Tandem-ring mill pulverization benefits for enzymatic saccharification of biomass

Renewable Energy

Volumn 65, Issue , 2014, Pages 146-151

  Takahashi, Takehiko ^a   Ito, Kazushi ^a   Ito, Arata ^b   Enda, Yukio ^c   Gochi, Motohiro ^b   Mori, Hideaki ^a   Kobayashi, Junichi ^a  

^a AKITA PREFECTURAL UNIVERSITY   (Japan)

^b Chuo Kakouki Shoji Co Ltd   (Japan)

^c Akita Prefectural R&D Center Industrial Technology Center   (Japan)

Author keywords

Bio ethanol; Biomass energy; Lignocellulosic biomass pretreatment; Pulverization

Indexed keywords

BIO-ETHANOL PRODUCTION; BIO-ETHANOLS; BIO-MASS ENERGY; ENZYMATIC SACCHARIFICATION; LIGNOCELLULOSIC BIOMASS; LIGNOCELLULOSIC BIOMASS PRETREATMENT; MEAN PARTICLE DIAMETER; PULVERIZATION;

BALL MILLS; BIOETHANOL; CELLULOSIC ETHANOL; COMMINUTION; CRYSTALLINE MATERIALS; FORESTRY; MILLING (MACHINING); PARTICLE SIZE; SACCHARIFICATION;

BIOMASS;

BIOFUEL; BIOMASS; CELLULOSE; CRYSTALLINITY; ENZYME ACTIVITY; ETHANOL; GRASS; LIGNIN; PARTICULATE MATTER; REEDBED; TREE; VIBRATION;

CRYPTOMERIA JAPONICA; EUCALYPTUS;

EID: 84892700076     PISSN: 09601481     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.renene.2013.07.046     Document Type: Article

References (11)

1. Zhang B., Shahbazi A., Wang L., Diallo O., Whitmore A. Hot-water pretreatment of cattails for extraction of cellulose. Journal of Industrial Microbiology and Biotechnology 30, August 2010, Published online:.
2. Chang V.S., Kaar W.E., Burr B., Holtzapple M.T. Simultaneous saccharification and fermentation of lime-treated biomass. Biotechnology Letters 2001, 23:1327-1333.
3. Georgieva T.I., Hou X., Hilstrom T., Ahring B.K. Enzymatic hydrolysis and ethanol fermentation of high dry matter wet-exploded wheat straw at low enzyme loading. Appl Biochem Biotechnol 2008, 148:35-44.
4. McMillan J.D., Newman M.M., Templeton D.W., Mohagheghi A. Simultaneous saccharification and cofermentation of dilute-acid pretreated yellow poplar hardwood to ethanol using xylose-fermenting Zymomonas mobilis. Applied Biochemistry and Biotechnology 1999, 77-79:649-665.
5. Kim J., Kim H., Lee J., Lee J., Park S. Pretreatment characteristics of Waste Oak wood by ammonia percolation. Applied Biochemistry and Biotechnology 2008, 148:15-22.
6. Ito A., Hioki S., Kuwabara M., Takahashi T., Sakamoto H., Enda Y. A study on milling pretreatment for ethyl alcohol production from cellulosic woody biomass. Journal of MMIJ 2007, 123:413-418.
7. Takahashi T., Ito A., Enda Y., Ito K., Kobayashi J. Research and development of the vibration mill using cog-disk mediums for lignocellulosic biomass pulverization. Transactions of the Japan Society of Mechanical Engineers, Series B 2010, 76-770:1654-1660.
8. Takahashi T., Ito A., Enda Y., Ito K., Kobayashi J. Research and development of the vibration mill using cog-ring mediums for improvement in efficiency of lignocellulosic biomass pulverization. Transactions of the Japan Society of Mechanical Engineers, Ser B 2012, 78-788:905-916.
9. Segal L., Creely J.J., Martin A.E., Conrad C.M. An empirical method for estimating the degree of crystallinity of native cellulose using the X-ray diffractometer. Textile Research Journal 1959, 29(10):786-794.
10. Kobayashi N., Ushikoshi J., Inano M., Takaoka K., Itaya Y. The study of pulverized wood characteristics and its enzymatic saccharification. Journal of the Japan Institute of Energy 2010, 89:975-981.
11. Endo T. Bioethanol production from woods with the aid of nanotechnology. Synthesiology 2009, 2(4):310-320.