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Combined ethanol and methane production using steam pretreated sugarcane bagasse

Capecchi, Lorenzo; Galbe, Mats LU ; Barbanti, Lorenzo and Wallberg, Ola LU (2015) In Industrial Crops and Products 74. p.255-262
Abstract
Efficient energy production relies on complementary use of crop residues, to enhance the amount of energy obtained per unit biomass. In this frame, sugarcane bagasse (SB) was pretreated and the resulting slurry and liquid fraction served, respectively, for simultaneous saccharification and fermentation (SSF) at high solid concentration (15%), and anaerobic digestion (AD). More specifically, SB was subjected to twelve pretreatments to enhance fiber deconstruction and subsequent energy output: steam explosion alone (195 degrees C for 5,10 and 15 min), after impregnation with 0.4% and 0.7% Ca(OH)(2), and at 205 degrees C for the same three times after 0.7% Ca(OH)(2) addition. After pretreatment, enzymatic hydrolysis was carried out on washed... (More)
Efficient energy production relies on complementary use of crop residues, to enhance the amount of energy obtained per unit biomass. In this frame, sugarcane bagasse (SB) was pretreated and the resulting slurry and liquid fraction served, respectively, for simultaneous saccharification and fermentation (SSF) at high solid concentration (15%), and anaerobic digestion (AD). More specifically, SB was subjected to twelve pretreatments to enhance fiber deconstruction and subsequent energy output: steam explosion alone (195 degrees C for 5,10 and 15 min), after impregnation with 0.4% and 0.7% Ca(OH)(2), and at 205 degrees C for the same three times after 0.7% Ca(OH)(2) addition. After pretreatment, enzymatic hydrolysis was carried out on washed solid fraction; glucose and xylose were determined on this fraction as well as residual liquid fraction. On this latter, inhibitors (acetic and formic acid, furfural and 5-hydroxymethylfurfural) were also determined. Based on high glucose yield in enzymatic hydrolysis, three pretreatments were selected for SSF of the slurry. The same pretreatments underwent AD of the liquid fraction. Inhibitors augmented at increasing time and temperature, although never achieved critical levels. Lignin removal (range, 17-38%) was enhanced by lime addition, whereas increasing temperature and time did not contribute to delignification. Glucose yield in washed solid fraction varied accordingly. SSF exhibited the highest ethanol yield with mild lime addition (60% of theoretical) vs. steam alone (53%). However, modest yields were generally evidenced (average, 55%) as a result of high viscosity, especially in the case of high lime dose in SSF at high solid concentration. Combined energy yield (ethanol, methane and solid residue) proved lime effectiveness as catalyst in steam explosion of SB, beside two intrinsic advantages: low water consumption in SSF at high solid concentration, and the possibility of lime removal from downstream effluents through carbonation. (C) 2015 Elsevier B.V. All rights reserved. (Less)
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author
organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
Sugarcane bagasse, Lime, Simultaneous saccharification and fermentation, Ethanol, Methane, Bio-energy
in
Industrial Crops and Products
volume
74
pages
255 - 262
publisher
Elsevier
external identifiers
  • wos:000360948900034
  • scopus:84930201795
ISSN
0926-6690
DOI
10.1016/j.indcrop.2015.05.016
language
English
LU publication?
yes
id
e77d9c7e-7d34-4cfa-b417-24ba11fb1f3d (old id 8074278)
date added to LUP
2015-10-21 13:21:57
date last changed
2017-02-26 03:52:39
@article{e77d9c7e-7d34-4cfa-b417-24ba11fb1f3d,
  abstract     = {Efficient energy production relies on complementary use of crop residues, to enhance the amount of energy obtained per unit biomass. In this frame, sugarcane bagasse (SB) was pretreated and the resulting slurry and liquid fraction served, respectively, for simultaneous saccharification and fermentation (SSF) at high solid concentration (15%), and anaerobic digestion (AD). More specifically, SB was subjected to twelve pretreatments to enhance fiber deconstruction and subsequent energy output: steam explosion alone (195 degrees C for 5,10 and 15 min), after impregnation with 0.4% and 0.7% Ca(OH)(2), and at 205 degrees C for the same three times after 0.7% Ca(OH)(2) addition. After pretreatment, enzymatic hydrolysis was carried out on washed solid fraction; glucose and xylose were determined on this fraction as well as residual liquid fraction. On this latter, inhibitors (acetic and formic acid, furfural and 5-hydroxymethylfurfural) were also determined. Based on high glucose yield in enzymatic hydrolysis, three pretreatments were selected for SSF of the slurry. The same pretreatments underwent AD of the liquid fraction. Inhibitors augmented at increasing time and temperature, although never achieved critical levels. Lignin removal (range, 17-38%) was enhanced by lime addition, whereas increasing temperature and time did not contribute to delignification. Glucose yield in washed solid fraction varied accordingly. SSF exhibited the highest ethanol yield with mild lime addition (60% of theoretical) vs. steam alone (53%). However, modest yields were generally evidenced (average, 55%) as a result of high viscosity, especially in the case of high lime dose in SSF at high solid concentration. Combined energy yield (ethanol, methane and solid residue) proved lime effectiveness as catalyst in steam explosion of SB, beside two intrinsic advantages: low water consumption in SSF at high solid concentration, and the possibility of lime removal from downstream effluents through carbonation. (C) 2015 Elsevier B.V. All rights reserved.},
  author       = {Capecchi, Lorenzo and Galbe, Mats and Barbanti, Lorenzo and Wallberg, Ola},
  issn         = {0926-6690},
  keyword      = {Sugarcane bagasse,Lime,Simultaneous saccharification and fermentation,Ethanol,Methane,Bio-energy},
  language     = {eng},
  pages        = {255--262},
  publisher    = {Elsevier},
  series       = {Industrial Crops and Products},
  title        = {Combined ethanol and methane production using steam pretreated sugarcane bagasse},
  url          = {http://dx.doi.org/10.1016/j.indcrop.2015.05.016},
  volume       = {74},
  year         = {2015},
}