Engineering
Reducing Sugar
66%
Bioethanol
50%
Biogas
50%
Oil Concentration
31%
Electrocoagulation Process
31%
Renewable Energy
31%
Initial Oil
29%
Removal Efficiency
25%
Synergistic Effect
25%
Microparticles
25%
Hydrolysis Process
25%
Bioconversion
25%
Saccharification and Fermentation Process
25%
Corn Stover
25%
Alginate
25%
Cerevisiae
25%
Industrial Cluster
25%
Critical Micelle Concentration
18%
Saccharification
16%
Electrochemical Water Treatment
14%
Wastewater Treatment
14%
Enzymatic Hydrolysis
14%
Free Enzyme
12%
Covalent Attachment
12%
Clean Energy
12%
Clean Water
12%
Energy Engineering
10%
Batch System
8%
Total Dissolved Solid
8%
Power Supply
8%
Aluminum Metal
8%
Aluminum Plate
8%
Fractional Distillation
8%
Ethanol Concentration
8%
Hemicellulose
8%
Acid Concentration
8%
Bioethanol Production
8%
Batch Fermentation Process
8%
Fourier Transform
8%
Direct Current
8%
Bioreactor
8%
Optimization Strategy
8%
Energy Security
8%
Greenhouse Gas
8%
Supporting Material
8%
Direct Observation
8%
Continuous Mode
6%
Hydraulic Residence Time
6%
Batch Process
6%
Product Yield
6%
Chemical Engineering
Biogas
100%
Chitosan
50%
Electrocoagulation Process
50%
Electrochemical Water Treatment
50%
Wastewater Treatment
50%
Solvent Extraction
33%
Hydraulic Retention Time
28%
Enzymatic Hydrolysis
27%
Temperature
25%
Lignin
25%
Pyrolysis
25%
Acetic Acid
25%
Alginate
25%
Activated Carbon
25%
Sulfuric Acid
25%
Formic Acid
25%
Auxiliaries
25%
Batch System
25%
Hydraulic Residence Time
25%
Sludge
25%
Oil-Water Emulsion
25%
Cellulose
16%
Sodium Alginate
12%
Methane
9%
Carbon Dioxide
9%
Heating Rate
8%
Biochemical Reactor
8%
Treated Water
5%
Agricultural and Biological Sciences
Anaerobic Digesters
50%
Eichhornia crassipes
50%
Biogas
50%
Ipomoea Aquatica
25%
Musa Acuminata
25%
Bioethanol
25%
Solid Waste
25%
Saccharification
25%
Enzymatic Hydrolysis
25%
Bioconversion
25%
Methane
9%
Reducing Sugar
8%
Liquefaction
8%
Alpha-Amylase
8%
Cow
7%
Feedstock
6%