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Xiaoti Cui Teaching Portfolio
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Xiaoti Cui
Lektor
AAU Energi
Det Ingeniør- og Naturvidenskabelige Fakultet
Thermal Engineering
Hydrogen and Electro-fuels
https://orcid.org/0000-0001-6514-0280
Telefon
+4599407840
E-mail
xcu
energy.aau
dk
Pontoppidanstræde 111
,
1.142
9220
Aalborg Øst
Danmark
2008
2025
Publikationer pr. år
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Projekter
(7)
Publikationer
(33)
Aktiviteter
(1)
Lignende profiler
(6)
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Dyk ned i forskningsemnerne, hvor Xiaoti Cui er aktive. Disse emneetiketter kommer fra dennes persons arbejder. Sammen danner de et unikt fingerprint.
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Engineering
Solid Oxide Electrolysis
100%
Electrolysis Cell
93%
Hydrogen Production
83%
Methanol Synthesis
77%
Production of Methanol
63%
Electrolyzer
54%
Methanol Steam Reforming
49%
Proton Exchange Membrane
47%
Proton-Exchange Membrane Fuel Cells
45%
Fuel Cell
41%
Simulation Result
40%
Hydrogenation
37%
Multi--Tubular
36%
Packed Bed
36%
Experimental Characterization
36%
Renewables
36%
Evaporation Rate
36%
CO2 Hydrogenation
36%
Cell Performance
33%
Pressure Drop
30%
Energy Engineering
27%
Green Hydrogen
27%
Kinetic Model
27%
Two Dimensional
27%
Water-Gas Shift
27%
Hot Spot
27%
Flow Model
27%
Inlet Temperature
24%
Low-Temperature
24%
Good Agreement
24%
Methane
24%
Computer Simulation
22%
Energy Efficiency
22%
Energy Conservation
22%
Atmospheric Pressure
21%
Computational Fluid Dynamics
21%
Performance Improvement
21%
Elevated Pressure
21%
Geometric Parameter
21%
Diameter Tube
21%
Catalyst Bed
21%
Distillation
18%
Steam Reforming
18%
Polymer Electrolyte Membrane
18%
Diameter Pipe
18%
Retrofit
18%
Direct Current
18%
Alternating Current
18%
Optimal Design
18%
Operational Condition
18%
Keyphrases
Green Methanol
36%
Gas Composition
18%
In Situ Water Removal
18%
Methanol Process
18%
Variable Working Conditions
18%
Methanol Economy
18%
Optimization Analysis
18%
Methanol Production
18%
Structured Packing
18%
Steam Condensation
18%
Cu-ZnO-Al2O3 Catalysts
18%
Butane
18%
Propane Steam Reforming
18%
Oxidative Steam Reforming
18%
Methanol Plant
18%
Packed Bed Reactor
18%
Multi-tubular Reactor
18%
CuO-ZnO-Al2O3
18%
CO2 Hydrogenation to Methanol
18%
Improved Kinetics
18%
Radial Heat Transfer
18%
Cationic Impurities
18%
Feed Gas
18%
Dynamic Simulation
18%
Surrogate Model
18%
Vacuum Transfer
18%
Flashing Flow
18%
Transfer Line
18%
Production Dynamics
18%
Methanol Distillation
18%
2D numerical Model
18%
1D numerical Model
18%
3E Analysis
18%
Composition Effect
18%
Hydrocarbon Mixtures
18%
Film Flow
18%
Inclined Channel
18%
Contact Mass
18%
Sub-atmospheric Pressure
18%
Direct Contact Heat Transfer
18%
Cryogenic CO2 Capture
18%
Ammonia Synthesis
18%
CO2 Capture
18%
Danish Case
18%
Techno-economic Analysis
18%
CO2 Capture Technology
18%
Ammonia Production
15%
Ammonia
15%
Reverse Water Gas Shift
14%
Nonlinear Autoregressive Exogenous Model
12%
