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Optimizing Energy Efficiency and Thermal Comfort with Radiant Heating and Cooling, 2025
- Slide 1
- Slide 2: Optimizing Energy Efficiency and Thermal Comfort with Radiant Heating and Cooling
- Slide 3
- Slide 4
- Slide 5
- Slide 6: How to Use This Online Learning Course
- Slide 7: Purpose and Learning Objectives
- Slide 8: Contents
- Slide 9: Introduction: What Is Radiant Heating and Cooling?
- Slide 10: What Is Radiant Heating and Cooling?
- Slide 11: What Is Radiant Heating and Cooling?
- Slide 12: How Radiant Systems Work
- Slide 13: Achieving Thermal Comfort
- Slide 14: Achieving Thermal Comfort
- Slide 15: Achieving Thermal Comfort
- Slide 16: Radiant System Advantages: Energy Efficiency
- Slide 17: Radiant System Advantages: Energy Efficiency
- Slide 18: Radiant System Advantages: Quiet
- Slide 19: Radiant System Advantages: Zone Heating/Cooling, Humidity Control, and Space Savings
- Slide 20: Radiant System Advantages: Design Options
- Slide 21: Radiant Systems Contribute to Green Building Certification
- Slide 22: Radiant Systems Contribute to Green Building Certification
- Slide 23: Radiant Systems Contribute to Green Building Certification
- Slide 24: Radiant Systems Contribute to Green Building Certification
- Slide 25: Review Question
- Slide 26: Review Question
- Slide 27: Types and Design of Radiant Systems
- Slide 28: General Considerations
- Slide 29: Low-Mass Systems
- Slide 30: Low- and High-Mass Systems
- Slide 31: Linear Perimeter Radiant Ceiling Panels
- Slide 32: Industrial Ceiling Panels
- Slide 33: Industrial Ceiling Panels
- Slide 34: Radiant Ceiling Panels with Aluminum Conduction Plate Activation
- Slide 35: Radiant Ceiling Panels with Aluminum Conduction Plate Activation
- Slide 36: Expanded Natural Graphite Heating and Cooling Panels
- Slide 37: Expanded Natural Graphite Heating and Cooling Panels
- Slide 38: Integrating Radiant Systems into the Building Fabric
- Slide 39: Integrating Radiant Systems into the Building Fabric
- Slide 40: Integrating Radiant Systems into the Building Fabric
- Slide 41: Integrating Radiant Systems into the Building Fabric
- Slide 42: Integrating Radiant Systems into the Building Fabric
- Slide 43: Integrating Radiant Systems into the Building Fabric
- Slide 44: Integrating Radiant Systems into the Building Fabric
- Slide 45: Integrating Radiant Systems into the Building Fabric
- Slide 46: Integrating Radiant Systems into the Building Fabric
- Slide 47: Review Question
- Slide 48: Review Question
- Slide 49: Standards, Site Conditions, and Installation Procedures
- Slide 50: Standards
- Slide 51: Standards
- Slide 52: Site Conditions Affecting Radiant Output
- Slide 53: Site Conditions Affecting Radiant Output
- Slide 54: Installation Considerations
- Slide 55: Review Question
- Slide 56: Review Question
- Slide 57: Sample Installations
- Slide 58: American Geophysical Union, Washington, DC
- Slide 59: American Geophysical Union, Washington, DC
- Slide 60: American Geophysical Union, Washington, DC
- Slide 61: American Geophysical Union, Washington, DC
- Slide 62: Manufacturing Plant and Offices, Buffalo, New York
- Slide 63: Manufacturing Plant and Offices, Buffalo, New York
- Slide 64: Manufacturing Plant and Offices, Buffalo, New York
- Slide 65: Service Train Maintenance Station
- Slide 66: Service Train Maintenance Station
- Slide 67: Warehouse Dock Door
- Slide 68: Summary and Resources
- Slide 69: Summary
- Slide 70: Resources
- Slide 71: Thank You [Go to Page]
