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Received December 22, 2016
Accepted April 22, 2017
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This is an Open-Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/bync/3.0) which permits
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Solvent selection for CO2 capture from gases with high carbon dioxide concentration
Andrzej Wilk†
Lucyna Więcław-Solny
Adam Tatarczuk
Aleksander Krótki
Tomasz Spietz
and Tadeusz Chwoła
Institute for Chemical Processing of Coal (IChPW), 1 Zamkowa Street, 41-803 Zabrze, Poland
awilk@ichpw.pl
Korean Journal of Chemical Engineering, August 2017, 34(8), 2275-2283(9), 10.1007/s11814-017-0118-x
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Abstract
Amine absorption processes are widely used to purify both refinery and process gases and natural gas. Recently, amine absorption has also been considered for application to CO2 removal from flue gases. It has a number of advantages, but there is one major disadvantage-high energy consumption. This can be solved by using an appropriate solvent. From a group of several dozen solutions, seven amine solvents based on primary amine, tertiary amine and sterically hindered amine were selected. For the selected solutions research was conducted on CO2 absorption capacity, an absorption rate and finally a solvent vapor pressure. Furthermore, tests on an absorber-desorber system were also performed. In this study the most appropriate solvent for capturing CO2 from flue gases with higher carbon dioxide concentrations was selected.
Keywords
References
Krotki A, Wieclaw-Solny L, Tatarczuk A, Stec M, Wilk A, Spiewak D, Spietz T, Arab. J. Sci. Eng., 41, 2 (2016)
Rackley S, Carbon Capture and Storage, Gulf Professional Publishing (2009).
Spash CL, Environ. Values, 16, 4 (2007)
Wieclaw-Solny L, Siazko M, Tatarczuk A, Krotki A, Wilk A, Polityka Energy, 14, 441 (2011)
Chowdhury S, Al-Zahrani M, Arab. J. Sci. Eng., 38, 8 (2013)
Feron P, Absorption-Based Post-Combustion Capture of Carbon Dioxide, Woodhead Publishing (2016).
Stec M, Tatarczuk A, Wieclaw-Solny L, Krotik A, Spietz T, Wilk A, Spiewak D, Clean Technol., 18, 1 (2016)
Gielen D, Energy Conv. Manag., 44, 7 (2003)
Flue Gas Analysis in Industry. Practical guide for Emission and Process Measurements, 2nd Ed., Testo Inc. (n.d.).
Bosoaga A, Masek O, Oakey JE, Energy Procedia, 1, 1 (2009)
Tran H, Lime kiln chemistry and effects on kiln operations, in: TAPPI Kraft Recovery Course, Red Hook, 114 (2007).
Eriksson M, Hokfors B, Backman R, Energy Sci. Eng., 2, 4 (2014)
Last GV, Schmick MT, Pacific Northwest National Laboratory, Oak Ridge (2011).
Warmuzinski K, Tanczyk M, Jaschik M, Janusz-Cygan A, Polityka Energy, 14, 2 (2011)
Skorek-Osikowska A, Kotowicz J, Janusz-Szymanska K, Energy Fuels, 26(11), 6509 (2012)
Spietz T, Wieclaw-Solny L, Tatarczuk A, Krotki A, Stec M, Chemik, 68, 10 (2014)
Wang M, Lawal A, Stephenson P, Sidders J, Ramshaw C, Chem. Eng. Res. Des., 89, 9 (2011)
Chmielniak T, Polityka Energy, 13, 2 (2010)
Kohl A, Nielsen R, Gas purification - 5th Ed., Gulf Publishing Company, Houston, U.S.A. (1997).
Lv B, Guo B, Zhou Z, Jing G, Environ. Sci. Technol., 49, 17 (2015)
Luis P, Desalination, 380, 93 (2016)
Li K, Cousins A, Yu H, Feron P, Tade M, Luo W, Chen J, Energy Sci. Eng., 4, 1 (2016)
Drage TC, Arenillas A, Smith KM, Pevida C, Piippo S, Snape CE, Fuel, 86, 1 (2007)
Gouedard C, Picq D, Launay F, Carrette PL, Int. J. Greenh. Gas Control, 10, 244 (2012)
Davis J, Rochelle G, Energy Procedia, 1, 1 (2009)
Fostas B, Gangstad A, Nenseter B, Pedersen S, Sjøvoll M, Sørensen AL, Energy Procedia, 4, 1566 (2011)
Fytianos G, Grimstvedt A, Knuutila H, Svendsen HF, Energy Procedia, 63, 1869 (2014)
Alvis RS, Hatcher NA, Weiland RH, Athens, Greece (2012).
