Engineering
Kraft Lignin
75%
Biorefineries
56%
Life Cycle Assessment
50%
Low-Temperature
31%
Case Scenario
25%
Base Case
25%
Open Loop
25%
Curing Temperature
25%
Energetics
25%
Brazil
25%
Bio-Based Material
25%
Biomass Supply Chain
25%
Economic Feasibility
25%
Energy Source
25%
Supply System
25%
Fiber Loss
25%
Depolymerization
25%
Forced Air
25%
Bioenergy
25%
Phenol Formaldehyde
25%
Renewable Energy Source
25%
Molecular Weight
19%
Molecular Mass
19%
Lignocellulosics
12%
Renewables
12%
Technological Development
12%
Scale Production
12%
United States
12%
Biochemicals
12%
Cost Variable
12%
Selling Price
8%
Drying Technology
8%
Continuous Load
8%
Manufacturing Cost
7%
Capital Investment
5%
Iron Grain
5%
Payback Period
5%
Agricultural and Biological Sciences
Polyol
50%
Bioenergy
50%
Bioproducts
37%
Biopolymer
37%
Forestry
25%
Energy Efficiency
25%
Greenhouse Gas
25%
Risk Analysis
25%
Watersheds
25%
Feedstock
25%
Renewable Energy Source
25%
Biocompatible Material
25%
Eucalyptus Grandis
25%
Action Potential
25%
Chlorophyll
12%
Heading
12%
Spectroradiometers
12%
Spectroscopy
12%
Value-Added Product
12%
Climate Change
8%
Case Study
8%
Grains
8%
Forest Types
8%
Pinus
8%
Crop Production
8%
Chemical Engineering
Phenol
100%
Polyol
75%
2,5-Furandicarboxylic Acid
50%
Techno-economic Analysis
50%
Minimum Selling Price
33%
Mixed Oxide Catalyst
29%
Iron Ore Pellet
25%
Fructose
25%
Polyurethane
18%
Epoxy Resin
12%
Furfural
8%
Phenolic Resin
6%
