Steady state optimization of a PEM fuel cell system operational parameters

Keyphrases

• Fuel Cell 100%
• Proton Exchange Membrane Fuel Cell (PEMFC) 100%
• Operating Conditions 100%
• Operational Parameters 100%
• Numerical Optimization 100%
• Steady-state Optimization 100%
• Load Following 66%
• Optimization Algorithm 66%
• Process Optimization 66%
• Power Density 66%
• Control Strategy 66%
• Air Compressor 66%
• Air Stoichiometry 66%
• Automotive Applications 66%
• Operating Variables 66%
• Variable Power 66%
• Load Current 66%
• Stoichiometry Ratio 66%
• Air Compressor System 66%
• Process Use 33%
• Hybrid System 33%
• Mathematical Model 33%
• Cell Voltage 33%
• Net Energy 33%
• Operating Point 33%
• Steady-state Conditions 33%
• Balance of Plant 33%
• Online Control 33%
• Data Management 33%
• Fuel Battery 33%
• Nominal Value 33%
• Generated Power 33%
• Fuel Cell Model 33%
• Power Operation 33%
• Power Loss 33%
• Ambient Pressure 33%
• Power Consumed 33%
• PEMFC System 33%
• Intake Air 33%
• Optimal Search 33%
• Energy Conversion Efficiency 33%
• Diaphragm Pump 33%
• Desired Power 33%
• National Instruments 33%
• Compressor Model 33%
• Battery Hybrid 33%
• Power Configuration 33%

INIS

• optimization 100%
• steady-state conditions 100%
• power 100%
• proton exchange membrane fuel cells 100%
• air 60%
• fuel cells 50%
• values 40%
• applications 40%
• stacks 40%
• compressors 40%
• control 20%
• voltage 20%
• range 20%
• algorithms 20%
• stoichiometry 20%
• power density 20%
• efficiency 10%
• data 10%
• architecture 10%
• balances 10%
• operation 10%
• intake 10%
• pumps 10%
• industry 10%
• management 10%
• mathematical models 10%
• losses 10%
• hybrid systems 10%
• configuration 10%
• curves 10%
• energy conversion 10%
• on-line control systems 10%
• power losses 10%
• diaphragm 10%

Engineering

• Proton-Exchange Membrane Fuel Cells 100%
• Fuel Cell System 100%
• Fuel Cell 100%
• Numerical Optimization 60%
• Variable Power 40%
• Power Density 40%
• Control Strategy 40%
• Automotive Application 40%
• Reaction Stoichiometry 40%
• Cell Voltage 20%
• Control Scheme 20%
• State Condition 20%
• Operating Point 20%
• Power Loss 20%
• Ambient Pressure 20%
• Cell Model 20%
• Diaphragm 20%
• Atmospheric Pressure 20%
• Mathematical Model 20%
• Energy Conversion Efficiency 20%