The Contactor, 2, 4 (2008).
Iijima M, Nagayasu T, Kamijyo T, Nakatani S, Mitsubishi Heavy Ind. Tech. Rev., 48, 26 (2011)
Kamijo T, Kajiya Y, Endo T, Nagayasu H, Tanaka H, Hirata T, Yonekawa T, Tsujiuchi T, Energy Procedia, 37, 1793 (2013)
Mitchell R, Carbon Capture J., 1, 3 (2008)
Barzagli F, Lai S, Mani F, Energy Procedia, 63, 1795 (2014)
Yang J, Yu X, Yan J, Tu ST, Ind. Eng. Chem. Res., 53, 7 (2014)
Murai S, Kato Y, Maezawa Y, Muramatsu T, Saito S, Energy Procedia, 37, 417 (2013)
Chowdhury FA, Yamada H, Matsuzaki Y, Goto K, Higashii T, Onoda M, Energy Procedia, 63, 572 (2014)
Chowdhury FA, Okabe H, Shimizu S, Onoda M, Fujioka Y, Energy Procedia, 1, 1 (2009)
Chowdhury FA, Yamada H, Higashii T, Goto K, Onoda M, Ind. Eng. Chem. Res., 52, 24 (2013)
Cao L, Dong H, Zhang X, Zhang S, Zhao Z, Zeng S, Gao J, J. Chem. Technol. Biotechnol., 90, 10 (2015)
Wilk A, Wieclaw-Sonly L, Tatarczuk A, Spiewak D, Krotki A, Przem. Chem., 92, 1 (2013)
Krotki A, Spiewak D, Stec M, Wieclaw-Solny L, Wilk A, Przem. Chem., 93, 8 (2014)
Wieclaw-Solny L, Tatarczuk A, Krotki A, Wilk A, Spiewak D, Polityka Energy, 15, 4 (2012)
Kohl AL, Gas Purification, Fifth Edition, 5 Ed., Gulf Professional Publishing, Houston, Tex (1997).
Simmons HL, Levis RJ, Building Materials: Dangerous Properties of Products in MasterFormat Divisions 7 and 9, John Wiley & Sons (1997).
Lajnert R, Latkowska B, Przem. Chem., 92, 2 (2013)
Stec M, Tatarczuk A, Wieclaw-Solny L, Krotki A, Sciazko M, Tokarski S, Fuel, 151, 50 (2015)
Spiewak D, Krotki A, Spietz T, Stec M, Wieclaw-Solny L, Tatarczuk A, Wilk A, Chem. Process., 36, 1 (2015)
Knudsen JN, Jensen JN, Vilhelmsen PJ, Biede O, Energy Procedia, 1, 1 (2009)
Artanto Y, Jansen J, Pearson P, Do T, Cottrell A, Meuleman E, Feron P, Fuel, 101, 264 (2012)
Rackley S, Carbon Capture and Storage, Gulf Professional Publishing (2009).
Spash CL, Environ. Values, 16, 4 (2007)
Wieclaw-Solny L, Siazko M, Tatarczuk A, Krotki A, Wilk A, Polityka Energy, 14, 441 (2011)
Chowdhury S, Al-Zahrani M, Arab. J. Sci. Eng., 38, 8 (2013)
Feron P, Absorption-Based Post-Combustion Capture of Carbon Dioxide, Woodhead Publishing (2016).
Stec M, Tatarczuk A, Wieclaw-Solny L, Krotik A, Spietz T, Wilk A, Spiewak D, Clean Technol., 18, 1 (2016)
Gielen D, Energy Conv. Manag., 44, 7 (2003)
Flue Gas Analysis in Industry. Practical guide for Emission and Process Measurements, 2nd Ed., Testo Inc. (n.d.).
Bosoaga A, Masek O, Oakey JE, Energy Procedia, 1, 1 (2009)
Tran H, Lime kiln chemistry and effects on kiln operations, in: TAPPI Kraft Recovery Course, Red Hook, 114 (2007).
Eriksson M, Hokfors B, Backman R, Energy Sci. Eng., 2, 4 (2014)
Last GV, Schmick MT, Pacific Northwest National Laboratory, Oak Ridge (2011).
