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Production of high-purity hydrogen and carbon dioxide capture by sorption enhanced WGS reaction process
Cheng Tung Chou, Yu Jie Huang, Hong Sung Yang
化學工程與材料工程學系
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Keyphrases
Adsorption Quantity
50%
Aluminum Oxide
100%
Breakthrough Curve
50%
Carbon Dioxide
50%
Carbon Dioxide Capture
100%
CO2 Emissions
50%
Cubic Spline Approximation
50%
Cutout
50%
Cyclic Steady State
50%
Electrical Energy
50%
Energy Sources
50%
Feed Time
50%
Gas Turbine
50%
Global Warming
50%
Greenhouse Gas
50%
Greenhouse Gas Effect
50%
High-purity Hydrogen
100%
Hydrogen Dioxide
100%
Law
50%
Le Châtelier
50%
Method of Lines
50%
Operating Variables
50%
Optimal Operating Conditions
50%
Percent Recovery
50%
Reaction Conversion
50%
Reaction Process
100%
Reaction Rate
50%
Reduce Greenhouse Gas
50%
Rinsing
50%
Simulation Accuracy
50%
Simulation Program
50%
Sodium Oxide
100%
Sorption Enhanced Water Gas Shift
100%
Sorption-enhanced Reaction
50%
System Reach
50%
Temperature Swing Adsorption
100%
Thermal Swing
50%
Upwind Difference
50%
Water-gas Shift
100%
Water-gas Shift Reaction
50%
Engineering
Aluminum Oxide
100%
Breakthrough Curve
50%
Carbon Dioxide Capture
100%
Cubic Spline
50%
Dry Basis
100%
Electrical Power
50%
Energy Source
50%
Gas Turbine
50%
Global Warming
50%
Greenhouse Gas
100%
Le Chatelier
50%
Optimal Operating Condition
50%
Simulation Program
50%
Water Gas Shift Reaction
100%
Water-Gas Shift
100%
Chemical Engineering
Carbon Dioxide
75%
Carbon Dioxide Capture
100%
Sorption-enhanced Reaction
25%
Water-Gas Shift
100%
Material Science
Aluminum Oxide
50%
Carbon Dioxide
100%
Greenhouse Gas
50%