KSBB Journal

  • 제31권1호
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  • Pages.73-78
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  • 2016
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  • 1225-7117(pISSN)
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  • 2288-8268(eISSN)
한국생물공학회 (The Korean Society for Biotechnology and Bioengineering)
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폐압축보드를 이용한 바이오에탄올 생산

Bioethanol Production by using Wasted MDF

  • 강양래 (일산실업(주) 칠서에탄올공장 부설기술연구소) ;
  • 황진식 (일산실업(주) 칠서에탄올공장 부설기술연구소) ;
  • 배기한 (일산실업(주) 칠서에탄올공장 부설기술연구소) ;
  • 조훈호 (일산실업(주) 칠서에탄올공장 부설기술연구소) ;
  • 이은정 (경남과학기술대학교 식물자원학과) ;
  • 조영손 (경남과학기술대학교 식물자원학과) ;
  • 남기두 (일산실업(주) 칠서에탄올공장 부설기술연구소)
  • Kang, Yang-Rae (Il San Institute, Chilseo Ethanol Factory, Il San Trading Co., Ltd.) ;
  • Hwang, Jin-Sik (Il San Institute, Chilseo Ethanol Factory, Il San Trading Co., Ltd.) ;
  • Bae, Ki-Han (Il San Institute, Chilseo Ethanol Factory, Il San Trading Co., Ltd.) ;
  • Cho, Hoon-Ho (Il San Institute, Chilseo Ethanol Factory, Il San Trading Co., Ltd.) ;
  • Lee, Eun-Jeong (Department of Plant Resources, Gyeongnam National University of Science & Technology) ;
  • Cho, Young-Son (Department of Plant Resources, Gyeongnam National University of Science & Technology) ;
  • Nam, Ki-Du (Il San Institute, Chilseo Ethanol Factory, Il San Trading Co., Ltd.)
  • 투고 : 2015.12.15
  • 심사 : 2016.03.15
  • 발행 : 2016.03.31
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초록

The aim of this study attempted to verify the possibility of bioethanol production using wasted medium density fiberboard (wMDF). In order to produce bioethanol from wood cellulosic materials must be carried out the process of pretreatment, saccharification, fermentation and distillation. First, the wMDF was pretreated using sodium chlorite and pretreated wMDF was prepared to 8% slurry and then slurry was saccharified with the commercial enzyme (Cellic CTec3). The fermentable sugar and pH of saccharified substrate were about 5.5% glucose and 4.4, respectively. Herein we compared the results of ethanol yield according to the nutrients added or without addition to increase ethanol yield. Ethanol fermentation was finished in about 24 hours, but it was delayed in experimental group without nutrients. Ethanol content and fermentation ratio of the final fermented mash prepared by utilizing jar fermenter was 25.40 g/L and 86.64%, respectively. At this time, the maximum ethanol productivity was confirmed as 1.78 g/Lh (ethanol content 21.38 g/L, 12 h), and the overall ethanol productivity was 1.05 g/Lh (ethanol content 25.27 g/L, 24 h). Using fermented liquid we could produced bioethanol 95.37% by continuous distillator packed with copper element in laboratory scale. These results show that wMDF has a potential valuable for bioethanol production.

키워드

참고문헌

  1. Lee, J. S. (2013) Status and prospects of cellulosic ethanol R&D. KIC News 16: 2.
  2. Jang, H. S., J. H. Chung, and G. S. Kwon (2008) Development of transportation bio-energy and its future. J. Microbiol. Biotechnol. 36: 1-5.
  3. Kim, N. H. and G. J. Kwon (2009) Trend on technology development of bioenergy from woody biomass. J. Forest Sci. 25: 131-138.
  4. Nam, K. D. (2013) The development of biomass for bioethanol production, fermentation, distillation technology and its utilization. BT News 20: 2.
  5. Park, Y. C., J. W. Kim, and J. S. Kim (2011) Pretreatment characteristics of ammonia soaking method for cellulosic biomass. Korean J. Chem. Eng. 49: 292-296. https://doi.org/10.9713/kcer.2011.49.3.292
  6. Seo, H. B., J. G. Han, W. S. Choi, O. K. Lee, S. M. Lee, S. H. Choi, H. Y. Lee, and K. H. Jung (2008) Bioethanol production from wood biomass hydrolysate with supercritical water treatment. Biotechnol. Bioprocess Eng. 23: 494-498.
  7. Kim, J. S. (2013) The characteristics of alkaline pretreatment methods of cellulosic biomass. Korean J. Chem. Eng. 51: 303-307. https://doi.org/10.9713/kcer.2013.51.3.303
  8. Kim, Y. R., A. N. Yu, B. W. Chung, M. H. Han, and G. W. Choi (2009) Lignin removal from barley straw by ethanosolv pretreatment. Biotechnol. Bioprocess Eng. 24: 527-532.
  9. Bae, J. G., S. Y. Hong, E. H. Choi, J. K. Ahan, D. R. Jeon, and O. Y. Yang (2012) Waste wood recycling scheme established advanced research institutions. p. 156. Ministry of Environment, Korea.
  10. Choi, G. W., H. J. Jeon, B. O. Lee, K. W. Kang, J. S. Jeong, and B. W. Chung (2011) Production of bioethanol by using beverage waste. Biotechnol. Bioprocess Eng. 26: 417-421.
  11. Kim, Y. J. and S. M. Jeong (2013) Bioethanol fermentation of cellulosic food wastes by pichia stipitis. Korea Society of Waste Management 30: 478-485. https://doi.org/10.9786/kswm.2013.30.5.478
  12. Lee, S. M., J. Y. Park, S. B. Park, B. D. Park, and H. H. Jung (2011) Industry status and trends of international standardization plate wood products. pp. 22-23. Korea Forest Research Institute, Korea.
  13. Wise, L. E., M. Murphy, and A. A. Addieco (1946) Isolation of holocellulose from wood. Paper Trade Journal 122: 35-43.
  14. Nam, K. D. (2004) Alcohol fermentation technology. Alcohol Industry 24: 30-48.
  15. Choi, G. W., H. W. Kang, Y. R. Kim, and B. W. Chung (2008) Comparison of ethanol fermentation by Saccharomyces cerevisiae CHY1077 and Zymmomonas mobilis CHZ2501 from starch feedstocks. Korean J. Chem. Eng. 46: 977-982.

피인용 문헌

  1. Fractionation of Waste MDF by Steam Refining vol.25, pp.9, 2020, https://doi.org/10.3390/molecules25092165
  2. Recycling of Waste MDF by Steam Refining: Evaluation of Fiber and Paper Strength Properties vol.12, pp.10, 2021, https://doi.org/10.1007/s12649-021-01391-4