Engineering
Lignocellulosic Biomass
100%
Corn Stover
76%
Biorefineries
50%
Pretreatment
49%
Enzymatic Hydrolysis
48%
Biofuel
39%
Renewable Energy
35%
Screw Feeder
32%
Packed Bed
24%
Saccharification
24%
Computational Fluid Dynamics
22%
Conversion Process
20%
Greenhouse Gas
19%
Sugar Production
18%
Refining Process
17%
Dilute Acid
16%
Mass Transfer Limitation
16%
Mesoscale
16%
Engineering
16%
Rotation Speed
15%
Renewables
13%
Particle Size Analysis
13%
Sugar Concentration
12%
Rheology
12%
Energy Conservation
12%
Energy Efficiency
12%
Reactor System
10%
Lignocellulosics
10%
Technical Performance
10%
Fermentable Sugar
9%
Biomass Conversion
9%
Screw Feeding
9%
Mechanical Failure
8%
Compressibility
8%
Evaporator
8%
Rheological Behavior
8%
Integrated Biorefineries
8%
Image Analysis
8%
Irregular Shape
8%
Dilute Acid Pretreatment
8%
Membrane Module
8%
Process Control
8%
Fractionation
8%
Membrane Reactor
8%
Hydrolysis Reaction
8%
Flow Behavior
8%
Flocculant
8%
Image Data
8%
Constitutive Model
8%
Hydrolyzate
8%
Chemical Engineering
Enzymatic Hydrolysis
70%
Fractionation
49%
Residence Time Distribution
37%
Separation Method
37%
Solid-Liquid Separation
35%
Biomass Conversion
32%
Xylose
26%
Neural Network
24%
Reaction Engineering
24%
Biomass Particle
20%
Pretreated Corn Stover
17%
Flocculant
12%
Liquid Transportation Fuels
10%
Chemical Kinetics Characteristics
9%
Techno-economic Analysis
9%
Flocculation
8%
Process Control
8%
Membrane Reactor
8%
Artificial Intelligence
8%
Chemical Engineering
8%
Fluid Flow
8%
Separation Technology
8%
Film
8%
Batch Reactor
8%
Cake Formation
8%
Intraparticle Mass Transfer
8%
Methanol
8%
Diffusion Resistance
8%
Mass Transfer Resistance
8%
Ultrafiltration
6%