Louver Design for Prevention of Airborne Disease Transmission

Norm Grusnick

By / Norm Grusnick
P.Eng., ECCO Supply

Even the most robust HVAC system cannot control all airflows and completely prevent dissemination of an infectious aerosol or disease transmission by droplets or aerosols. An HVAC systems’s impact will depend on source location, strength of source, distribution of the released aerosol, air distribution, and filtration. Furthermore, there are multiple modes and circumstances under which disease transmission occurs. Thus, strategies for prevention and risk mitigation require that all stakeholders collaborate in the design process.

With the arrival of the COVID-19 pandemic, building managers and HVAC designers have been challenged with providing a comfortable indoor environment that is as safe as possible for the occupants. A recently published document from ASHRAE offers several strategies for the design and operation of HVAC systems that may reduce infectious aerosol transmission. Among the strategies identified, increasing outside air ventilation and running HVAC systems longer are suggestions for outdoor air dilution and replacement.

For systems that use in take louvers, increased airflow and longer operation cycles could increase water penetration through existing louvers causing building damage and indoor air quality issues. Retrofitting with more efficient louvers might be a consideration. For new systems, proper louver selection is vital in designing an effective HVAC system.

Wind-Driven Rain Resistant Louvers provide superior rain protection making them the best choice for new system designs and retrofits. AMCA 500-L Wind-Driven Rain  Class A rated louvers allow only a few ounces of water penetration in an hour vs. several gallons through a traditional drainable louver in storm conditions.

Wind-Driven Rain Resistant Louvers are available in horizontal and vertical blade models. Horizontal models can often be sized comparably to traditional louvers for a given airflow with similar pressure drop and high rain rejection effectiveness. Vertical blade models that provide the best rain resistance usually handle the highest air volumes through a given size. For the most demanding applications, AMCA-550 compliant models are available providing 99% rain rejection.

Providing constant airflow and outside air circulation, while keeping water out of a building reduces damage and limits mold and dampness. Both of these are proven to be negative contributors to indoor air quality. Referencing ASHRAE Position Document on Infectious Aerosols, additional  moisture in the air system can propagate infection. Specifying louvers made by manufacturers that subscribe to AMCA Certified Ratings is highly recommended for all louver applications. ■

References:
ASHRAE Position Document on Infectious Aerosols
AMCA 511 Certified Ratings Program