QuantaLamp 40-Watt Far UVC Excimer Bulb 222nm First-UVC F-Series First UVC 40w Far-UV Light 24V DC
Far-UVC 40w QuantaLamps should always be used in combination with other measures, like wearing face masks, distancing, and washing hands, to limit bio-agent viruses’ transmission.
One way 40-watts of Far–UVC 222 nm light is produced is by using Ø28*205mm high-frequency discharge excimer lamps filled with a noble gas molecule mixture krypton (Kr) and normally less than 3% chloride (Cl) gas. These Kr/Cl emissions peaks of 222 nm from excimer lamps eliminate the use of hazardous materials such as mercury.
This QuantaLamp 40-Watt Far-UVC Light provides the exact excimer lamp Far-UVC-light peak wavelengths necessary for AP-UVGI (Active Personnel Ultraviolet Germicidal Irradiation) FarUV lighting applications, using a narrow frequency band of EMR (Electro-magnetic Radiation) found to be human-safe at 222nm wavelengths in a narrow part of the electromagnetic spectrum referred to as Far-UVC light, which is generated by exciting KrCl molecules inside this QuantaLamp 40-Watt excimer Far-UV light bulb.
While UVGI dates back over 100 years, AP-UVGI is only starting to get noticed now, thanks to collaborated efforts spanning the last two decades from people worldwide.
The first breakthrough study into the effect of radiation from FAR-UV KrCl 222nm light and KrBr 207nm Far-UVC excimers were first used on microorganisms and chemical particles at Tomsk State University – at the Department of Cytology and Genetics – at the beginning of 2000. Thanks to these studies, it was found that, in terms of 222nm Far-UVC light technical parameters, excilamps are a very effective system for carrying out far-ultraviolet-c inactivation of viruses, bacteria, and pathogens. Dr. Eduard Sosnin supervised the research from the Faculty of Physics of Tomsk State University in Russia.
Human Safety Confirmation of AP-UVGI Wavelengths
David Brenner directs the Center for Radiological Research at Columbia University, Irving Medical Center in New York City. For nearly a decade, Dr. Brenner and his team have been developing the use of filtered 222nm Far-UVC irradiation from excilamps. At the proper distance, and when 222 nm band-pass filters are in place, these 40W Far-UVC lights can safely neutralize bacteria, bacterial spores, molds, yeasts, and viruses—including SARS-CoV-2 in areas with active personnel inside a Far-UVC light disinfection zone.
David Brenner leads the charge for change on a personal note, having lost a friend to preventable infection, putting the stamp of approval on filtered versions of excimer lamps emitting between 207nm and 222nm far-UVC light as safe for deployment in spaces occupied by Active Personnel inside areas undergoing the UVGI decontamination process.
Buy this Excimer 40-watt 222nm Far-UVC light for sale from a genuine ISO9001 Far-UVC Light Manufacturer (Quality Management System) delivered by the Agency for International Standardization.
These 40-Watt 222nm Far-UVC light excilamps or Excimer 40-Watt lamps can be safely used and integrated with 222nm band-pass filters into overhead lamps for occupied spaces in hospitals, buses, airplanes, trains, schools, restaurants, offices, theatres, gyms, anywhere that people gather indoors.
Quanta Products using QuantaLamp F28-40W DC24V 40-Watt Far UVC Excimer Bulb:
Input Voltage(V): DC 24V
Lamp Luminous Efficiency(lm/w): 6500
Support Dimmer: No
Lighting solutions service: 222nm Far UVC Light Disinfection
Lifespan (hours): 4000
Application: Home, Hotel, Office, Retail spaces, Occupied areas, General areas, Restaurants, Hospital, Commercial locations, Airport, School
Power Supply: DC
Light Source: Quartz Tube
UV Optiical Power(μW/cm2): 6500
Application Area(㎡): 30
Switch Mode: Manual Button
Rated Power: 40W
UV Wavelength: FAR-UVC Light 222nm
Input Voltage: DC24V
Safety Requirement: Mercury Free
Material: Quartz Glass
Operating Temperature Range:
-20℃ to +50℃ Warranty: 12 months
Beam Angle: 360 degree