Aqueous two-phase systems applied to the enzymatic hydrolysis of sugarcane bagasse: Screening methodology, thermodynamic modelling and process design

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%