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Waste-to-Energy: Integrated Approaches and Future Perspectives
Andrew Welfle
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Book/Report
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Book
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peer-review
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Earth and Planetary Sciences
Integrated Approach
100%
Waste
100%
Bioenergy
58%
Science and Technology
33%
Type of Waste
16%
Vector
16%
Investigation
16%
Feasibility
16%
Political Economy
16%
Chemical Composition
16%
Cleaning
8%
Sugar
8%
Oil
8%
Combustion
8%
Bioethanol
8%
India
8%
Economy
8%
Suggestion
8%
Research
8%
Flexibility
8%
Foci
8%
Exhaust Gas
8%
Selection
8%
Waste Management
8%
Synthesis Gas
8%
Efficiency
8%
Catalysis
8%
Gasification
8%
Impact
8%
By-Product
8%
Energy Recovery
8%
Value
8%
Environmental Impact
8%
Assessment
8%
Trend
8%
China
8%
Covering
8%
Option
8%
Pyrolysis
8%
Substrate
8%
Environment
8%
United States of America
8%
Policy
8%
Model
8%
Starch
8%
Engineering
Waste to Energy
100%
Bioenergy
58%
Production
33%
Anaerobic Digestion
33%
Energy Engineering
25%
Biomass Resource
25%
Bio-Oil
16%
Chemical Composition
16%
Biogas Production
16%
Integrated System
16%
Conversion Process
16%
Economic Feasibility
16%
Combustion
16%
Vectors
16%
Starch
16%
Recovery
8%
Determines
8%
Environmental Solution
8%
Highlight
8%
Bioeconomy
8%
Environmental Impact
8%
Substrates
8%
Syngas
8%
Environment
8%
Technology Option
8%
Drives
8%
Provide Suggestion
8%
Integrated Biorefineries
8%
Flue Gas
8%
Biorefineries
8%
By-Product
8%
Lignocellulosics
8%
High Value
8%
Models
8%
Efficiency
8%
Research
8%
Chemistry
Bioenergy
58%
Procedure
41%
Gas Cleaning
25%
Monosaccharides
16%
Phase Composition
16%
Biorefinery
16%
Bioethanol Production
16%
Gasification
16%
Energy Recovery
8%
Fermentation
8%
Chemical Reaction Product
8%
Crudity
8%
Environment
8%
Syngas
8%
Starch
8%
Combustion
8%
Waste Management
8%
Flexibility
8%
Catalysis
8%
Pyrolysis
8%
Chemical Waste
8%
Aqueous Solution
8%
Environmental Impact
8%
Biochemistry, Genetics and Molecular Biology
Energy
100%
Bioenergy
58%
Chemical Composition
16%
Gas
16%
Decision Making
8%
Biomass
8%
Solution and Solubility
8%
Anaerobic Digestion
8%
Energy Recovery
8%
Gasification
8%
Combustion
8%
Pyrolysis
8%
Fermentation
8%
Drive
8%
Catalysis
8%
Chemical Engineering
Pyrolysis
16%
Biogas
8%
Sugar
8%
Starch
8%