Building Energy Efficiency Improvement with Solid-Solid Phase Change Materials Integrated into Glazing Systems

Keyphrases

• Energy Saving 100%
• Energy Efficiency Improvement 100%
• Building Energy Efficiency 100%
• Glazing Systems 100%
• Solid-solid Phase Change Materials 100%
• Montreal 50%
• Energy Loss 50%
• Vancouver 50%
• Transient Temperature 50%
• Miami 50%
• Double Glazing 50%
• Numerical Simulation 25%
• Simulation-based 25%
• System Yield 25%
• Energy Efficiency 25%
• Weather Conditions 25%
• Cloudy Conditions 25%
• Thermal Cycling 25%
• Energy Performance 25%
• Phase Change Material 25%
• Temperature Value 25%
• Optical Properties 25%
• Climatic Conditions 25%
• Finite Volume Method 25%
• Phase Segregation 25%
• Volume Variation 25%
• Air Gap 25%
• Day of the Year 25%
• Material Degradation 25%
• Thermal Energy Storage 25%
• Hot Days 25%
• Glass Panes 25%
• Cold Days 25%
• Cloudy Day 25%
• Efficient System 25%
• Subcooling 25%
• Liquid-solid Phase Change 25%

Engineering

• Phase Change Material 100%
• Building Energy Efficiency 100%
• Glazing System 100%
• Energy Dissipation 40%
• Energy Performance 20%
• Energy Efficiency 20%
• Climatic Condition 20%
• Finite Volume Method 20%
• Phase Segregation 20%
• Heat Storage 20%
• Materials Degradation 20%
• Free Implementation 20%

Material Science

• Optical Property 100%
• Thermal Cycling 100%
• Materials Degradation 100%