Keyphrases
Pyrolysis
100%
Waste Materials
60%
Agriculture
60%
Camel Dung
60%
Energy Value
39%
Pyrolysis Characteristics
35%
Date Stones
33%
Biochar
30%
Qatar
30%
Pyrolysis-activation
30%
Bamboo Waste
30%
Orange Peel Biochar
30%
Waste Pyrolysis
30%
Waste Acid
30%
Acid Activation
30%
Solid-state Reaction
30%
Reaction Modeling
30%
Techno-economic Investigation
30%
Chickpea
30%
Oil Palm Waste
30%
Fixed Carbon
30%
Palm Kernel Shell
30%
Blending System
30%
TGA Study
30%
Waste Vegetable
30%
Pyrolysis Conditions
30%
Agro-environment
30%
Property Optimization
30%
Environmental Characterization
30%
Cabbage Waste
30%
Potential Feedstocks
30%
Solar Pyrolysis
30%
Animal Waste
30%
Toxic Dyes
30%
CO2 Pyrolysis
30%
Toxic Dye Removal
30%
Design Capacity
30%
Effect of Operating Parameters
30%
Surface Complexation
30%
Gasification Kinetics
30%
Degradation Characteristics
30%
Thermal Degradation
30%
Py-gas
30%
ZSM-5
30%
Catalytic Fast Pyrolysis
30%
Water Treatment Plant
30%
Water Stress
30%
Stress-related Growth
30%
Environmental Risk Analysis
30%
Bio-oil Production
30%
Biosolid Waste
30%
Heating Rate
30%
Heating Rate Effects
30%
Camel Manure
30%
Thermodynamic Analysis
30%
Kinetic Analysis
30%
Thermogravimetric Analysis
30%
Bio-oil
22%
Oil Palm Frond
22%
Empty Fruit Bunch
22%
Flynn-Wall-Ozawa
22%
Two-region
20%
Chelation
20%
Zeolite
20%
Catalyst Stability
20%
Fast Pyrolysis
20%
Thermal Degradation Behavior
20%
Bio-oil Composition
20%
Thermodynamic Properties
20%
Thermogravimetric Analyzer
20%
Manure
18%
Coats-Redfern Method
17%
Principal Investigator
15%
Biochar Rates
15%
Spent Coffee Grounds
15%
Capital Expenses
15%
Feed Particle Size
15%
Response Variable
15%
Selection Criteria
15%
Mutagenic Effects
15%
Pollutant Concentration
15%
Limit Standard
15%
Discharge Limits
15%
Microwave Activation
15%
Human Health Risk
15%
Design Selection
15%
Single Heating Rate
15%
Ozawa Method
15%
Multi-heating Rates
15%
Kinetic Parameters
15%
Enthalpy Values
15%
Coats-Redfern
12%
Industrial Experience
11%
Horticultural
11%
Turf
11%
Biosludge
11%
Solid Waste
11%
Char Yield
10%
Pyrolysis Kinetics
10%
Methylene Blue Adsorption
9%
Agricultural Waste Recycling
9%
Citrus Industry
9%
Soil Quality
9%
Cow Manure
9%
Root Biomass
9%
Control Condition
9%
Shoot Biomass
9%
Endocarp
9%
Mango
9%
Spontaneous Reaction
9%
Styrofoam
9%
Positive Synergistic Effect
9%
Non-spontaneous
9%
Holding Duration
9%
Diminishing Effect
9%
Heating Region
9%
Orange Peel
9%
Cation Exchange Capacity
9%
Plant Tests
9%
Plant Capacity
9%
Water Holding Capacity
9%
Waste Orange Peel
9%
Biochar Properties
9%
Physicochemical Characteristics
9%
Biorefining
9%
Phase Formation Mechanism
9%
Interstage
9%
Second Optimization
9%
Complexing Capacity
9%
Multi-mechanism
9%
Complexation Mechanism
