INIS
design
100%
screening
100%
sugar cane
100%
bagasse
100%
thermodynamics
100%
hydrolysis
100%
enzymatic hydrolysis
100%
modeling
100%
salts
55%
partition
55%
polymers
44%
proteins
33%
solutes
33%
enzymes
33%
sugar
33%
phase diagrams
33%
conversion
22%
energy
22%
applications
22%
economics
22%
simulation
22%
processing
22%
implementation
22%
comparative evaluations
22%
ethanol
22%
errors
22%
industry
22%
data
22%
concentration
22%
sugars
22%
equipment
11%
inhibition
11%
adsorption
11%
screens
11%
supply
11%
curves
11%
reliability
11%
recovery
11%
residues
11%
randomness
11%
thermodynamic model
11%
glucose
11%
performance
11%
tools
11%
fibers
11%
interference
11%
Engineering
Aqueous Two Phase
100%
Process Design
100%
Phase System
100%
Forming
19%
Throughput
14%
Design
14%
Models
9%
Economic Feasibility
9%
Estimation
9%
Processing
9%
Bottom Phase
9%
Energy Engineering
9%
Bagasse Fiber
4%
Thermodynamic Framework
4%
Base Case
4%
Error
4%
Limitations
4%
Experimental Result
4%
Thermodynamic Model
4%
Sugar Concentration
4%
Inhibition
4%
Statistical Difference
4%
Quantification
4%
Lignocellulosics
4%
Flory-Huggins Theory
4%
Protein Concentration
4%
Development
4%
Enzymatic Activity
4%
Recovery
4%
Main Part
4%
Main Reason
4%
Observed Data
4%
Chemical Engineering
Enzymatic Hydrolysis
100%
Polymer
66%
Ethanol
33%
Phase Separation
33%
Glucose
16%
Adsorption
16%