About this course
Forget the theory. This course will fundamentally change the way you approach retrofit projects, while build your network of like minded professionals. Your practice will never be the same.
Learning Objectives
- How to assess if a house is a good candidate for a DER
- How energy is used in most houses, and how DERs change that
- Typical deficiencies of existing homes and how a DER addresses them
- Heat flow, moisture flow, vapor retarders, and how to perform a simple heat loss calculation
- Building blocks of a DER—air tightening, foundations, walls, windows, roofs—and the range of approaches that have been successful
- Heating, cooling, ventilation, and domestic hot water technologies
- Case studies of successful DERs
This course is included in this bundle
Course outline
Module 1 • 15 assignments
Introduction to Deep Energy Retrofits
Module 2 • 19 assignments
Deficiencies of existing houses and how a DER can help
Module 3 • 19 assignments
Building Science
Module 4 • 16 assignments
Air Barriers
Module 5 • 11 assignments
Foundation Approaches
Module 6 • 13 assignments
Wall Approaches
Module 7 • 9 assignments
Windows
Module 8 • 9 assignments
Roofs and Ceilings
Module 9 • 15 assignments
HVAC and DHW
Module 10 • 12 assignments
Successful Deep Energy Retrofit Case Studies
Conclusion • 5 assignments
Feedback and Additional Resources
Continuing Education Units
Approved for the following CEUs
- 12 AIA LU/HSW Credits
- 12
- 6
- 13.5 PHIUS CPHC CEUs
- 12 Professional Development Contact Hours
Author

Marc Rosenbaum
Marc Rosenbaum, P.E. uses an integrated systems design approach to help people create buildings and communities which connect us to the natural world, and support both personal and planetary health. He brings this vision, experience and commitment to a collaborative design process, with the goal of profoundly understanding the interconnections between people, place, and...