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Computational study of hydrogen storage performance in metal hydride reactors
Chih Ang Chung
, Ci Siang Lin, Ci Jyun Ho
機械工程學系
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Keyphrases
Hydrogen Storage
100%
Computational Study
100%
Hydrogen Storage Performance
100%
Metal Hydride Reactor
100%
Dehydriding
75%
Metal Hydride
75%
Heat Transfer Enhancement
50%
Hydrides
50%
Equilibrium Pressure
50%
Desorption
25%
Temperature Decrease
25%
Increased Temperature
25%
Forced Convection
25%
High Energy Density
25%
Back Pressure
25%
Storage System
25%
Liquefaction
25%
Thermal Fluid
25%
Hydrogen Gas
25%
Energy Equation
25%
Reaction Rate
25%
Heat Release
25%
Thermal Resistance
25%
Work Model
25%
Fluid Behavior
25%
Natural Convection
25%
Lateral Wall
25%
Hydrogen Storage System
25%
Energy Carrier
25%
Heat pipe Heat Exchanger
25%
Concentric Heat Exchanger
25%
Heat Transfer Tube
25%
Internal Fins
25%
Gas Energy
25%
Abundant Elements
25%
Exothermic Process
25%
Hydriding Process
25%
High-pressure Gas
25%
Endothermic Process
25%
Dissociation Equilibrium
25%
Absorption Equilibrium
25%
Vessel Design
25%
Gas Flow Equations
25%
Storage Design
25%
Computer-aided Engineering
25%
Storage Vessel
25%
Engineering
Hydrogen Storage
100%
Hydrogenation
50%
Storage System
33%
Equilibrium Pressure
33%
Backpressure
16%
Gas Flow
16%
Natural Convection
16%
Hydrogen Gas
16%
Internals
16%
Energy Equation
16%
Flow Equation
16%
Heat Transfer Enhancement
16%
Pipe Heat Exchanger
16%
Thermal Fluid
16%
Computer Aided Engineering
16%
Heat Exchange
16%
Energy Carrier
16%
Lateral Wall
16%
Pressure Gas
16%
Centreline
16%
Endothermic Process
16%
Computer Aided Design
16%
Flux Density
16%
Heat Resistance
16%
Chemical Engineering
Desorption
100%
Natural Convection
100%