Exergy-based optimal control of a vapor compression system

Keyphrases

• Optimal Control 100%
• Exergy 100%
• Vapor Compression System 100%
• System Efficiency 25%
• Exergetic Efficiency 25%
• Thermal Systems 25%
• Model Predictive Controller 25%
• Exergy Destruction 25%
• Over 40 12%
• Modeling Framework 12%
• Variable Effect 12%
• Actuator 12%
• Energy Consumption 12%
• Second Law 12%
• Steady-state Conditions 12%
• Heat Exchanger 12%
• Optimal Controller 12%
• Passenger Vehicle 12%
• Varying Load 12%
• Variable Speed 12%
• Lumped Parameter 12%
• Online Optimization 12%
• Online Control 12%
• First Law 12%
• Control Actions 12%
• Optimization Efficiency 12%
• High-frequency Disturbances 12%
• Closed-loop Operation 12%
• Transport Applications 12%
• Cooling Capacity 12%
• Exergy Analysis 12%
• Refrigerated Transport 12%
• Exergy Optimization 12%
• Exergetic 12%
• Moving Boundary Modeling 12%
• Exergy Destruction Minimization 12%

Engineering

• Vapor Compression System 100%
• Optimal Control 100%
• Exergy Destruction 37%
• Design Stage 25%
• System Efficiency 25%
• Thermal System 25%
• Exergetic Efficiency 25%
• Closed Loop 12%
• Simulation Result 12%
• State Condition 12%
• Exchanger 12%
• Passenger Vehicle 12%
• Individual Component 12%
• Lumped Parameter 12%
• Control Action 12%
• Optimal Controller 12%
• Cooling Capacity 12%
• Objective Function 12%
• Actuator 12%

Chemical Engineering

• Exergy 100%
• Model Predictive Controller 28%