World Academy of Science, Engineering and Technology
Published May 27, 2013 | Version 1411
Journal article Open

Optimization of Pretreatment and Enzymatic Saccharification of Cogon Grass Prior Ethanol Production

Creators

Description

The dilute acid pretreatment and enzymatic saccharification of lignocellulosic substrate, cogon grass (Imperata cylindrical, L.) was optimized prior ethanol fermentation using simultaneous saccharification and fermentation (SSF) method. The optimum pretreatment conditions, temperature, sulfuric acid concentration, and reaction time were evaluated by determining the maximum sugar yield at constant enzyme loading. Cogon grass, at 10% w/v substrate loading, has optimum pretreatment conditions of 126°C, 0.6% v/v H2SO4, and 20min reaction time. These pretreatment conditions were used to optimize enzymatic saccharification using different enzyme combinations. The maximum saccharification yield of 36.68mg/mL (71.29% reducing sugar) was obtained using 25FPU/g-cellulose cellulase complex combined with 1.1% w/w of cellobiase, ß-glucosidase, and 0.225% w/w of hemicellulase complex, after 96 hours of saccharification. Using the optimum pretreatment and saccharification conditions, SSF of treated substrates was done at 37°C for 120 hours using industrial yeast strain HBY3, Saccharomyces cerevisiae. The ethanol yield for cogon grass at 4% w/w loading was 9.11g/L with 5.74mg/mL total residual sugar.

Files

1411.pdf

Files (667.3 kB)

Name Size Download all
md5:5f0eb170cc937b5e0fb4d8afcba980d3
667.3 kB Preview Download

Additional details

References

  • A. Wingren, M. Galbe, and G. Zacchi, "Techno producing ethanol from softwood: comparison of SSF and SHF and identification of bottlenecks," pp. 1109-1117.
  • S. Kim, and B.E. Dale, "Global potential bioethanol production from wasted crops and crop residues," pp. 361-375.
  • Y. Sun, J.Y. Cheng, "Hydrolysis of lignocellulosic materials for ethanol production: a review," Bioresource Technology
  • R. M. Brook, "Review of literature on Raeuschel with particular reference to South East Asia," Management, vol. 35, 1989, pp. 12
  • S. K. McDonald, D. G. Shilling, C. A. N. Okoli, T. A. Bewick, D. Gordon, D. Hall, and R. Smith, "Population dynamics of cogongrass, Imperata cylindrical," Proceedings of the Southern Weed Society, vol. 49, 1996, p. 156.
  • N. Mosier, C. Wyman, B. Dale, R. Elander, Y. Y. Lee, M. Holtzapple and M. Ladisch, "Features of p lignocellulosic biomass," Bioresource Technology 673-686.
  • B. Zhnag, L. Wang, A. Shahbazi, O. Diallo and A. Whitmore, "Dilute sulphuric acid pretreatment of cattails for cellulose conversion," Bioresource Technology, vol. 19, 2011, pp. 9308
  • D. Schell, J. Farmer, M. Newman and J. McMillan, "Dilute sulfuric acid pretreatment of corn stover in pilot and Biotechnology, vol. 105, 2003, pp. 69 Techno-economic evaluation of Biotechnology Progress, vol. 19, 2003, obal Biomass and Bioenergy, vol. 26, 2004, Technology, vol. 83, 2002, pp. 1-11. Imperata cylindrica (L.) Tropical Pest , 12-25. on, Science promising technologies for pretreatment of Technology, vol. 96, 2005, pp. , 9308-9312. pilot-scale reactor," Applied Biochemistry , 69-85.