipment (CARE). 2014

83	Damen K, Faber R, Gnutek R, van Dijk H, Trapp C, Valenz L. Performance and modelling of the pre-combustion capture pilot plant at the Buggenum IGCC. Energy Procedia, 2013

84	Feron P, Hooper B. Research Opportunies in Post Combustion CO2 Capture. Australia: CSIRO, 2009

85	Kothandaraman A. Carbon Dioxide Capture by Chemical Absorption: A Solvent Comparison Study. USA: Massachusetts Institute of Technology, 2010

86	Rochelle G, Chen E, Freeman S, Van Wagener D, Xu Q, Voice A. Aqueous piperazine as the new standard for CO2 capture technology. Chemical Engineering Journal, 2011, 171(3): 725–733

87	Freeman S A, Dugas R, van Wagener D H, Nguyen T, Rochelle G T. Carbon dioxide capture with concentrated, aqueous piperazine. International Journal of Greenhouse Gas Control, 2010, 4(2): 119–124

88	Rameshni M. Carbon Capture Overview. Australia: WorleyParsons, 2010

89	Cheng-Hsiu Y, Chih-Hung H, Chung-Sung T. A review of CO2 capture by absorption and adsorption. Aerosol and Air Quality Research, 2012, (5): 745

90	Herzog H. An Introduction to CO2 Separation and Capture Technologies. Cambridge, MA: MIT Energy Laboratory, 1999

91	Lecomte F, Broutin P, Lebas E. CO2 Capture; Technologies to Reduce Greenhouse Gas Emissions. Portland, OR, USA: Book News, Inc., 2010

92	Singh P. Incorporating Future Technological Improvements in Existing CO2 Post Combustion Capture Plants: Technical Review. Cheltenham, UK: IEAGHG, 2013

93	Veawab A, Aroonwilas A, Chakma A, Tontiwachwuthikul P. Solvent Formulation for CO2 Separation from Flue Gas Streams. Regina: University of Regina, 2001

94	Veawab A, Aroonwilas A, Tontiwachwuthikul P. CO2 absorption performance of aqueousalkanolamines in packed columns. Fuel Chemistry Division Preprints, 2002, 47(1), 49–50

95	Idem R, Gelowitz D, Tontiwachwuthikul P. Evaluation of the performance of various amine based solvents in an optimized multipurpose technology development pilot plant. Energy Procedia, 2009, 1: 1543–1548

96	Jovanovic S. Hill M. Slipstream pilot scale demonstration of a novel amine-based post-combustion technology for carbon dioxide captrue from coal-fired power plant flue gas in Techno-Economic Analysis of 550 MWe subcritical PC power plant with CO2 capture. USA: DOE, 2012

97	Closmann F, Nguyen T, Rochelle G T. MDEA/Piperazine as a solvent for CO2 capture. Energy Procedia, 2009, 1: 1351–1357

98	Bishnoi S, Rochelle G T. Absorption of carbon dioxide into aqueous piperazine: reaction kinetics, mass transfer and solubility. Chemical Engineering Science, 2000, 55(22): 5531–5543

99	Os P V. CO2 Enhanced Separation and Recovery. Netherlands: TNO, 2011

100	Singh A, Stéphenne K. Shell Cansolv CO2 capture technology: Achievement from first commercial plant. Energy Procedia, 2014, 63: 1678–1685

101	Herzog H, Meldon J, Hatton A. Advanced Post-Combustion CO2 Capture. Boston, MA, USA: Clean Air Task Force, 2009

102	Brouwer J P, Feron P H M, Asbroek N A M. Amino acid salts for CO2 capture from flue gases. In: Proceedings of the 4th Annual Conference on Carbon Capture and Sequestration, Alexandria, VA, USA, 2005

103	Liu A H, Ma R, Song C, Yang Z Z, Yu A, Cai Y, He L N, Zhao Y N, Yu B, Song Q W. Equimolar CO2 capture by N-substituted amino acid salts and subsequent conversion. Angewandte Chemie International Edition, 2012, 51(45): 11306–11310

