BELIEVE IN OUR DEMONSTRATED OUTCOMES
CoilSafe®
CoilSafe® is our thin-film inorganic coating solution that protects the heat exchanger coil in your HVAC systems.
Designed to restore and protect HVAC coils, CoilSafe® helps your system run closer to its original factory efficiency.
10%
Improvement In HVAC Efficiency
8-10
Microns Thin
Why Clients Love CoilSafe®
01
CoilSafe® is currently the most efficient technology available, allowing for on-site application to both new and existing HVAC systems
02
CoilSafe® reduces hourly kilowatt usage, thus reducing energy consumption immediately and drastically
03
CoilSafe® prevents corrosion from eating into your equipment’s useful years of service, and makes maintenance easier
04
CoilSafe® is a one-and-done solution that will extend the life of the unit far beyond standard use.
05
CoilSafe® delivers rapid ROI on a minimal capital investment within 12-36 months.
06
CoilSafe®, being an antimicrobial solution, helps sustain indoor air quality, protecting those inside the building.
Engineered for Efficiency
HVAC systems are among the largest energy consumers in commercial buildings, often accounting for 50% or more of total energy use. In harsh climates or dense urban environments, the strain is even greater. That’s where our coating makes the difference.
CoilSafe® is a high-performance coil coating designed to restore and protect HVAC coils, helping your system run closer to its original factory efficiency and use significantly less energy.
Precision Performance
CoilSafe® wicks deep into the coil’s structure, bonding at a molecular level to every crack, crevice, and connection. It retightens the critical bond between the fin shoulder and the copper tubing, restoring energy transfer and improving system performance, as measured in kilowatts per ton (kW/ton).
Most importantly, our coating forms a permanent covalent bond so that it won’t flake, peel, or degrade—even in extreme conditions.
Inorganic & Antimicrobial
CoilSafe® is inorganic and antimicrobial by design. Its glass-like layer resists mold, mildew, bacteria, and environmental debris that can clog and corrode coils. This protection extends coil life and helps maintain better indoor air quality.
The Power
of Thin
Unlike traditional organic coatings that are thick and inefficient, CoilSafe® is just 8-10 microns thick—about 40 times thinner than standard coatings. This ultra-thin layer doesn’t block airflow or heat transfer. Instead, it improves coil performance by targeting the key areas where efficiency is lost over time.
Why It Works—When Others Don’t
Most epoxy and polyurethane coil coatings are 4–8 mils thick and were never designed to improve efficiency. They can actually reduce heat exchange and airflow, doing more harm than good.
CoilSafe® is different. Inorganic chemistry, ultra-thin film, and superior adhesion combine to deliver long-term performance, energy savings, and real ROI.
CoilSafe® Testing
ASTM G50 Atmospheric Corrosion Test
25,000 Hrs. Completed
This testing method is a validated approach for evaluating material performance under natural environmental conditions.
ASTM G31 Field Corrosion Exposure Report
26,200 Hrs. Completed
ASTM G31 is a key standard guide for conducting laboratory immersion corrosion tests on metals, providing procedures for specimen preparation, apparatus setup, test conditions, and data analysis, helping engineers design reliable tests to predict material degradation by immersion in corrosive liquids, and it emphasizes recording all data for accurate corrosion rate calculation
ASTM B117 Salt Fog Test
6,000 Hrs. Completed
This test replicates conditions in which metal is exposed to sea air and determines corrosion resistance in a coastal environment.
ASTM G85 Acidified Sea Water Test
4,000 Hrs. Completed
This test uses a seawater solution with added acid and submerges the coated metal in it to assess corrosion resistance in a harsher environment. More aggressive test than B117.
ASTM G21 Fungal Growth Test
Zero Growth or Colonization
This test places a measured amount of fungal growth on the coated sample for a specified period to determine whether the coated surface supports fungal growth. Our sample had zero growth.
RoHS 2: Recasting 2002/95/EC
Heavy Metal/Toxicity Test
Passed for CoilSafe®, per European lab testing standards for building materials.