Engineering
Hydrothermal Liquefaction
100%
Carbon Capture
50%
Energy Engineering
37%
Bio-Oil
35%
Gas-Phase
30%
Liquid Biofuels
30%
Fuel Production
29%
Integrated System
25%
Biofuels
25%
Lifecycle
25%
Conversion Process
25%
Multiobjective Optimization
25%
Energy Requirement
25%
Pyrolysis
25%
Gas-to-Liquids
16%
Renewables
16%
Bioenergy
15%
Energy Systems
13%
Hydroprocessing
12%
Thermochemical Conversion
12%
Heat Integration
12%
Biomass Conversion
12%
Simulators
12%
Model Compound
12%
Direct Correlation
12%
Simulation Tool
12%
Ultimate Analysis
12%
Supplementary Material
12%
Fitting Parameter
12%
Proximate Analysis
12%
Hydrogen Production
12%
Hydrothermal Liquefaction Process
10%
Experimental Result
8%
Lignocellulosic Biomass
8%
Electricity Production
8%
Limited Resource
8%
Process Simulation
8%
Energy Conservation
8%
Energy Efficiency
8%
Life Cycle Analysis
8%
Carbon Dioxide Capture
5%
Selexol Process
5%
Carbon Price
5%
Energy Transition
5%
Mols
5%
Lignocellulosics
5%
Estimated Cost
5%
Fossil Fuel
5%
Key Parameter
5%
Process Design
5%
Keyphrases
Production Improvement
25%
Physical Absorption
25%
Heat of Formation
25%
Enthalpy of Formation
25%
Liquefied Biomass
25%
Life Cycle GHG Emissions
25%
Emission Evaluation
25%
Hydrothermal Carbon
25%
Direct Liquefaction
16%
Process Simulator
8%
BioWin Modeling
8%
Parameter Fitting
8%
Hydrothermal Pyrolysis
8%
Solvolytic Liquefaction
8%
Thermochemical Properties
8%
Urban Biomass
5%
Geological Storage
5%
Waste Lignocellulosic Biomass
5%
European Union Emissions Trading System (EU ETS)
5%
Carbon Price
5%
CO2 Capture Cost
5%
Selexol Process
5%