104	Sanchez-Fernandez E. Mercader FdM, Misiak K, van der Ham L, Linders M, Goetheer E. New process concepts for CO2 capture based on precipitating amino acids. Energy Procedia, 2013, 37: 1160–1171

105	Puxty G, Rowland R, Attalla M. Comparison of the rate of CO2 absorption into aqueous ammonia and monoethanolamine. Chemical Engineering Science, 2010, 65(2): 915–922

106	Anderson C, Harkin T, Ho M, Mumford K, Qader A, Stevens G, Hooper B. Developments in the CO2 CRC UNO MK 3 process: A multi-component solvent process for large scale CO2 capture. Energy Procedia, 2013, 37: 225

107	Taylor C E. An Overview of Carbon Capture Regulations and Technologies. In: 2011 ICAC Meeting, Mobile, AL, USA, 2011

108	Smith K, Ghosh U, Khan A, Simioni M, Endo K, Zhao X, Kentish S, Qader A, Hooper B, Stevens G. Recent developments in solvent absorption technologies at the CO2 CRC in Australia. Energy Procedia, 2009, 1(1): 1549

109	Thee H, Nicholas N J, Smith K H, da Silva G, Kentish S E, Stevens G W. A kinetic study of CO2 capture with potassium carbonate solutions promoted with various amino acids: Glycine, sarcosine and proline. International Journal of Greenhouse Gas Control, 2014, 20: 212–222

110	Cullinane J T, Rochelle G T. Carbon dioxide absorption with aqueous potassium carbonate promoted by piperazine. Chemical Engineering Science, 2004, 59(17): 3619–3630

111	Thee H, Suryaputradinata Y A, Mumford K A, Smith K H, da Silva G, Kentish S E, Stevens G W. A kinetic and process modeling study of CO2 capture with MEA-promoted potassium carbonate solutions. Chemical Engineering Journal, 2012, 210: 271–279

112	Thee H, Smith K H, da Silva G, Kentish S E, Stevens G W. Carbonic anhydrase promoted absorption of CO2 into potassium carbonate solutions. Greenhouse Gases: Science and Technology, 2015, 5(1): 108–114

113	Thee H, Smith K H, da Silva G, Kentish S E, Stevens G W. Carbon dioxide absorption into unpromoted and borate-catalyzed potassium carbonate solutions. Chemical Engineering Journal, 2012, 181–182: 694–701

114

Smith K, Xiao G, Mumford K, Gouw J, Indrawan I, Thanumurthy N, Quyn D, Cuthbertson R, Rayer A, Nicholas N, Lee A, da Silva G, Kentish S, Harkin T, Qader A, Anderson C, Hooper B, Stevens G. Demonstration of a concentrated potassium carbonate process for CO2 capture. Energy and Fuels, 2013, 28(1): 299–306

115

Anderson C, Hooper B, Qader A, Harkin T, Smith K, Mumford K, Pandit J, Ho M, Lee A, Nicholas N, Indrawan, Gouw J, Xiao J, Thanumurthy N, Temple N, Stevens G, Wiley D. Recent developments in the UNO MK 3 Process—A low cost, environmentally benign precipitating process for CO2 capture. Energy Procedia, 2014, 63: 1773–1780

116	Illinois State Geological Survey, Bench-Scale Development of a Hot Carbonate Absorption Process with Crystallization-Enabled High Pressure Stripping for Post Pressure Stripping for Post-Combustion CO2 Capture. In: Project Review Meeting, Pittsburgh, PA, USA, 2013

117	Mumford K A, Pas S J, Linseisen T, Statham T M, Johann Nicholas N, Lee A, Kezia K, Vijayraghavan R, MacFarlane D R, Stevens G W. Evaluation of the protic ionic liquid, N,N-dimethyl-aminoethylammonium formate for CO2 capture. International Journal of Greenhouse Gas Control, 2015, 32: 129–134

118	Maginm E J. Ionic Liquids: Breakthrough Absorption Technology for Post-Combustion CO2 Capture. USA: University of Notre Dame, 2013

119	Vega F, Sanna A, Navarrete B, Maroto-Valer M M, Cortes V. Degradation of amine-based solvents in CO2 capture process by chemical absorption. Greenhouse Gases-Science and Technology, 2014, 4(6): 707–733

