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Engineering Conferences InternationalECI Digital ArchivesBioEnergy IV: Innovations in Biomass Conversionfor Heat, Power, Fuels and Chemicals Proceedings
Spring 6-13-2013
Effect of particle size on enzymatic hydrolysis ofpretreated miscanthusVIjay SinghUniversity of Illinois at Urbana-Champaign
Esha KhullarUniversity of Illinois at Urbana-Champaign
Bruce DienUniversity of Illinois at Urbana-Champaign
Kent RauschUniversity of Illinois at Urbana-Champaign
M.E. TumblesonUniversity of Illinois at Urbana-Champaign
Follow this and additional works at: http://dc.engconfintl.org/bioenergy_iv
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This Conference Proceeding is brought to you for free and open access by the Proceedings at ECI Digital Archives. It has been accepted for inclusion inBioEnergy IV: Innovations in Biomass Conversion for Heat, Power, Fuels and Chemicals by an authorized administrator of ECI Digital Archives. Formore information, please contact [email protected].
Recommended CitationVIjay Singh, Esha Khullar, Bruce Dien, Kent Rausch, and M.E. Tumbleson, "Effect of particle size on enzymatic hydrolysis ofpretreated miscanthus" in "BioEnergy IV: Innovations in Biomass Conversion for Heat, Power, Fuels and Chemicals", Manuel Garcia-Perez,Washington State University, USA Dietrich Meier, Thünen Institute of Wood Research, Germany Raffaella Ocone, Heriot-WattUniversity, United Kingdom Paul de Wild, Biomass & Energy Efficiency, ECN, The Netherlands Eds, ECI Symposium Series, (2013).http://dc.engconfintl.org/bioenergy_iv/45
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Effect of Particle Size on Enzymatic Hydrolysis of Miscanthus
Esha Khullar, Bruce S. Dien, Kent D. Rausch, M. E. Tumbleson and
Vijay Singh
BioEnergy IV
Basilini Resort, Otranto, Italy
June 9-14, 2013
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Cellulosic Feedstocks for Fuel
Leading contender for ethanol production
Relative abundance
Low energy inputs
Ability to grow on marginal lands
Sustainable production
Uncertainties
Establishment: yields with low fertilizer application, marginal lands
Lack of technology
Biomass availability, seasonality of crop
1.3 billion tons of biomass available
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0 5 10 15 20 25 30 35 40
2012
2015
2022
Renewable Fuel
Standard (RFS2)
Production Targets (Billions of Gallons)
EISA defines Advanced Biofuel as “renewable fuel, other than ethanol derived from corn starch, that has lifecycle
greenhouse gas emissions…that are at least 50 percent less than baseline lifecycle greenhouse gas emissions.” This
includes biomass-based diesel, cellulosic biofuels, and other advanced fuels such as sugarcane-based ethanol.
Conventional (Starch) Biofuel
Biomass-based diesel
Cellulosic Biofuels
Other Advanced Biofuels
Advanced Biofuels(include cellulosic biofuels other than
starch-based ethanol)
EISA Mandated Biofuel Production Targets
15 BGY cap on conventional (starch) biofuel
EISA defines Cellulosic Biofuel as “renewable fuel derived from any cellulose, hemicellulose, or lignin that is derived
from renewable biomass and that has lifecycle greenhouse gas emissions…that are at least 60 percent less than baseline
lifecycle greenhouse gas emissions.” The EPA interprets this to include cellulosic-based diesel fuel.
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Different Integrated Biorefineries
• Corn
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Miscanthus x giganteus
Perennial grass
High yielding (20 to 25 dry
ton/hectare)
Less inputs
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Lignocellulose Structure
Cellulose (40 to 50%)
Hemicellulose (25 to 35%)
Lignin (15 to 20%)
Miscanthus
40% cellulose, 18% hemicellulose, 25% lignin
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Microfibril
36 glucan chains, DP
500 to 14000
Intra- and inter chain
hydrogen bonds
Macrofibiril
Ribbon like bundles
Hemicellulose coats
microfibrils,
hydrogen bonds with
cellulose
Lignin deposited in
final stages and enclose
microfibrils and
polysaccharides
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Biochemical Conversion
Feedstock
• Production
• Logistics
• Storage
• Handling
Pretreatment
• Physical
• Chemical
• Biological
Enzyme Hydrolysis
• Cellulase
• Hemi-cellulase
• Other
Fermentation
• Engineered microbes
• C5 and C6 sugars
Product Recovery
• Ethanol
• Residues
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Objective
Effect of particle size on enzymatic hydrolysis of
pretreated Miscanthus
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Experimental Design
Miscanthus
8 mm
Particle Size Reduction
3 different sizes
Pretreatment
Hot water, dilute acid or dilute
ammonium hydroxide
Enzyme Hydrolysis
Cellulases and accessory
enzymes
Sugars
Washed
solids
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Particle Size Reduction
Hammer mill
Sieve sizes: 0.08, 2.0 and 6.0 mm
Particle size distributions and geometric mean diameters
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Pretreatment
Tubular reactors in a fluidized sand bath
Reactor fitted with thermocouple for internal temperature
measurements
10% solids content (d.b.)
