Video: Better Residential Energy Performance with Continuous Insulation
Continuous Insulation (CI) is now defined in the IBC as follows: "Insulating material that is continuous across all structural members without thermal bridges other than fasteners and service openings. It is installed on the interior or exterior, or is integral to any opaque surface of the building envelope."
Today CI is virtually required in commercial construction. But residential walls, typically framed with wood, not steel, have less of an issue with thermal bridging. So is the use of CI on these types of structures worth it? Absolutely! CI will improve any wall, particularly if the goal is to have the perfect energy efficient wall.
While you might not need to replace all of the cavity insulation of a wood-framed wall with continuous insulation, even just a thin layer makes a big difference. By enclosing the framing members in insulation, you are keeping them from larger temperature fluctuations that can promote condensation and the adverse effects that take place when wood is wet for long periods of time. Also, continuous insulation can often be used as an all-in-one WRB, air barrier and vapor retarder, simplifying construction. To learn about these applications and more, visit continuousinsulation.org for research reports, step-by-step guides, articles, and helpful tools like the wood wall calculator.
As an introduction, here’s a short video explaining the basics of wood-framed wall design:
For additional information, please review the following articles, as well as the previous videos in this series:
- Creating the ‘Perfect Wall’: Simplifying Water Vapor Retarder Requirements to Control Moisture
- Perfect Walls are Perfect, and Hybrid Walls Perfectly Good
- Wood Framed Wall Insulation Calculator Explained
- New Wall Design Calculator for Commercial Energy Code Compliance
- Energy Code Math Lesson: Why an R-25 Wall is Not Equal to a R-20+5ci
- Continuous Insulation Solves Energy Code Math Problem
- Fear Building Envelopes No More with This Website & Videos
- Thermodynamics Simplified Heat Flows from Warm to Cold
- Moisture Flow Drives Water Induced Problems
- Video: How the 'Perfect Wall' Solves Environmental Diversity
- Video: How Important Is Your WRB?
- Video: A Reliably Perfect Wall Anywhere
- Video: The Best Wall We Know How to Make
- Video: How to Insulate with Steel Studs
- Video: Thermal Bridging and Steel Studs
- Video: Better Residential Energy Performance with Continuous Insulation
- Video: How to (Not) Ruin a Perfectly Good Wall
- Video: Tar Paper and Continuous Insulation? No Problem!
- Video: Do CI and WRBs Go Together?
- Video: Assess Your 'Perfect Wall' Using Control Layers