120	Dumee L, Scholes C, Stevens G, Kentish S. Purification of aqueous amine solvents used in post combustion CO2 capture: A review. International Journal of Greenhouse Gas Control, 2012, 10: 443–455

121	Reynolds A J, Verheyen T V, Adeloju S B, Meuleman E, Feron P. Towards commercial scale postcombustion capture of CO2 with monoethanolamine solvent: Key considerations for solvent management and environmental impacts. Environmental Science & Technology, 2012, 46(7): 3643–3654

122	Yan S P, He Q Y, Zhao S F, Zhai H, Cao M H, Ai P. CO2 removal from biogas by using green amino acid salts: Performance evaluation. Fuel Processing Technology, 2015, 129: 203–212

123	Sodiq A, Rayer A V, Olanrewaju A A, Abu Zahra M R M. Reaction kinetics of carbon dioxide (CO2) absorption in sodium salts of taurine and proline using a stopped-flow technique. International Journal of Chemical Kinetics, 2014, 46(12): 730–745

124

Rabensteiner M, Kinger G, Koller M, Gronald G, Unterberger S, Hochenauer C. Investigation of the suitability of aqueous sodium glycinate as a solvent for post combustion carbon dioxide capture on the basis of pilot plant studies and screening methods. International Journal of Greenhouse Gas Control, 2014, 29: 1–15

125	Wei C C, Puxty G, Feron P. Amino acid salts for CO2 capture at flue gas temperatures. Chemical Engineering Science, 2014, 107: 218–226

126	Grant T, Anderson C, Hooper B. Comparative life cycle assessment of potassium carbonate and monoethanolamine solvents for CO2 capture from post combustion flue gases. International Journal of Greenhouse Gas Control, 2014, 28: 35–44

127	Yang N, Yu H, Li L C, Xu D Y, Han W F, Feron P. Aqueous ammonia (NH3) based post combustion CO2 capture: A review. Oil & Gas Science and Technology-Revue Energies Nouvelles, 2014, 69(5): 931–945

128	Ahn C K, Han K, Lee M S, Kim J Y, Chun H D, Kim Y, Park J M. Experimental studies of additivies for suppression of ammonia vaporization in the ammonia based CO2 capture process. Energy Procedia, 2013, 37: 7108–7116

129	Salentinig S, Jackson P, Attalla M. Strategic vapor suppressing additives for ammonia based CO2 capture solvent. Energy Procedia, 2013, 37: 241–246

130	Yu H, Xiang Q Y, Fang M X, Yang Q, Feron P. Promoted CO2 absorption in aqueous ammonia. Greenhouse Gases-Science and Technology, 2012, 2(3): 200–208

131	Zhuang Q, Clements B, Li Y. From ammonium bicarbonate fertilizer production process to power plant CO2 capture. International Journal of Greenhouse Gas Control, 2012, 10: 56–63

132	Kumar S, Cho J H, Moon I. Ionic liquid-amine blends and CO2BOLs: Prospective solvents for natural gas sweetening and CO2 capture technology-A review. International Journal of Greenhouse Gas Control, 2014, 20: 87–116

133	Chen Y, Cao Y Y, Sun X F, Yan C Y, Mu T C. New criteria combined of efficiency, greenness, and economy for screening ionic liquids for CO2 capture. International Journal of Greenhouse Gas Control, 2013, 16: 13–20

134	Yang Z Z, Zhao Y N, He L N. CO2 chemistry: Task-specific ionic liquids for CO2 capture/activation and subsequent conversion. RSC Advances, 2011, 1(4): 545–567

135	Yong J K J, Stevens G W, Caruso F, Kentish S E. The use of carbonic anhydrase to accelerate carbon dioxide capture processes. Journal of Chemical Technology and Biotechnology (Oxford, Oxfordshire), 2015, 90(1): 3–10

136	NETL. The Energy lab PROJECT FACTS: Post-Combustion CO2 Capture for Existing PC Boilers by Self-Concentrating Amine Absorbent. 2011

137	Global CCS Institute. The Global Status of CCS. 2014

138	National Energy Technology Laboratory. Carbon Capture: Technology program plan. 2013