Conditions
Hot water: 200°C, 30 min
Dilute acid: 160°C, 10 min, 1% w/w sulfuric acid
Dilute ammonium hydroxide: 160°C, 5 min, 5%
Unpretreated
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Enzyme Hydrolysis
Enzymes
Accellerase 1500: exoglucanase, endoglucanase, hemicellulase and
beta-glucosidase
Accellerase BG: beta-glucosidase
Accellerase XY: hemicellulase
Accellerase XC: endoglucanase and xylanase
Conditions
10% solids content
50°C, 75 rpm
72 hr (samples at 3, 12, 24, 48 and 72 hr)
HPLC determination of sugars
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Data Analysis
Full factorial, completely randomized design
Particle size analyses, pretreatments and enzyme hydrolysis
conducted in triplicates
Glucan, xylan and total polysaccharide conversion (%)
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Results
0
10
20
30
40
50
0.01 0.02 0.04 0.09 0.22 0.34 0.51
0
10
20
30
40
50
0.09 0.22 0.34 0.51 0.73 1.43 3.00
Fre
qu
en
cy (
%)
0
10
20
30
40
50
0.09 0.22 0.34 0.51 0.73 1.43 3.00
Diameter (mm)
Sieve Size (mm) Geometric Mean Diameter
(μm)
0.08 56.00 ± 0.54 C
2.00 300.5 ± 4.10 B
6.00 695.3 ± 69.1 A
0.08 mm
2.0 mm
6.0 mm
Geometric Mean Diameters
Particle Size Distribution
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Glucan & Xylan Conversion (%)
0
20
40
60
80
100
6.00 2.00 0.08
Glu
can
Co
nv
ers
ion
(%
)
Sieve size (mm)
0
20
40
60
80
100
6.00 2.00 0.08
Xy
lan
Co
nv
ers
ion
(%
)
Sieve Size (mm)
HW
DA
DAH
Untreated
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Total Conversion (%)
0
20
40
60
80
100
6.00 2.00 0.08
To
tal
Co
nv
ers
ion
(%
)
Sieve Size (mm)
HW
DA
DAH
Untreated
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Conclusions
Decreased particle size increased total polysaccharide conversion
for
all pretreatments
unpretreated Miscanthus; 20 to 60% lower than chemical
pretreatments
Sample ground using 0.08 mm sieve screen was used for further
studies
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Objective
Optimization of hot water pretreatment for Miscanthus
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Hot Water Pretreatments
Water at 160 to 240°C
At high temperatures,
water acts as a weak acid
solubilizes hemicellulose as oligosaccharides
loosens lignin
Advantages
No chemicals; lessen need for expensive reactors, eliminated need
for recycling chemicals or catalysts
No neutralization
Minimizes monosaccharides from hydrolysis; minimizes inhibitor
production
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Hot Water Pretreatments
Have been applied to many substrates
Corn stover
Switchgrass
Yellow polar sawdust
Eucalyptus grandis
Corn fiber
Sugarcane bagasse
Wheat straw
Alfalfa fiber
Prarie cord grass
Not for Miscanthus x giganteus
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Experimental Design
Miscanthus
0.08 mmHot Water Pretreatment
Temperature
160, 180 or
200°C
Reaction Time
0, 10, 20 or
30 min
Enzyme Hydrolysis
Accellerase 1500, BG, XY and
XC
Sugars
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Glucan & Xylan Conversion (%)
0
20
40
60
80
100
160 180 200
Glu
can
(%
)
Temperature (°C)
0
20
40
60
80
100
160 180 200
Xy
lan
(%
)
Temperature (°C )
0
10
20
30
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Total Conversion (%)
0
20
40
60
80
100
160 180 200
To
tal
Co
nv
ers
ion
(%
)
Temperature (°C)
0
10
20
30
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Simultaneous Saccharification &
Fermentation (SSF)
Optimized pretreatment conditions used for SSF experiment
Miscanthus
0.08 mm
Hot Water Pretreatment
200°C, 10 min
SSF
Optiflow RC2 cellulase
Novo 188 cellobiase
Multifect pectinase
Saccharomyces cerevisiae D5A
Ethanol and
sugars
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SSF Results
Final concentrations at 72 hr
Ethanol: 2.04%w/v
Glucose: 0.050 %w/v
Xylose: 0.093 %w/v
Ethanol yield was 70%
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Conclusions
Optimized conditions were 200°C for 10 min
At optimal conditions, pretreated washed solids had 77% glucan,
12% xylan and 62% total conversion
SSF of pretreated solids resulted in 70% ethanol yield