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Wei Wu
Professor
Department of Chemical Engineering
Phone
886 6 2757575 ext 62689
Email
weiwu
mail.ncku.edu
tw
Website
https://sites.google.com/site/weiwulab93a26/
h-index
2674
Citations
30
h-index
Calculated based on number of publications stored in Pure and citations from Scopus
1994 …
2023
Research activity per year
Overview
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Network
Projects
(11)
Research output
(177)
Similar Profiles
(6)
Supervised Work
(14)
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Dive into the research topics where Wei Wu is active. These topic labels come from the works of this person. Together they form a unique fingerprint.
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Engineering & Materials Science
Air
31%
Biofuels
34%
Biomass
82%
Bioreactors
30%
Carbon
30%
Carbon dioxide
39%
Chemical reactors
41%
Coal
35%
Combined cycle power plants
30%
Controllers
73%
Economic analysis
25%
Economics
60%
Electricity
34%
Environmental impact
26%
Exergy
38%
Feedback
33%
Feedback control
68%
Feedback linearization
52%
Feedstocks
34%
Fuel cells
85%
Gas emissions
25%
Gasification
90%
Greenhouse gases
31%
Heat exchangers
25%
Hot Temperature
71%
Hydrogen
82%
Hydrogen production
80%
Life cycle
26%
Linearization
44%
Membranes
29%
Methane
41%
Methanol
64%
Molten carbonate fuel cells (MCFC)
28%
Multiobjective optimization
39%
Nonlinear systems
100%
Palm oil
29%
Power generation
58%
Power plants
37%
Process design
26%
Proton exchange membrane fuel cells (PEMFC)
46%
Reforming reactions
76%
Solar dryers
26%
Solid oxide fuel cells (SOFC)
30%
Steam reforming
38%
Temperature
34%
Time delay
34%
Uncertainty
26%
Waste heat utilization
50%
Chemical Compounds
Biodiesel
11%
Biofuel
14%
Bioreactors
35%
Calcium(0)
11%
Carbon Atom
14%
Chemical Reactor
24%
Chemical Transformation
12%
Coal
11%
Coil
11%
Cope Reaction
7%
Cryogenics
12%
Dew Point
8%
Dioxygen
10%
Distillation
11%
Distillation Columns
23%
Electricity
24%
Energy
27%
Energy Consumption
11%
Error
34%
Exergy
14%
Flow
18%
Flow Kinetics
9%
Fuel
54%
Gas
13%
Gasification
48%
Green
9%
Greenhouse Gas
11%
Heat
35%
Heat Exchanger
20%
Heat Transfer
15%
Hydrogen
31%
Hydrogenation
12%
Liquefied Petroleum Gas
8%
Methane
9%
Methanol
23%
Nonlinear Dynamics
17%
Palm Oil
13%
Polyhydroxyalkanoate
7%
Pressure
13%
Process Control
13%
Reaction Yield
11%
Reduction
16%
Simulation
87%
Solar Collector
14%
Steam Reforming
22%
Thermal Runaway
12%
Time
8%
Waste Heat
23%
Wastewater
7%
Water Gas Shift
8%
Mathematics
Carbon Dioxide
8%
Chemical Reactors
13%
Closed-loop
11%
Conceptual Design
13%
Control Strategy
14%
Controller
30%
Design
19%
Design Efficiency
9%
Disturbance
19%
Electricity
16%
Energy
13%
Fluidized Bed
17%
Framework
11%
Gas
17%
Gas Turbine
9%
Hammerstein Model
9%
Heat
17%
Hydrogen
41%
Internal
10%
Inversion
10%
Methane
19%
Methodology
15%
Nonlinear Control
13%
Nonlinear Process
9%
Optimization
17%
Output
13%
Output Feedback
14%
Output Regulation
29%
Performance
10%
Power System
11%
Reactor
15%
Simulation
8%
Solid Oxide Fuel Cell
11%
State Feedback
12%
Time Delay
16%
Uncertain Nonlinear Systems
9%
Waste Water
9%
Water
11%
