화학공학소재연구정보센터
로그인 로그아웃 연락처 사이트맵
Korean Journal of Chemical Engineering, Vol.25, No.4, 812-815, July, 2008
DOI10.1007/s11814-008-0134-y  Export Citation
Production of bacterial cellulose by a static cultivation using the waste from beer culture broth
Jung Hwan Ha, Omer Shehzad, Salman Khan, Seung Yong Lee1, Joon Won Park1, Taous Khan, and Joong Kon Park
  • Department of Chemical Engineering, Kyungpook National University, Daegu 702-701, Korea
  • 1BIPL Co., Ltd, #507 Daeryung Techno Tower, 569-21 Gasan dong, Geumchun gu, Seoul 153-771, Korea
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Bacterial cellulose (BC) was produced by using the waste from beer culture fermentation instead of a chemically defined medium. Static cultivation was superior to the shaking cultivation on the basis of the BC production. The amount of BC produced during 120 hrs of cultivation using the waste from beer fermentation broth (WBFB) by a static cultivation was 4.52 g/L on the dry weight basis and much higher than 0.45 g/L produced from a Buffered Schramm and Hestrin (BSH) chemically-defined medium. The addition of 1% industrial-grade glucose to WBCB increased the production of bacterial cellulose from 8.46 to 13.95 g/L after 336 hrs of cultivation. Water soluble oligosaccharide (WSOS), the by-product obtained during BC cultivation increased to 5.05 g/L at 192 hrs of cultivation and then decreased to 2.18 g/L at 336 hrs.
Keywords:Bacterial Cellulose;Gluconacetobacter hansenii PJK;Waste from Beer Fermentation Broth;Static Cultivation;Water Soluble Oligosaccharide
  1. Delmer DP, Amor Y, Plant Cell, 7, 987 (1995)
  2. Yamanaka S, Watanabe K, Kitamura N, Iguchi M, Mitsuhashi S, Nishi Y, Uryu M, J. Mat. Sci., 24, 3141 (1989)
  3. Cannon RE, Anderson SM, Crit. Rev. Microbiol., 17, 435 (1991)
  4. Embuscado ME, Marks JS, BeMiler JN, Food Hydrocolloids, 8, 419 (1994)
  5. Klemm D, Schumann D, Udhard U, Marsch S, Prog. Polym. Sci, 26, 1561 (2001)
  6. Khan T, Park JK, Kwon JH, Korean J. Chem. Eng., 24(5), 816 (2007)
  7. Fontana JD, Souza AM, Fontana CK, Torriani IL, Moreschi JC, Gallotti BJ, Souza SJ, Narcisco GP, Bichara JA, Farah LFX, Biochem. Biotechnol., 24/25, 253 (1990)
  8. Vandamme EJ, Baets S, Vanbaelen A, Joris K, Wulf P, Polym. Degrad. Stabil., 59, 93 (1998)
  9. Schramm M, Hestrin S, J. Gen. Microbiol., 11, 123 (1954)
  10. Park JK, Park YH, Jung JY, Biotechnol. Bioprocess Eng., 8, 83 (2003)
  11. Park JK, Jung JY, Park YH, Biotechnol. Lett., 25, 2055 (2003)
  12. Jung JY, Park JK, Chang HN, Enzyme Microb. Technol., 37(3), 347 (2005)
  13. Jung JY, Khan T, Park JK, Chang HN, Korean J. Chem. Eng., 24(2), 265 (2007)
  14. Park JK, Hyun SH, Ahn WS, Korean J. Chem. Eng., 44, 52 (2006)
  15. Khan T, Park JK, Carbohydr. Polym., In Press (2007)
  16. Khan T, Hyun SH, Park JK, Enzyme Microb. Technol., 42(1), 89 (2007)
  17. Lan JCW, Ling TC, Hamilton G, Lyddiat A, Biotechnol. Bioprocess Eng., 11, 425 (2006)
  18. Wu JC, Low HR, Leng Y, Chow Y, Li R, Talukder M, Choi WJ, Biotechnol. Bioprocess Eng., 11, 211 (2006)
  19. Byun HG, Eom TK, Jung WK, Kim SK, Biotechnol. Bioprocess Eng., 12, 484 (2007)
  20. Hong SJ, Lee CG, Biotechnol. Bioprocess Eng., 12, 165 (2007)
  21. Stephenie W, Kabeir BM, Shuhaimi M, Rosfarizan M, Yazid, AM, Biotechnol. Bioprocess Eng., 12, 475 (2007)
  22. Shin KO, Jeon JR, Lee JS, Kim JY, Lee CH, Kim SD, Yu YS, Nam DH, Biotechnol. Bioprocess Eng., 11, 240 (2006)
  23. Valla S, Kjosbakken J, J. General Microb., 128, 1401 (1981)
  24. Moon SH, Park JM, Chun HY, Kim SJ, Biotechnol. Bioprocess Eng., 11, 26 (2006)