Analysis and simulation of a two-phase self-pumping solar water heater

Keyphrases

• Solar Water Heater 100%
• Self-pumping 100%
• Insolation 66%
• Low Accumulator 66%
• Numerical Simulation 33%
• Energy Conservation 33%
• Solar Water Heating System 33%
• Vapor Transport 33%
• Condenser 33%
• Experimental Values 33%
• Thermal Performance 33%
• Heat Transfer Rate 33%
• Closed-loop System 33%
• Physical Systems 33%
• Instantaneous Temperature 33%
• Heat Exchanger 33%
• Analytical Model 33%
• Transport System 33%
• Mechanical Pump 33%
• Thermal Efficiency 33%
• Refrigerant 33%
• Energy Equation 33%
• Thermodynamic Model 33%
• Mass Conservation 33%
• Qualitative Behavior 33%
• Thermal Losses 33%
• Daily Performance 33%
• Operational Phase 33%
• Sub-daily Simulation 33%
• Loss Coefficient 33%
• Temperature Transfer 33%
• Pressure Differential 33%
• Gravity-fed 33%
• Accumulator Tank 33%
• Daily Efficiency 33%
• Liquid Refrigerant 33%
• Integrated Energy 33%
• Solar Model 33%
• System Thermodynamics 33%

Engineering

• Solar Water Heater 100%
• Insolation 100%
• Solar Water Heating System 50%
• Experimental Value 50%
• Thermal Performance 50%
• Heat Transfer Rate 50%
• Isothermal 50%
• Exchanger 50%
• Condenser 50%
• Thermodynamic Model 50%
• Physical System 50%
• Differential Pressure 50%
• Closed System 50%
• Loss Coefficient 50%
• Operational Phase 50%
• Energy Equation 50%
• Energy Quantity 50%
• Liquid Refrigerant 50%
• Conservation of Energy 50%
• Analytical Model 50%
• Conservation of Mass 50%
• Thermodynamic Efficiency 50%