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Hydrothermal catalytic gasification of municipal solid waste
Jude A. Onwudili
, Paul T. Williams
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Corresponding author for this work
Chemical Engineering & Applied Chemistry
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peer-review
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Dive into the research topics of 'Hydrothermal catalytic gasification of municipal solid waste'. Together they form a unique fingerprint.
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Keyphrases
Municipal Solid Waste
100%
Sodium Hydroxide
100%
Catalytic Gasification
100%
Mass Ratio
50%
Water Density
50%
Gasification
33%
Reaction Temperature
33%
Refuse Derived Fuel
33%
CO2 Concentration
33%
Carbonate
16%
Cm(III)
16%
Reaction Conditions
16%
Cellulose
16%
Stainless Steel
16%
Reactor Design
16%
Design Requirements
16%
Hydrogen Production
16%
Batch Reactor
16%
Sodium Carbonate
16%
Gaseous Products
16%
Starch
16%
CO2 Removal
16%
Hydrothermal Gasification
16%
Hydrogen-rich
16%
C1-C4 Hydrocarbons
16%
Hydrogen Gas Production
16%
Solid Waste Materials
16%
Water Reaction
16%
Engineering
Gasification
100%
Municipal Solid Waste
100%
Mass Ratio
100%
Catalytic Gasification
100%
Refuse-Derived Fuel
66%
Stainless Steel
33%
Reactor Design
33%
Hydrogen Gas
33%
Gas Production
33%
Hydrogen Production
33%
Chemical Engineering
Gasification
100%
Carbon Dioxide
100%
Hydrogen Production
25%
Batch Reactor
25%
Gaseous Products
25%