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Received July 1, 2003
Accepted October 20, 2003
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Effects of Charge Density on Water Splitting at Cation-Exchange Membrane Surface in the Over-Limiting Current Region
Department of Environmental Science and Engineering, Kwangju Institute of Science & Technology (K-JIST), 1 Oryong-dong, Buk-gu, Gwangju 500-712, Korea
shmoon@kjist.ac.kr
Korean Journal of Chemical Engineering, January 2004, 21(1), 221-229(9), 10.1007/BF02705402
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Abstract
To determine the correlation between surface properties and concentration polarization (CP) behaviors, cation exchange membranes with varying fixed charge densities were prepared and characterized by using several electrochemical analyses such as chronopotentiometry, zeta potential, and current-voltage measurements. Results showed that CP behavior depended mainly on surface charge density. With higher surface charge density, stronger electroconvection was observed, suggesting that an increase in the surface charge density increased the concentration_x000D_
of the counter ions at the membrane surface. As such, the electric field around the membrane surface was strengthened at a current over the limiting current density. Water splitting was also proportional to the surface charge density. This result was consistent with the classical electric field-enhanced water splitting theory, indicating that water splitting increased due to increases in the electric field and prepolarization of water molecules at the membrane-solution interface_x000D_
of the cation-exchange membrane.
Keywords
References
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Kang MS, Choi YJ, Choi IJ, Yoon TH, Moon SH, J. Membr. Sci., 216(1-2), 39 (2003)
Kang MS, Choi YJ, Moon SH, J. Membr. Sci., 207(2), 157 (2002)
Kang MS, Tanioka A, Moon SH, Korean J. Chem. Eng., 19(1), 99 (2002)
Kemperman AJB, "Handbook on Bipolar Membrane Technology," Twente University Press, Enschede (2000)
Kim YH, Moon SH, J. Chem. Technol. Biotechnol., 176, 1 (2001)
Krol JJ, Wessling M, Strathmann H, J. Membr. Sci., 162(1-2), 155 (1999)
Lee HJ, Park JS, Moon SH, Korean J. Chem. Eng., 19(5), 880 (2002)
Mecham J, Shobha HK, Wang F, Harrison W, McGrath JE, Polym. Prepr., 41(2), 1388 (2000)
Melnik L, Vysotskaja O, Kornilovich B, Desalination, 124(1-3), 125 (1999)
Minagawa M, Tanioka A, Ramirez P, Mafe S, J. Colloid Interface Sci., 188(1), 176 (1997)
Montiel V, Garcia-Garcia V, Gonzalez-Garcia J, Carmona F, Aldaz A, J. Membr. Sci., 140(2), 243 (1998)
Onsager L, J. Chem. Phys., 2, 599 (1934)
Paleologou M, Wong PY, Thompson R, Berry RM, J. Pulp Paper Sci., 22(1), J1 (1996)
Patel RD, Lang KC, Ind. Eng. Chem. Fundam., 16(3), 340 (1977)
Ramirez P, Rapp HJ, Reichle S, Strathmann H, Mafe S, J. Appl. Phys., 72(1), 259 (1992)
Rubinstein I, Maletzki F, J. Chem. Soc.-Faraday Trans., 87(13), 2079 (1991)
Rubinstein I, Phys. Fluids, 3, 2301 (1991)
Rubinstein I, Staude E, Kedem O, Desalination, 69, 101 (1988)
Rubinstein I, Zaltzman B, Kedem O, J. Membr. Sci., 125(1), 17 (1997)
Sato K, Sakairi T, Yonemoto T, Tadaki T, J. Membr. Sci., 100(3), 209 (1995)
Shaposhnik VA, Kesore K, J. Membr. Sci., 136(1-2), 35 (1997)
Shi S, Chen PQ, Desalination, 46, 191 (1983)
Shim Y, Lee HJ, Lee S, Moon SH, Cho J, Environ. Sci. Technol., 36, 3864 (2002)
Simons R, Electrochim. Acta, 29, 151 (1984)
Simons R, Nature, 280, 824 (1979)
Strathmann H, Krol JJ, Rapp HJ, Eigenberger G, J. Membr. Sci., 125(1), 123 (1997)
Wang F, Hickner M, Kim YS, Zawodzinski TA, McGrath JE, J. Membr. Sci., 197(1-2), 231 (2002)
