Lab tested by Jagiellonian University Microbiology Department - Krakow, Poland

Lab tested by a leading European university, the observed pathogen reduction rate of the UV-C Towers proved both effective and rapid within minutes: a key component in a layered strategy to combat treatment-resistant pathogens including C0VID-19, C. difficile, and MRSA.*

* Report issued June 21, 2021 by Medical College, Department of Microbiology, Jagiellonian University, Krakow.

Why UV BioClean Towers?

No Low Value Hype - Only Economical High UVC Power

Don’t spend $50,000-$150,000 for unnecessary and flawed technology with huge annual maintenance fees.

UV BioClean focuses on disinfection results, beginning at $9,999 with a complimentary $1,495 DoseEZ annual subscription.

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Room Mapping Tower Flaws

Cosine Correction of UVC Light

Many, perhaps all, UVC towers and robots map rooms with LIDAR. They calculate UVC Dose based upon distance from the lamps to the room surfaces. However, they do not correct for Cosine angle of incidence loss of UVC intensity. Thus, a flat wall directly in front of the lamps has a 0-degree angle. Any wall, bed, table or other surface that is horizontal or at an angle >0-degrees, has significant reductions in actual UVC Dose, as shown in the graphic below.

Why do they not correct for Cosine errors? Angles are continually getting larger as non-zero degree surfaces get further from the lamps. Calculations become extremely complex and can even be compound angles, which cannot be calculated with the processor in a tower. Thus, a true digital sensor, such as DoseEZ, is needed for true UVC Dose validation!

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Towers Using UVC Reflectance Flaws

Different Materials Reflect UVC Differently or Not-At-All

A tower or robot that relies on UVC reflecting back to UVC sensors on the tower has dual problems. First and foremost, reflectivity of the surface is not known. As the table below shows, the listed materials’ reflectance can vary between 0% and 67%!

Secondarily, the most distant flat surface providing the largest amount of reflectance is typically a number of feet from the lamps. The Inverse Square Law, which shows that the Energy is reduced by the SQUARE of the longer distance, is depicted below, e.g. 4X the distance is a reduction to 1/16 Energy.

For towers’/robots’ sensors using reflected UVC to calculate how much UVC “hit” the reflecting wall will often be trying to measure infintesimal amounts of UVC given the distance to the wall and distance back to the tower. This is further reduced by poor, if any, surface reflectance.

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UV BioClean Towers with DoseEZ Sensors

Powerful, ozone-free, 360-degree room coverage
a Rugged commercial HMI touch screen computer with software applications developed in partnership with Eaton.
Outstanding safety features designed to protect users from harmful UV-C light
User-friendly interface with easy to use applications such as:
- Disinfection tracking by room and by user.
- Room-based run time customization.
- Disinfection interruption warnings and notifications.
- UVC tube maintenance monitoring.
- Administrator and operator user identifications with passcodes to restrict access.
Plus all of the DoseEZ capabilities!

UV BioClean T-80

Disinfection Power: 300W
4 x 75 W Philips UV-C fluorescent tubes with shatter resistant safety encapsulation. 9,000 hour rated lifespan.
4-PIR Sensors for maximum protection.
Specifications: 5′ H x 16.5″ x 16.5″, 31 lbs.

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UV BioClean T-800

Disinfection Power: 580W
4 x 145 W Philips UV-C fluorescent tubes with shatter resistant safety encapsulation. 9,000 hour rated lifespan.
Eaton 5.7″ Commercial HMI Touch Screen.
4-PIR Sensors for maximum protection.
USB port for Eaton data export.
Specifications: 6′ H x 20″ x 20″, 71 lbs.

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UV BioClean T-8K

Disinfection Power: 1,160W
8 x 145 W Philips UV-C fluorescent tubes with shatter resistant safety encapsulation. 9,000 hour rated lifespan.
Eaton 5.7″ Commercial HMI Touch Screen.
4-PIR Sensors for maximum protection.
USB port for Eaton data export.
Specifications: 6′ H x 24″ x 24″, 87 lbs.

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Safe and Effective Disinfection

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Superior Lab Results

The UV-C Towers were studied by Jagiellonian University in conditions far exceeding the environmental contamination of hospital wards in real conditions [suspensions of microorganisms with densities of 1-6.4E +6 CFU/ml cultured in growth medium).

The tables below show the respective run times needed by each tower for the targeted pathogen reduction at the distance from the tower. The results were obtained by measuring the power of UV-C light at specific distances. The power in [mW/cm²] multiplied by the time unit [sec] makes it possible to calculate the radiation dose in [mJ/cm²].