On Thursday, September 26, 2024 AND Thursday, October 3, 2024, the Maine Indoor Air Quality Council will be hosting two, one-hour webinars featuring Henri Fennell, a building envelope specialist and architect with extensive experience developing and implementing remediation plans and standards for misapplied spray foam projects.

September 26, 2024 Session: Investigation of Spray Foam Insulation Odors and Air Quality Problem Sources Using Air Testing Combined with Bulk Foam Off-Gas Sampling
4:00 p.m. – 5:15 p.m., Via Zoom

AND

October 3, 2024 Session: Introduction to Low-Cost Remediation of Misapplied Foam
4:00 p.m. – 5:15 p.m., Via Zoom

About These Programs

Investigation of Spray Foam Insulation Odors and Air Quality Problem Sources Using Air Testing Combined with Bulk Foam Off-Gas Sampling
(Thursday, September 26 at 4:00 p.m.):

Spray foam insulation (SPF) installations frequently result in odor and/or IAQ complaints by the occupants of the home or building where the installation has occurred. When the installation is performed properly with the correct mixing and ratio of Side A (isocyanate) and Side B (polyol), any vapors associated with the installation will rarely off-gas for more than a few days.

​However, when misapplication occurs, the off-gassing may persist for an indefinite period of time and the foam may perform as insulation but the odor and/or air quality health issues will not be acceptable to the owner. In these cases, air testing using thermal desorption tubes or canisters is frequently the only testing performed to determine the volatile organic compounds (VOCs) present in the home or business, usually using industry-standard test protocols (TO-15, etc.).

In this presentation, a different approach will be described for determining the source of the suspected SPF VOCs. Air testing is performed in the areas where a spray foam installation has occurred, but in addition, off-gas tests of bulk foam and substrate materials, such as wood, have also been tested. Comparison of the VOC results from both air and bulk foam/substrate materials can then determine if the SPF is the source of the volatile compounds, and if the concentrations in the air exceed the permissible exposure levels.

Learning Goals:

By attending this session, attendees will:
• Be introduced to how SPF can be misapplied and identified
• Learn how to collect samples
• Be introduced to how air test results are compared to bulk foam off-gassing test results to prove causation

Introduction to Low-Cost Remediation of Misapplied Foam
(Thursday, October 3, 2024 at 4:00 p.m.):

It is generally accepted that the only guaranteed remediation for misapplied foam is its complete removal. This method is almost always catastrophically disruptive and expensive. A new method, with a high success rate, but with an “orders of magnitude” lower cost, uses an isolation and depressurization approach similar to radon mitigation. Seven case studies of successful remediation projects will illustrate this “interstitial space depressurization system.”

Learning Goals:

By attending this session, attendees will:
• Learn how to design an interstitial space depressurization system for misapplied foam projects
• Be able to select and size the equipment required for this system
• Be able to verify that the system is providing a safe indoor environment before allowing re-occupancy

About the Presenter: Henri Fennell, CSI/CDT

Henri Fennell is a building envelope specialist and architect with forty-five years of experience in energy conservation design, manufactured products, and services. His work with polyurethane foam began during the energy crisis of the 1970s. His experience has included practicing architect and building envelope remediation and commissioning consultant. Major historic projects include the Guggenheim Museum. He has designed several new micro-load buildings, including a cutting-edge net-zero energy research structure in Antarctica.

For the last ten years he has developed and implemented remediation plans and standards for misapplied foam projects. He has four energy-related U.S. patents, and has contributed to ASTM standards, ASHRAE Journal, and is often cited in articles related to energy conservation and building performance.

Continuing Education Units

Type of Credit# Credits
BPIApproved for 1 CEU
Program #19724\#19727
Code Enforcementpending
USGBCSelf-Report with Certificate of Attendance
EngineersSelf-Report with Certificate of Attendance
ACACSelf-Report with Certificate of Attendance
CSISelf-Report with Certificate of Attendance
Cert. Energy AuditorsUse BPI credits.
AIA (Architects)Approved for 1.25LU each
Program #8.2024.27 & 8.2024.28
Maine Real Estate ProfessionalsNot Available
Home Inspectors (ASHI)pending

To register, click on registration icons at top of page.