9%
Equilibrium Processes
9%
Optimization Modeling
9%
Cadmium Chelation
9%
Loading Capacity
9%
Chelation Capacity
9%
Cadmium Adsorption
9%
Lone Electron Pair
9%
Waste Treatment Plant
9%
Zeolite Catalyst
9%
Mud Shale
9%
Catalyst Ratio
9%
Synergistic Reduction
9%
Coke Deposition
9%
Oil Red O
9%
Municipal Waste Material
9%
Red mud
9%
Gas Chromatography
9%
Oil Shale
9%
Hydrocarbons Content
9%
Self-catalysis
9%
Biofuel Generation
9%
Procedural Parameters
9%
Fast Heating Rate
9%
Spectrometer
9%
Devolatilization
9%
Molecular Techniques
9%
Volatile Matter
9%
Multiple Feeds
9%
Aliphatic Acids
9%
Acid Groups
9%
Aromatic Alcohols
9%
Coffee Waste
9%
Gasoline Production
9%
Carbon Atom
9%
Biomass Components
9%
Volatile Production
9%
Ketone Group
9%
Temperature Rate
9%
Oil Components
9%
Aliphatic-aromatic
9%
Methyl Ethyl Ketone
9%
Diesel Production
9%
Aliphatic Alcohols
9%
2-Propanone
9%
Benzyl
9%
Furan
9%
Aromatic Acids
9%
Decomposition Behavior
9%
Dung
9%
Pyrolysis Analysis
9%
Pyrolytic Decomposition
9%
Average Activation Energy
9%
Kissinger Method
9%
Medicinal Products
9%
Single-stage System
9%
Acidified Activated Carbon
9%
Pyrolytic
9%
Distributed Activation Energy Model
9%
Biomass-derived Biochar
9%
Biochar Adsorbent
9%
Aldehydes
9%
Pyroprobe
9%
Decomposition Stages
9%
Sustainable Energy Resource
9%
Waste Management Technologies
9%
Single-feed
9%
Ketones
9%
Activation Energy
9%
Pyrolysis Reactor
8%
Engineering
Pyrolysis
90%
Kinetic Parameter
33%
Biochar
30%
Fixed Carbon
30%
Human Health
30%
State Reaction
30%
Studies of Pyrolysis
30%
Activated Carbon
30%
Sandy Soil
30%
Agro Wastes
30%
Rate of Heating
30%
Selection Criterion
30%
Heating Rate
30%
Design Selection
30%
Adsorption Capacity
30%
Tasks
30%
High Value Product
30%
Rate Model
30%
Thermal Degradation
30%
Chen and Flynn Equation
22%
Leaching Study
20%
Risk Index
20%
Arrhenius
13%
Assistant Professor
13%
Biochar Production
13%
Pyrolysis Reactor
12%
Project Team
9%
Catalyst Particle
9%
Organic Waste
9%
Energy Technology
9%
Process Performance
9%
Pre-Treatment Process
9%
Organic Waste
9%
Biomass Pyrolysis
7%
Reaction Thermodynamics
7%
Feed Size
7%
Product Formation
7%
Gasifiers
7%
Smart City
6%
Chemical Engineer
6%
Biomass Utilization
6%
Pyrolysis Gas
6%
Civil Engineer
6%
Process Condition
6%
Water Conservation
6%
Application Performance
6%
Material Database
6%
Application Rate
6%
Phase Present
6%
Phenolics
6%
Room Temperature
6%
Isothermal
6%
Degradation Kinetics
6%
Ignition
6%
Equilibrium Process
6%
Equation Model
6%
Enthalpy Change
6%
Devolatilization
6%
Pyrolyser
6%
Powder Material
5%
Ground Form
5%
Sample Temperature
5%
Cost Implication
5%
Muffle
5%
Interior Design
5%
Cation Exchange Capacity
5%
Carbon Sequestration
5%
Environmental Benefit
5%
Holding Capacity
5%