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Prof Tao Wu
Dean of Faculty of Science and Engineering
China Beacons Institute
Advanced Energy and Environmental Materials & Technologies Research Group
Department of Chemical and Environmental Engineering
Email
Tao.Wu
nottingham.edu
cn
,
tao.wu
nottingham.edu
cn
h-index
5865
Citations
42
h-index
Calculated based on number of publications stored in Pure and citations from Scopus
1997 …
2024
Research activity per year
Overview
Fingerprint
Network
Projects
(13)
Research output
(204)
Prizes
(7)
Similar Profiles
(3)
Supervised Work
(26)
Fingerprint
Dive into the research topics where Tao Wu is active. These topic labels come from the works of this person. Together they form a unique fingerprint.
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Keyphrases
Microwave Pyrolysis
87%
Molybdenite
66%
Co-firing
57%
Synergistic Effect
48%
High Efficiency
44%
Adsorbent
43%
MoS2 Nanosheets
42%
Co-gasification
42%
Density Functional Theory
42%
Ash Fusion
39%
Combustion
38%
Low Temperature
38%
Biomass Pyrolysis
38%
Adsorption
38%
Hg0 Capture
37%
Char Morphology
37%
HKUST-1
35%
Elemental Mercury
35%
CO2 Adsorption
35%
Hydrogen Production
33%
Pyrolysis
33%
Image Analysis Technique
31%
Graphene
31%
Biomass Blends
30%
Biomass-coal Blends
30%
Conventional Pyrolysis
27%
Co-processing
27%
Bio-oil
27%
Environmental Impact
27%
Coal Blend
26%
Syngas
26%
Lignocellulosic Composition
26%
Lignocellulose
26%
Drop Tube Furnace
25%
Coal-fired Power Plant
25%
Microwave Heating
25%
Entrained Flow Gasifier
25%
Mixing Process
25%
Macromixing
25%
Oil Shale
25%
Bio-dimethyl Ether
25%
Thermogravimetric Analysis
25%
Coal Char
24%
Ignition
24%
Biomass Gasification
24%
Metal Oxide
24%
Oat Straw
23%
Exergy
22%
Regeneration
21%
Activated Carbon
21%
Engineering
Energy Engineering
100%
Gasification
59%
Lignocellulosics
55%
Adsorption
53%
Image Analysis
53%
Ignition
41%
Gasifiers
41%
Synergistic Effect
40%
Drop Tube Furnace
34%
Activation Energy
32%
Low-Temperature
31%
Pyrolysis
30%
Environmental Impact
29%
Molybdenum Disulfide
28%
Graphene
27%
Coal Sample
26%
Engineering
25%
Ash Sample
25%
Oil Shale
25%
Carbonaceous Material
25%
Power Generation
25%
Combustion
23%
Carbon Deposition
23%
Thermal Processing
22%
Biomass Pyrolysis
22%
Coal Blend
21%
Char Burnout
20%
Fuel Blend
20%
Polyurethan
20%
Hydrogen Production
20%
Thermal Behavior
20%
Char Combustion
20%
Organic Solar Cells
20%
Processing Parameter
20%
Kinetic Model
20%
Energy Harvesting
20%
Ignition Temperature
19%
Programmed Temperature
19%
Pulverised Coal
18%
Char Particle
18%
Internals
17%
Co-Processing
17%
Microwave Pyrolysis
16%
Hemicellulose
16%
Isothermal
16%
Adsorption Capacity
16%
Flame Stability
16%
Heating Rate
15%
Coal Particle
15%
Kinetic Study
15%