- Beyond Sustainability - The Case for Regenerative Design
- Understanding Place - Climate, Site, and Solar Geometry
- The Six Integrated Systems - An Overview
- Building with the Earth—Natural Materials
- Passive Solar Design - Heating and Cooling Without Machines
- Off-Grid Energy Systems - Power from the Sun
- Water - Catching, Storing, and Cycling
- Liquid Waste Treatment - Botanical Systems
- Food Systems—Buildings That Feed
- Community Design - Scaling Up
- The Integrated Design Process
- Appendix A: Glossary of Key Terms
- Appendix B: The Pangea Textbook Series
- Appendix C: Key Design Principles at a Glance
- The Regenerative Community Vision
- Site Assessment and Land Reading
- Land Use Law and Legal Frameworks
- Master Planning for Regenerative Communities
- Infrastructure Systems Integration
- Housing Typologies and Density Design
- Community Governance Structures
- Economic Models for Community Development
- Phased Development Strategy
- Community Resilience and Long-Term Stewardship
- Appendix A: Legal Entity Comparison Chart
- Appendix B: Community Design Checklist
- Appendix C: Glossary of Community Development Terms
Building orientation is the most impactful single decision in passive solar design. Passive solar pioneer Doug Balcomb famously observed that “orientation is 80 percent of passive solar design.” Once a building is oriented correctly, all other passive solar strategies — glazing sizing, thermal mass, shading — work together to amplify its performance. A building oriented incorrectly cannot be adequately corrected by any amount of thermal mass or glazing optimization.
In the northern hemisphere, the primary solar glazing surface of a passive solar building should face true south. In practice, up to 20 degrees east or west of true south is acceptable without significant performance loss. Orienting the building’s long axis east-west maximizes the south-facing wall area and minimizes the east and west exposures, which receive low-angle morning and afternoon sun that is difficult to shade in summer.
Pangea generally recommends orienting buildings approximately 13.5 degrees east of magnetic south. This allows the building to capture the morning sun, which is valuable in cold climates because the building has been losing heat all night and benefits from early solar gain. The east bias also means the building’s primary south glazing reaches peak solar gain earlier in the day, before the afternoon temperature peak — useful for thermal management in hot climates.
Note that magnetic south and true south differ by an amount called magnetic declination, which varies by location and changes over time. For precise solar design, always work from true south, not magnetic south.