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Received August 25, 2014
Accepted October 20, 2014
- 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 unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
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Phase behavior for the poly(2-methoxyethyl acrylate)+supercritical solvent+cosolvent mixture and CO2+2-methoxyethyl acrylate system at high pressure
Department of and Chemical and Biomolecular Engineering, Chonnam National University, Yeosu, Jeonnam 550-749, Korea
Korean Journal of Chemical Engineering, May 2015, 32(5), 958-966(9), 10.1007/s11814-014-0316-8
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Abstract
High pressures phase equilibrium data were presented for the CO2+2-MEA system at temperatures ranging from (313.2 to 393.2) K and pressures up to ca. 17.97MPa. The CO2+2-MEA system exhibited type-I phase behavior and was modeled using the Peng-Robinson equation of state. The phase behavior data were reported for poly(2-methoxyethyl acrylate) [P(2-MEA)] in supercritical CO2 and dimethyl ether (DME), as well as for the P(2-MEA)+2-methoxyethyl acrylate (2-MEA) (or DME) in CO2. The cloud-point data were measured for the P(2-MEA)+DME in supercritical CO2 at temperature range of (333-453) K and a pressure range of (8.79-199.14) MPa. The P(2-MEA) in supercritical CO2 was soluble to 453 K and pressure of 199MPa. The phase behavior for the P(2-MEA)+CO2+2-MEA mixture was measured in changes of the pressure-temperature (p, T) slope and with 2-MEA mass fraction of 0.0 wt%, 8.4 wt%, 17.1 wt%, 45.4 wt% and 65.0wt%. With 74.5 wt% 2-MEA to the P(2-MEA)+CO2 solution, the cloud-point_x000D_
curves took on the appearance of a typical lower critical solution temperature boundary, liquid+liquid transition and liquid+vapor transition. The location of the P(2-MEA)+CO2 cloud-point curve shifted to lower temperatures and pressures upon the addition of 2-MEA or DME.
Keywords
References
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Tsang CY, Streett WB, J. Chem. Eng. Data, 26, 155 (1981)
Wolf BA, Blaum GJ, J. Polym. Sci., Polym. Phys. Ed., 13, 1115 (1975)
Patterson D, Pure Appl. Chem., 31, 133 (1972)
Beckman EJ, J. Supercrit. Fluids, 28(2-3), 121 (2004)
Kikic I, Vecchione F, Curr. Opin. Solid State Mater. Sci., 7, 399 (2003)
Kazarian SG, Supercritical fluid technology for drug product development, chapter Supercritical Fluid Impregnation of Polymers for Drug Delivery, Marcel-Dekker, 343 (2004)
Reverchon E, Cardea S, J. Membr. Sci., 240(1-2), 187 (2004)
Shieh YT, Liu KH, J. Polym. Sci. B: Polym. Phys., 42(13), 2479 (2004)
Baldyga J, Henczka M, Shekunov BY, Drugs Pharm. Sci., 138, 91 (2004)
Mueller XM, Jegger D, Augstburger M, Horisberger J, von Segesser LK, Int. J. Artif. organs, 25, 223 (2002)
Tanaka M, Motomura K, Ishii N, Shimura K, Onishi M, Mochizuki A, Hatakeyama T, Polym. Int., 49, 1709 (2000)
Tanaka M, Mochizuki A, Shiroya T, Motomura K, Shimura M, Onishi M, Okahaba Y, Colloids Surf., A, 203, 195 (2002)
Tanaka M, Mochizuki A, Motomura K, Shimura M, Onishi M, Okahata Y, Colloids Surf., A, 193, 145 (2001)
Tanaka M, Bio-Med. Mater. Eng., 14, 427 (2004)
Tanaka M, Mochizuki A, J. Biomed. Mater. Res. A, 68, 684 (2003)
Tanaka M, Blood compatibility of poly(2-methoxyethyl acrylate): Design of a novel bio-interface, Ph. Dissertation D, Hokkaido University, Sapporo, Hokkaido (2003)
Wang B, He J, Sun DH, Zhang R, Han BX, Fluid Phase Equilib., 239(1), 63 (2006)
Byun HS, Choi TH, Korean J. Chem. Eng., 21(5), 1032 (2004)
Kim SH, Jang YS, Yoon SD, Byun HS, Fluid Phase Equilib., 312, 93 (2011)
Yoon SD, Kim CR, Byun HS, Fluid Phase Equilib., 365, 97 (2014)
Yoon SD, Byun HS, Korean J. Chem. Eng., 31(3), 522 (2014)
Cho SH, Yang DS, Byun HS, Fluid Phase Equilib., 351, 18 (2013)
Fornari RE, Alessi P, Kikic I, Fluid Phase Equilib., 57, 1 (1990)
Dohrn R, Brunner G, Fluid Phase Equilib., 106(1-2), 213 (1995)
Christov M, Dohrn R, Fluid Phase Equilib., 202(1), 153 (2002)
Dohrn R, Peper S, Fonseca JMS, Fluid Phase Equilib., 288(1-2), 1 (2010)
Fonseca JMS, Dohrn R, Peper S, Fluid Phase Equilib., 300(1-2), 1 (2011)
McHugh MA, Rindfleisch F, Kuntz PT, Schmaltz C, Buback M, Polymer, 39(24), 6049 (1998)
Rindfleisch F, DiNoia TP, McHugh MA, J. Phys. Chem., 100(38), 15581 (1996)
Jang YS, Byun HS, J. Chem. Eng. Data, 59(5), 1391 (2014)
Poling BE, Prausnitz JM, O’Connell JP, The Properties of Gases and Liquid, 5th Ed., McGraw-Hill, New York (2001)
Yang DS, Cho SH, Yoon SD, Jeong HH, Byun HS, J. Supercrit. Fluids, 79, 11 (2013)
Cho SH, Yoon SD, Byun HS, Korean J. Chem. Eng., 30(3), 739 (2013)
Yoon SD, Byun HS, J. Chem. Thermodyn., 71, 91 (2014)
Chirico RD, Frenkel M, Diky VV, Marsh KN, Wilhoit RC, J. Chem. Eng. Data, 48(5), 1344 (2003)
Scott RL, van Konynenburg PB, Discuss. Faraday Soc., 49, 87 (1970)
McHugh MA, Krukonis VJ, Supercritical fluid extraction: Principles and practice, Butterworth, Boston, MA (1994)
Peng DY, Robinson DB, Ind. Eng. Chem. Res. Fundam., 15, 59 (1976)
http://www.chemspider.com/chemical-structure.17368.html.
Albrecht KL, Stein FP, Han SJ, Gregg CJ, Radosz M, Fluid Phase Equilib., 117(1-2), 84 (1996)
Tsang CY, Streett WB, J. Chem. Eng. Data, 26, 155 (1981)
Wolf BA, Blaum GJ, J. Polym. Sci., Polym. Phys. Ed., 13, 1115 (1975)
Patterson D, Pure Appl. Chem., 31, 133 (1972)