Korean Journal of Chemical Engineering, Vol.34, No.10, 2559-2569, 2017
Separation of oil from oily wastewater using low cost ceramic membrane
Safe disposal of oily wastewater is a global issue across the industrial world. Stable oil-in-water emulsion has been separated by dead end filtration using low cost ceramic membrane. The efficiency of separation at different oilwater emulsion concentrations was evaluated at different trans-membrane pressures. Maximum rejection of oil 95.4% was observed for membrane sintered at 850 °C for oil concentration of 250mg/L at 137.89 kPa. The permeate oil concentration was within the permissible range of environmental tolerance (<12mg/L). The flux decline data was compared with various pore blocking models and it was appraised that cake filtration model best represents the fouling mechanism within the experimental range of pressure and oil-in-water concentration. Solvent permeation studies revealed that nonpolar solvents were more permeable than the polar solvents. The selection parameter of 14.78×10-6m3/ m2·s indicates a good combination of flux permeation, declination and rejection for the membrane sintered at 900 °C.
[References]
Ezzati A, Gorouhi E, Mohammadi T, Desalination , 185 (1-3), 371, 2005
Arnot TC, Field RW, Koltuniewicz AB, J. Membr. Sci. , 169 (1), 1, 2000
Cumming IW, Holdich RG, Smith ID, J. Membr. Sci. , 169 (1), 147, 2000
Mohammadi T, Pak A, Karbassian M, Golshan M, Desalination , 168 , 201, 2004
Hua FL, Tsang YF, Wang YJ, Chan SY, Chua H, Sin SN, Chem. Eng. J. , 128 (2-3), 169, 2007
Nandi BK, Uppaluri R, Purkait MK, Sep. Sci. Technol. , 44 (12), 2840, 2009
Chakrabarty B, Ghoshal AK, Purkait MK, J. Membr. Sci. , 325 (1), 427, 2008
Mallada R, Menendez M, Inorganic Membranes: Synthesis, Characterization and Applications, Elsevier Science, Amsterdam, the Netherlands (2008).
Stack LJ, Carney PA, Malone HB, Wessels TK, Ultrason. Sonochem. , 12 , 153, 2005
Canizares P, Martinez F, Jimenez C, Saez C, Rodrigo MA, J. Hazard. Mater. , 151 (1), 44, 2008
Bensadok K, Belkacem M, Nezzal G, Desalination , 206 (1-3), 440, 2007
Hua FL, Tsang YF, Wang YJ, Chan SY, Chua H, Sin SN, Chem. Eng. J. , 128 (2-3), 169, 2007
Zhou JE, Chang QB, Wang YQ, Wang JM, Meng GY, Sep. Purif. Technol. , 75 (3), 243, 2010
Chen WJ, Peng JM, Su YL, Zheng LL, Wang LJ, Jiang ZY, Sep. Purif. Technol. , 66 (3), 591, 2009
Ziaka Z, Vasileiadis S, Membrane Reactors for Fuel Cells and Environmental Energy Systems, Indianapolis, Xlibris Publishing Co., U.S.A. (2009).
