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Optimizing photon utilization in LED-based photocatalytic reactors
Maryam Khodadadian
Intensified Reaction and Separation Systems
Research output
:
Thesis
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Dissertation (TU Delft)
127
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Dive into the research topics of 'Optimizing photon utilization in LED-based photocatalytic reactors'. Together they form a unique fingerprint.
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INIS
reactors
100%
optimization
100%
photocatalysis
100%
photons
100%
design
40%
toluene
36%
applications
31%
operation
27%
water
27%
control
22%
conversion
22%
efficiency
22%
light sources
18%
illumination
18%
disturbances
18%
reaction rate
13%
recombination
13%
feedback
13%
electron holes
13%
mass transfer
13%
catalysts
13%
concentration
13%
periodicity
13%
validation
13%
surfaces
9%
irradiance
9%
economics
9%
lamps
9%
reactor design
9%
reaction kinetics
9%
degrees of freedom
9%
mineralization
9%
gases
9%
prediction
4%
positioning
4%
trade
4%
pollutants
4%
chemical reactions
4%
humidity
4%
distribution
4%
process control
4%
mathematical models
4%
reduction
4%
oxidation
4%
values
4%
dimensions
4%
xenon
4%
absorption
4%
semiconductor materials
4%
output
4%
operating cost
4%
mercury
4%
liquids
4%
capital costs
4%
hydrocarbons
4%
carbon dioxide
4%
performance
4%
tools
4%
pilot plants
4%
radiations
4%
configuration
4%
steady-state conditions
4%
public health
4%
size
4%
lifetime
4%
material balance
4%
experimental data
4%
deactivation
4%
indoors
4%
Engineering
Photocatalytic Reactor
100%
Design
46%
Models
40%
Reactor
33%
Photonics
26%
Duty Cycle
26%
Demonstrates
26%
Reaction Rate
20%
Optimization
20%
Feedforward
20%
Control Structure
13%
Degree of Freedom
13%
Mass Transfer Limitation
13%
Industrial Applications
13%
Development
13%
Mineralisation
13%
Gas-Phase
13%
Rate Model
6%
Set Point
6%
Low Water
6%
Reactant
6%
Small Size
6%
Experimental Result
6%
Capital Cost
6%
Artificial Light
6%
Economic Feasibility
6%
Parameter Estimation
6%
Control Loop
6%
Mathematical Model
6%
Desired Output
6%
Steady-State Model
6%
Control Strategy
6%
Design Parameter
6%
Efficient Utilization
6%
Light Utilization
6%
Chemical Specie
6%
Experiments
6%
Optimisation Problem
6%
Hazardous Chemical
6%
Radiation Field
6%
Optimal Condition
6%
Contaminant
6%
Reaction Model
6%
Feedback Controller
6%
Semiconductor
6%
Chemical Engineering
Toluene
100%
Water
75%
Mass Transfer
37%
Hydrocarbon
12%
Carbon Dioxide
12%
Photocatalysis
12%
Process Control
12%
Catalyst Deactivation
12%