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Xiaoti Cui Teaching Portfolio
Vis Scopus-profil
Xiaoti Cui
Lektor
,
AAU Energi
Lektor
,
Det Ingeniør- og Naturvidenskabelige Fakultet
Thermal Engineering
https://orcid.org/0000-0001-6514-0280
Fastnet
2667 8192
E-mail
xcu
energy.aau
dk
Pontoppidanstræde 111
,
1136
9220
Aalborg Ø
Danmark
2008
2024
Publikationer pr. år
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Projekter
(5)
Publikationer
(26)
Aktiviteter
(1)
Lignende profiler
(6)
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Alfabetisk
Chemistry
Reaction Temperature
100%
Methanol
84%
Electrolysis
47%
Catalyst
39%
Hydrogen
37%
Steam Reforming
36%
Reactor
34%
Proton
33%
Methanol Steam Reforming
31%
Packed Bed Reactor
31%
Pressure
27%
Oxide
27%
Solid
27%
Heat Transfer
27%
Concentration
22%
Proton-Exchange Membrane Fuel Cells
20%
Mass Transfer
19%
Application
18%
Carbon Dioxide
17%
Gas
17%
Flow
16%
Thermodynamic Analysis
16%
Simulation
15%
Thermodynamics
15%
Copper(II) Oxide
15%
Ion
13%
Vacuum
13%
Anode
13%
Butane
13%
Propane
13%
Impurity
13%
Carbon Dioxide Hydrogenation
13%
Fuel Cell System
13%
Thermal Analysis
13%
Alternating Current Method
13%
Proton-Exchange Membrane Fuel Cells System
13%
Carbon
13%
Cathode
12%
Electricity
12%
Hydrogenation
11%
Dioxygen
10%
Pressure Drop
9%
Diffusion
9%
Water Gas Shift
8%
Chemical Reaction
8%
Resistance
8%
Aqueous Solution
8%
Liquid
8%
Chemical Kinetics Characteristics
7%
Fuel
7%
Engineering
Models
42%
Electrolyzer
41%
Electrolysis Cell
36%
Water
36%
Proton Exchange Membrane
33%
Performance
29%
Multi--Tubular
27%
Reactor
27%
Production of Methanol
27%
Packed Bed
27%
Hydrogen Production
27%
Design
25%
Cell Performance
20%
High Temperature
17%
Catalyst
17%
Computer Simulation
17%
Characteristics
17%
Distillation
16%
Flow Model
16%
Lower Temperature
15%
Temperature
14%
Steam Reforming
13%
Polymer Electrolyte Membrane
13%
Applications
13%
Gas Composition
13%
Green Hydrogen
13%
Numerical Model
13%
Experimental Characterization
13%
Methanol Synthesis
13%
Mixture
13%
Diameter Pipe
13%
Thermodynamics
13%
Large Diameter
13%
Retrofit
13%
Energy Analysis Technique
13%
Direct Current
13%
Alternating Current
13%
Steam
13%
Simulation Result
13%
Evaporation Rate
13%
Proton-Exchange Membrane Fuel Cells
12%
Contamination
11%
Full Load
10%
Pressure Drop
9%
Mass Transfer
9%
Fuel Cell
7%
Fuel
7%
Cost Reduction
6%
Energy Transition
6%
Optimization
6%
Physics
Model
43%
Temperature
30%
Steam
27%
Mixtures
23%
Pressure
20%
Simulation
19%
Transferring
18%
Vacuum
18%
Condensation
18%
Utilization
16%
Diameters
15%
Heat
15%
Mass Transfer
13%
Electrolysis
13%
Vapor
13%
Atmospheric Pressure
13%
Membrane
13%
Electrolyte
13%
Methane
13%
Pressure Effect
13%
Computational Fluid Dynamics
13%
Syngas
13%
Thermal Analysis
13%
Evaporation
13%
Hydrogen
9%
Dimensionless Number
9%
Hydrocarbon
9%
Correlation
9%
Water
7%
Oxygen
5%
Cathode
5%
Two Phase Flow Pressure Drop
5%
Radiation
5%
