SINCERUS Linear UV Air Purification System | Performance Summary

SINCERUS Linear UV Air Purification System is a stand-alone air purification system that includes UVC bulbs and a MERV 5 particulate filter for safe, unobtrusive in-room air purification. Easily installed in the ceiling for a variety of new construction and retrofit applications, SINCERUS provides 100 CFM circulation of indoor air to protect building occupants from airborne pathogens.

The superior performance of SINCERUS provides a high level of air cleaning, leading to a reduction in the risk of airborne infection in any indoor environment. The SINCERUS system performance was evaluated in terms of the removal rates of common airborne harmful contaminants and allergens.

At the nominal design airflow of 100 CFM, and with a MERV 5 filter and two 55W UV bulbs with 17W of UV output each, the SINCERUS system provides removal rates of 99.9%.

Unobtrusive operation also makes this unit suitable for commercial, office, healthcare, education, or retail environment.

Introduction

SINCERUS is a UV air purification and particulate filtration system with a linear configuration, minimizing its visible profile and offering compatibility with modern architectural designs. It is intended to clean the air and neutralize harmful contaminants and allergens in a wide array of indoor environments. The system includes 2 ultraviolet (UV) bulbs, a MERV 5 particulate filter, and a fan that recirculates air locally at 100 CFM. such as in a hallway, waiting area or office space. Baffles within the system ensure that no hazardous levels of UV light escapes into the nearby occupied space. The system is designed to be non-disturbing in operation while delivering air of the highest purity, with neutralization rates approaching 100 percent. Targeted microorganisms include bacteria, fungi and viruses. This report summarizes the predicted performance of the unit in terms of UV dose and overall neutralization or kill rates of microbes.

System Description

The SINCERUS system is a six-inch by eight-foot linear configuration that includes UV bulbs, fans, filter, light baffles, and a UV irradiation chamber. Air is drawn into the unit, which is filtered and purified before being exhausted back into the occupied space. The MERV 5 filter is included to prevent dust from collecting on the UV bulbs in addition to removing a percentage of airborne contaminants. There are four ways to incorporate the Sincerus system in a ceiling: on-center or offset layouts, within a TECHZONE layout, and in drywall or ACOUSTIBUILT ceiling systems.


Components

The properties of the reflective material were provided in the manufacturer’s documents. The reflectivity of the specialty coated surface is over 90% in the targeted UVC spectrum. The nominal airflow is 100 CFM with an air velocity of approximately 835 fpm. The UV exposure time at this velocity is approximately 0.26 seconds.

The properties of the reflective material were provided in the manufacturer’s documents. The reflectivity of the specialty coated surface is over 90% in the targeted UVC spectrum. The nominal airflow is 100 CFM with an air velocity of approximately 835 fpm. The UV exposure time at this velocity is approximately 0.26 seconds.


Ambient Noise Level


SINCERUS Efficacy Testing Procedures

Test Procedure: A suspension of microorganism was aspirated into a chamber measuring 10' x 10' x 10' (1,000 cubic feet). After 1 hour, SINCERUS Linear UV was activated at 100 CFM and samples were taken from the chamber immediately before the unit was turned on and then at 15-minute intervals for two hours.

Test Procedure: A suspension of microorganism was aspirated into a chamber measuring 10' x 10' x 10' (1,000 cubic feet). After 1 hour, SINCERUS Linear UV was activated at 100 CFM and samples were taken from the chamber immediately before the unit was turned on and then at 15-minute intervals for two hours.

TABLE 2: BIOLOGICAL TESTING
Unit Test Setting: Device On Fan High
  Unit Test Run Time (minutes) Reduction (%)
Bacteria (E. Coli) 75 99.9
Fungi (Penicillium Citrinum) 105 99.9
Virus (PHIX174) 105 99.9

Summary and Discussion of Analysis Results

The analysis presented herein indicates that SINCERUS will produce high removal rates of harmful contanminants including bacteria, fungi, and viruses. With a total of 34W of UV output, a MERV 5 filter and an airflow rate of 100 CFM, Sincerus will produce average removal rates of 99.9%.


Resources

Raymond Frye Complex

The long history that endears the complex to the community presented multiple challenges as the county looked to reduce its energy spending and carbon footprint.

References and Bibliography

Kowalski, W. J., W. P. Bahnfleth, T. S. Whittam (1999). “Filtration of Airborne Microorganisms: Modeling and prediction.” ASHRAE Transactions 105(2), 4-17. http://www.engr.psu.edu/ae/wjk/fom.html.

Kowalski, W. J., and Bahnfleth, W. P. (2000). “UVGI Design Basics for Air and Surface Disinfection.” HPAC 72(1), 100-110.

Kowalski, W. J., and Bahnfleth, W. P. (2004). “Proposed Standards and Guidelines for UVGI Air Disinfection.” IUVA News 6(1), 20-25.

Kowalski, W. J., Bahnfleth, W. P., and Mistrick, R. G. (2005). “A specular model for UVGI air disinfection systems.” IUVA News 7(1), 19-26.

Kowalski, W. J. (2006). Aerobiological Engineering Handbook: A Guide to Airborne Disease Control Technologies. McGraw-Hill, New York.

Kowalski, W. J. (2007). “Air-Treatment Systems for Controlling Hospital-Acquired Infections.” HPAC Engineering 79(1), 28-48.

Kowalski, W. J. (2009). Ultraviolet Germicidal Irradiation Handbook: UVGI for Air and Surface Disinfection.Springer, New York.

Kowalski, W. J. (2011). Hospital Airborne Infection Control. Taylor & Francis/CRC Press, New York.