Warmuzinski K, Tanczyk M, Jaschik M, Janusz-Cygan A, Polityka Energy, 14, 2 (2011)
Skorek-Osikowska A, Kotowicz J, Janusz-Szymanska K, Energy Fuels, 26(11), 6509 (2012)
Spietz T, Wieclaw-Solny L, Tatarczuk A, Krotki A, Stec M, Chemik, 68, 10 (2014)
Wang M, Lawal A, Stephenson P, Sidders J, Ramshaw C, Chem. Eng. Res. Des., 89, 9 (2011)
Chmielniak T, Polityka Energy, 13, 2 (2010)
Kohl A, Nielsen R, Gas purification - 5th Ed., Gulf Publishing Company, Houston, U.S.A. (1997).
Lv B, Guo B, Zhou Z, Jing G, Environ. Sci. Technol., 49, 17 (2015)
Luis P, Desalination, 380, 93 (2016)
Li K, Cousins A, Yu H, Feron P, Tade M, Luo W, Chen J, Energy Sci. Eng., 4, 1 (2016)
Drage TC, Arenillas A, Smith KM, Pevida C, Piippo S, Snape CE, Fuel, 86, 1 (2007)
Gouedard C, Picq D, Launay F, Carrette PL, Int. J. Greenh. Gas Control, 10, 244 (2012)
Davis J, Rochelle G, Energy Procedia, 1, 1 (2009)
Fostas B, Gangstad A, Nenseter B, Pedersen S, Sjøvoll M, Sørensen AL, Energy Procedia, 4, 1566 (2011)
Fytianos G, Grimstvedt A, Knuutila H, Svendsen HF, Energy Procedia, 63, 1869 (2014)
Alvis RS, Hatcher NA, Weiland RH, Athens, Greece (2012).
The Contactor, 2, 4 (2008).
Iijima M, Nagayasu T, Kamijyo T, Nakatani S, Mitsubishi Heavy Ind. Tech. Rev., 48, 26 (2011)
Kamijo T, Kajiya Y, Endo T, Nagayasu H, Tanaka H, Hirata T, Yonekawa T, Tsujiuchi T, Energy Procedia, 37, 1793 (2013)
Mitchell R, Carbon Capture J., 1, 3 (2008)
Barzagli F, Lai S, Mani F, Energy Procedia, 63, 1795 (2014)
Yang J, Yu X, Yan J, Tu ST, Ind. Eng. Chem. Res., 53, 7 (2014)
Murai S, Kato Y, Maezawa Y, Muramatsu T, Saito S, Energy Procedia, 37, 417 (2013)
Chowdhury FA, Yamada H, Matsuzaki Y, Goto K, Higashii T, Onoda M, Energy Procedia, 63, 572 (2014)
Chowdhury FA, Okabe H, Shimizu S, Onoda M, Fujioka Y, Energy Procedia, 1, 1 (2009)
Chowdhury FA, Yamada H, Higashii T, Goto K, Onoda M, Ind. Eng. Chem. Res., 52, 24 (2013)
Cao L, Dong H, Zhang X, Zhang S, Zhao Z, Zeng S, Gao J, J. Chem. Technol. Biotechnol., 90, 10 (2015)
Wilk A, Wieclaw-Sonly L, Tatarczuk A, Spiewak D, Krotki A, Przem. Chem., 92, 1 (2013)
Krotki A, Spiewak D, Stec M, Wieclaw-Solny L, Wilk A, Przem. Chem., 93, 8 (2014)
Wieclaw-Solny L, Tatarczuk A, Krotki A, Wilk A, Spiewak D, Polityka Energy, 15, 4 (2012)
Kohl AL, Gas Purification, Fifth Edition, 5 Ed., Gulf Professional Publishing, Houston, Tex (1997).
Simmons HL, Levis RJ, Building Materials: Dangerous Properties of Products in MasterFormat Divisions 7 and 9, John Wiley & Sons (1997).
Lajnert R, Latkowska B, Przem. Chem., 92, 2 (2013)
Stec M, Tatarczuk A, Wieclaw-Solny L, Krotki A, Sciazko M, Tokarski S, Fuel, 151, 50 (2015)
Spiewak D, Krotki A, Spietz T, Stec M, Wieclaw-Solny L, Tatarczuk A, Wilk A, Chem. Process., 36, 1 (2015)
Knudsen JN, Jensen JN, Vilhelmsen PJ, Biede O, Energy Procedia, 1, 1 (2009)
Artanto Y, Jansen J, Pearson P, Do T, Cottrell A, Meuleman E, Feron P, Fuel, 101, 264 (2012)
