How much energy can you save without compromising indoor air quality? That’s the question TelosAir set out to answer, and thanks to a recent third-party study led by the New York State Pollution Prevention Institute (NYSP2I) at Rochester Institute of Technology (RIT), we now have powerful data to back up our claims.

The easy operation and low noise of the Trio units enabled their deployment over a long duration for routine measurement in a well-trafficked area. The effective collection of bioaerosols allowed for detailed analysis of the composition of the air, specifically biological particles in air. In addition to the real-time measurements of common indoor pollutants that were also measured by the unit, we were able to provide the Village with the definitive proof they needed that their mitigation measures were indeed working, providing assurance that Village residents and workers were safe in the indoor spaces purified by the CASPR units.

The mesh-networked Duet sensors were easy to deploy in multiple locations without having to connect to local Wi-Fi: the entire store with 10 sensors was covered using a single gateway. The compact size of the sensors allowed their widespread use without impacting the store’s operations. Our study resulted in our client upgrading their air purifier units and placing them optimally to ensure that their customers had the safest air possible.  Sam’s Club also gained a quantitative perspective of airborne matter and related health risk.

The deployment of a sensor network allowed us to analyze the connections between air quality in the different spaces of the hospital. Our automated analysis determined that air quality in some spaces was linked to other spaces, and thus, any pathogens released in one of these spaces could spread to other spaces. Additionally, we determined that operating the ventilation system to maintain particle concentrations recorded by the Duet sensors to be below a threshold value, could result in safer operation of the facility.