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CH4 and CO2 utilisation by unsteady-state operation
D. Pinto
ChemE/Catalysis Engineering
Research output
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Thesis
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Dissertation (TU Delft)
99
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INIS
operation
100%
methane
100%
carbon dioxide
100%
conversion
60%
catalysis
60%
production
30%
thermodynamics
30%
hydrocarbons
30%
energy
20%
fuels
20%
values
20%
oils
20%
combustion
20%
capture
20%
molecules
20%
synthesis
20%
stability
20%
catalysts
20%
steady-state conditions
20%
constraints
20%
control
10%
emission
10%
chemistry
10%
carbon footprint
10%
chemical reactions
10%
chemical feedstocks
10%
air
10%
fossils
10%
heat
10%
applications
10%
commodities
10%
efficiency
10%
biomass
10%
biogas
10%
flue gas
10%
sorption
10%
interactions
10%
steam
10%
carboxylic acids
10%
natural gas
10%
comparative evaluations
10%
purity
10%
exploitation
10%
shale gas
10%
food industry
10%
carbon cycle
10%
cost
10%
performance
10%
urea
10%
chemical industry
10%
solutions
10%
deactivation
10%
Engineering
State Operation
100%
CH4
100%
Carbon Dioxide Capture
25%
Syngas
25%
Low Conversion
12%
Steam Reforming
12%
Product Formation
12%
High Purity
12%
Reactant
12%
CO2 Conversion
12%
Limitations
12%
Transients
12%
Mechanisms
12%
Flue Gas
12%
Deep Understanding
12%
Conversion Efficiency
12%
Desired Product
12%
Chemical Looping
12%
Shale Gas
12%
Energy Production
12%
Combines
12%
State Condition
12%
Low Potential
12%
Renewables
12%
Natural Gas
12%
Chemical Production
12%
Thermodynamic Stability
12%
Energy Engineering
12%
Chemical Engineering
Hydrocarbon
100%
Carbon Dioxide Utilization
100%
Combustion
66%
Carbon
66%
Biogas
33%
Urea
33%
Sorption
33%
Acid
33%
Catalyst Deactivation
33%
Temperature
33%