What To Look For With UV-Resistant Refrigeration Pipe Insulation

UV-Resistant Refrigeration Pipe Insulation

The need for UV-resistant refrigeration pipe insulation is common for installations on building exteriors, such as rooftops, to convey refrigerants between large roof-top HVAC systems and interior equipment to provide conditioned air to the building’s occupant spaces and equipment.

U.S. commercial energy codes and standards, such as ASHRAE 90.1 Energy Standard for Buildings Except Low-Rise Residential Buildings, International Energy Conservation Code® (IECC®), require refrigerant lines to be insulated. The codes and standards do specify the insulation thickness based on pipe size and line temperature, however, they do not specify the UV-resistant refrigeration pipe insulation type.

The energy codes and standards referenced above also require “protection from damage” when UV-resistant refrigeration pipe insulation will be exposed to the weather. Factors that can damage UV-resistant refrigeration pipe insulation include sunlight, moisture, severe weather, equipment maintenance, varmints, and birds. Yes, birds love insulation for nest-building!

With so many types of UV-resistant refrigeration pipe insulation to choose from (fiberglass, closed-cell flexible elastomeric foam, phenolic foam, polyisocyanurate, and cellular glass to name a few), how does a mechanical engineer choose the best UV-resistant refrigeration pipe insulation for their client project? 

While first costs (initial material and labor cost) are always a top concern to meet project budgets, other important factors such as energy efficiency, durability to exterior exposure, maintenance/repair, and replacement costs must also be evaluated when specifying UV-resistant refrigeration pipe insulation. 

Closed-cell flexible elastomeric foam pipe insulation has been a proven UV-resistant refrigeration pipe insulation solution in the U.S. for close to 70 years. Due to its lightweight closed-cell structure, built-in vapor retarder, excellent condensation control performance, flexibility, favorable thermal conductivity, national availability, and moderate cost, closed-cell flexible elastomeric foam is often specified to insulate commercial and industrial refrigerant lines. 

While other UV-resistant refrigeration pipe insulation types do require protective jacketing for interior and exterior installations, closed-cell flexible elastomeric foam UV-resistant refrigeration pipe insulation does not require protective jacketing for most interior applications. However, closed-cell flexible elastomeric foam UV-resistant refrigeration pipe insulation can be subject to mechanical damage and UV degradation in exterior applications over time. 

The following national and state energy codes/standards specifically require protection of UV-resistant refrigeration pipe insulation as follows:

IECC-2018 C403.11.3.1 Protection of piping insulation (Mandatory)

“Piping insulation exposed to the weather shall be protected from damage, including that caused by sunlight, moisture, equipment maintenance, and wind, and shall provide shielding from solar radiation that can cause degradation of the material. Adhesive tape shall not be permitted.”

https://codes.iccsafe.org/content/iecc2018/chapter-4-ce-commercial-energy-efficiency#IECC2018_CE_Ch04_SecC403

ASHRAE 90.1-2019 6.3.2.l

“Insulation exposed to weather shall be suitable for outdoor service, e.g., protected by aluminum, sheet metal, painted canvas, or plastic cover. Cellular foam insulation shall be protected as above or painted with a coating that is water retardant and provides shielding from solar radiation.”

https://ashrae.iwrapper.com/ASHRAE_PREVIEW_ONLY_STANDARDS/STD_90.1_2019

California Title 24 – 2019 4.4.1.2.F.2

“Cellular foam insulation shall be protected as above or painted with a coating that is water retardant and provides shielding from solar radiation that can cause degradation of the material.”

http://epubs.iapmo.org/2019/CMC/index.html

The most common closed-cell flexible elastomeric foam UV-resistant refrigeration pipe insulation is composed of a nitrile butadiene/PVC rubber (NBR/PVC) base which is subject to gradual UV degradation depending on the UV intensity that it is exposed to. 

Another UV-resistant refrigeration pipe insulation option is Ethylene Propylene Diene Monomer (EPDM) which has greater UV resistance than NBR/PVC and degrades at a slower rate than NBR/PVC. For example, EPDM rubber is often utilized in vehicle components due to its favorable durability and resistance to heat, condensation, and UV exposure.

When any closed-cell flexible elastomeric foam UV-resistant refrigeration pipe insulation is installed in an exterior setting, it should be protected from UV exposure to maximize the insulation’s life expectancy and life cycle costs for building owners. While the Aeroflex USA’s Aerocel® brand of EPDM closed cell flexible elastomeric foam UV-resistant refrigeration pipe insulation will degrade at a slower rate than NBR, it is not UV-proof. EPDM protective options include mechanical jacketing (i.e. metal or PVC) or Aerocel Aerocoat™ UV Protective Coating for energy code compliance. Since Aerocoat is specially formulated to protect EPDM rubber through expansion and contraction cycles with up to 400% elongation properties, it should not be substituted for standard white latex paint.

Aerocel’s EPDM UV-resistant refrigeration pipe insulation can deliver very favorable life cycle costs to building owners when properly protected from the exterior elements. To learn more, visit https://aeroflexusa.com/refrigeration-pipe-insulation.

 

Sources:

ASHRAE 90.1 Energy Standard for Buildings Except Low-Rise Residential Buildings

International Energy Conservation Code® (IECC®)

California Building Energy Efficiency Standards – Title 24