Vasileiadis S, Ziaka Z, Dova M, Int. J. Eng. Technol. , 2 , 630, 2012
Ziaka Z, Vasileiadis S, J. Renew. Energy , 2013 , 1, 2013
Vasileiadis S, Ziaka Z, Tsimpa M, Vasileiadou E, Global J. Inc. , 12 , 19, 2012
Ziaka Z, Vasileiadis S, Sep. Sci. Technol. , 46 (2), 224, 2011
Vasileiadis S, Ziaka Z, Tsimpa M, Int. Trans. J. Eng. Manage. Appl. Sci. Technol. , 2 , 129, 2011
Ziaka Z, Navrozidou A, Paraschopoulou L, Vasileiadis S, J. Nanosci. Nanotechnol. , 10 , 1, 2010
Vasileiadis S, Ziaka Z, J. Nano Res. , 12 , 105, 2010
Bae D, Cheong D, Han K, Choi S, Ceram. Int. , 24 , 25, 1998
Benito JM, Conesa A, Rubio F, Rodriguez MA, J. European Ceram. Soc. , 25 , 1895, 2005
Pugazhenthi G, Sachan S, Kishore N, Kumar A, J. Membr. Sci. , 254 (1-2), 229, 2005
Ding XB, Fan YQ, Xu NP, J. Membr. Sci. , 270 (1-2), 179, 2006
Falamaki C, Afarani MS, Aghaie A, J. European Ceram. Soc. , 24 , 2285, 2004
DeFriend KA, Wiesner MR, Barron AR, J. Membr. Sci. , 224 (1-2), 11, 2003
Zeng W, Goa L, Gui L, Guo J, Ceram. Int. , 25 , 723, 1999
Saffaj N, Persin M, Younssi SA, Albizane A, Bouhria M, Loukili H, Dach H, Larbot A, Sep. Purif. Technol. , 47 (1-2), 36, 2005
Saffaj N, Persin M, Younsi SA, Albizane A, Cretin M, Larbot A, Appl. Clay Sci. , 31 , 110, 2006
Khemakhem S, Larbot A, Amar RB, Desalination , 200 (1-3), 307, 2006
Weir MR, Rutinduka E, Detellier C, Feng CY, Wang Q, Matsuura T, Le Van Mao R, J. Membr. Sci. , 182 (1-2), 41, 2001
Khider K, Akretche DE, Larbot A, Desalination , 167 (1-3), 147, 2004
Bouzerara F, Harabi A, Achour S, Larbot A, J. European Ceram. Soc. , 26 , 1663, 2006
Kazemimoghadam M, Pak A, Mohammadi T, Microporous Mesoporous Mater. , 70 , 127, 2004
Belouatek A, Benderdouche N, Addou A, Ouagued A, Bettahar N, Microporous Mesoporous Mater. , 85 , 163, 2005
Das B, Chakrabarty B, Barkakati P, Ceram. Int. , 42 , 14326, 2016
Zhong J, Sun XJ, Wang CL, Sep. Purif. Technol. , 32 (1-3), 93, 2003
Ebrahimi A, Ashaghi KS, Engel L, Willershausen D, Mund P, Bolduan P, Czermak P, Desalination , 245 (1-3), 533, 2009
Lobo A, Cambiella A, Benito JM, Pazos C, Coca J, J. Membr. Sci. , 278 (1-2), 328, 2006
Cui JY, Zhang XF, Liu HO, Liu SQ, Yeung KL, J. Membr. Sci. , 325 (1), 420, 2008
Yang C, Zhang GS, Xu NP, Shi J, J. Membr. Sci. , 142 (2), 235, 1998
Abadi SRH, Sebzari MR, Hemati M, Rekabdar F, Mohammadi T, Desalination , 265 (1-3), 222, 2011
Vasanth D, Pugazhenthi G, Uppaluri R, J. Membr. Sci. , 379 (1-2), 154, 2011
Monash P, Pugazhenthi G, Desalination , 279 (1-3), 104, 2011
Nandi BK, Moparthi A, Uppaluri R, Purkait MK, Chem. Eng. Res. Des. , 88 (7A), 881, 2010
Hermia J, Trans. Inst. Chem. Eng. , 60 , 183, 1982
Pan YQ, Wang W, Wang TH, Yao PJ, Sep. Purif. Technol. , 57 (2), 388, 2007
Chakrabarty B, Ghoshal AK, Purkait MK, J. Membr. Sci. , 309 (1-2), 209, 2008
Bhanushali D, Kloos S, Kurth C, Bhattacharyya D, J. Membr. Sci. , 189 (1), 1, 2001
Salahi A, Gheshlaghi A, Mohammadi T, Madaeni SS, Desalination , 262 (1-3), 235, 2010
Vasanth D, Pugazhenthi G, Uppaluri R, Desalination , 320 , 86, 2013
[Cited By]
Rawat M, Bulasara VK, Korean Journal of Chemical Engineering , 35 (3), 725, 2018
Raji YO, Othman MHD, Othman NAHSM, Adam MR, Tai ZS, Usman J, Ismail AF, Korean Journal of Chemical Engineering , 37 (10), 1631, 2020
Yin X, He Y, Wang Y, Yu H, Chen J, Gao Y, Korean Journal of Chemical Engineering , 37 (10), 1751, 2020
Sun Y, Zhao R, Wang Q, Zheng Y, Li G, Sun D, Wu T, Li Y, Korean Journal of Chemical Engineering , 37 (11), 2054, 2020
이전 논문 다음 논문
Result Search