화학공학소재연구정보센터
로그인 로그아웃 연락처 사이트맵
Journal of Industrial and Engineering Chemistry, Vol.18, No.6, 2115-2123, November, 2012
DOI10.1016/j.jiec.2012.06.005  Export Citation
Modification of cellulose acetate membrane using monosodium glutamate additives prepared by microwave heating
Chan Mieow Kee, and Ani Idris
  • Department of Bioprocess Engineering, Faculty of Chemical Engineering, Universiti Teknologi Malaysia, 81300 UTM, Skudai, Johor, Malaysia
E-mail:
Cellulose acetate polymeric solutions with different concentrations of monosodium glutamate in formic acid were prepared using both traditional and microwave heating methods. The membrane separation performance and its physical properties were evaluated. Results indicated that the membrane consisting of 6 wt% additive prepared using microwave heating exhibited better solute permeability. Microwave heating was also found to enhance the thermal stability and the surface roughness of the membrane. The use of microwave for membrane fabrication not only saves time and cost, but also produces membranes with good properties. This paper therefore discusses the plausibility of manufacturing membranes using microwave heating techniques.
Keywords:Cellulose acetate;Formic acid;Monosodium glutamate;Microwave;Membrane
  1. Jang JS, Lee DK, Polymer, 45(5), 1599 (2004)
  2. Heo GY, Park SJ, Carbohydrate Polymers., 88, 562 (2012)
  3. Song J, Oh H, Kong H, Jang J, J. Hazard. Mater., 187(1-3), 311 (2011)
  4. Idris A, Ahmed I, Misran M, Desalination, 249(2), 541 (2009)
  5. Cengel YA, Boles MA, Thermodynamics an Engineering Approach, seventh ed., McGraw Hill, New York (2011)
  6. Thostenson ET, Chou TW, Composites Part A: Applied Science and Manufacturing., 30, 1055 (1999)
  7. Appleton TJ, Colder RI, Kingman SW, Lowndes IS, Read AG, Appl. Energy, 81(1), 85 (2005)
  8. Malaisamy R, Mahendran R, Mohan D, Rajendran M, Mohan V, J. Appl. Polym. Sci., 86(7), 1749 (2002)
  9. Dogan H, Hilmioglu ND, Carbohydrate Polymers., 75, 90 (2009)
  10. Satge C, Verneuil B, Branland P, Granet R, Krausz P, Rozier J, Petit C, Carbohydrate Polymers., 49, 373 (2002)
  11. Idris A, Yet LK, J. Membr. Sci., 280(1-2), 920 (2006)
  12. An JC, J. Ind. Eng. Chem., 15(2), 148 (2009)
  13. Chang YW, Shin G, J. Ind. Eng. Chem., 17(4), 730 (2011)
  14. Shukla TP, Anantheswaran RC, in: Datta AK, Anantheswaran RC (Eds.), Handbook of Microwave Technology for Food Applications, Marcel Dekker, Inc., New York, 355 (2001)
  15. Lyng JG, Zhang L, Brunton NP, Meat Science., 69, 589 (2005)
  16. Kee CM, Idris A, Sep. Purif. Technol., 75(2), 102 (2010)
  17. Ahmed I, High performance ultrafiltration membrane using novel technique, Ph. D. Thesis, Universiti Teknologi Malaysia, Malaysia (2008)
  18. Marsh WH, Fingerhut B, Miller H, Clinical Chemistry., 11, 624 (1965)
  19. Heinegard D, Tiderstrom G, Clinica Chimica Acta., 43, 305 (1973)
  20. Gornall AG, Bardawill CJ, David MM, Journal of Biological Chemistry., 177, 751 (1949)
  21. Seita Y, Mochizuki A, Nakagawa M, Takanashi K, Yamashita S, J. Appl. Polym. Sci., 65(9), 1703 (1997)
  22. Morti SM, Zydney AL, American Society for Artificial Internal Organs Journal., 44, 319 (1998)
  23. Michaels AS, Transactions - American Society for Artificial Internal Organs., 12, 387 (1966)
  24. Abe Y, Mochizuki A, J. Appl. Polym. Sci., 89(2), 333 (2003)
  25. Broido A, Journal of Polymer Science., 7, 1761 (1969)
  26. Ye L, Fan Z, Zhou J, Membrane Science and Technology., 24 (1981)
  27. Bakir MF, Production of flat sheet dialysis membrane and its performance in formic acid solvent, Bachelor Thesis, University Teknologi Malaysia, Malaysia (2006)
  28. Harper CA, Petrie EM, Plastic Materials, Processes . A Concise Encyclopedia, first ed., John Wiley and Sons Inc., New Jersey (2003)
  29. Horikoshi S, Abe M, Serpone N, Appl. Catal. B: Environ., 89(1-2), 284 (2009)
  30. Idris A, Ahmed I, J. Appl. Polym. Sci., 108(1), 302 (2008)
  31. Morti S, Shao HH, Zydney AL, J. Membr. Sci., 224(1-2), 39 (2003)
  32. Kesting RE, Synthetic Polymeric Membranes . A Structural Perspective, second ed., Wiley Interscience, Canada (1985)
  33. Zhao YH, Zhu BK, Ma XT, Xu YY, J. Membr. Sci., 290(1-2), 222 (2007)
  34. Scott K, Handbook of Industrial Membranes, second ed., Elsevier Science and Technology Books, UK (1999)
  35. Valente AJM, Polishchuk AY, Burrows HD, Lobo VMM, European Polymer Journal., 41, 275 (2005)
  36. Socrates G, Infrared and Raman Characteristic Group Frequencies . Tables and Charts, third ed., John Wiley & Sons Ltd., England (2001)
  37. Farrow G, Polymers., 4, 191 (1963)
  38. Singh L, Ludovice PJ, Henderson CL, Thin Solid Films, 449(1-2), 231 (2004)
  39. Shieh JJ, Chung TS, J. Membr. Sci., 140(1), 67 (1998)
  40. Fritzsche AK, Cruse CA, Kesting RE, Murphy MK, Journal of Applied Polymer Science., 39, 1949 (1990)
  41. Chatterjee PK, Journal of Polymer Science., 6, 3217 (1968)
  42. Calahorra ME, Cortazar M, Eguizzabal JI, Guzman GM, Journal of Applied Polymer Science., 37, 3305 (1989)
  43. Zulkifli AFM, Zakaria S, Badri K, Solid State Science and Technology., 18, 53 (2010)