Are you worried about the quality of the air where you live or work? Do you want to make sure you and your family are breathing clean air that is free of germs? If so, you need to know about UVC that kills germs.
UVC light is used by this powerful technology to kill bacteria, viruses, and other harmful microorganisms in the air.
And what’s best? It can now be found in air purifiers, which makes it easier than ever to keep the air inside your home clean and healthy.
In this article, I’ll talk about the benefits of germicidal UVC and why everyone who wants to breathe easy should have it.
So, take a seat, relax, and get ready to learn about UVC light’s power.
Understanding Germicidal UVC
Germicidal UVC is when ultraviolet (UV) light is used to kill viruses, bacteria, and fungi.
UVC radiation is a known disinfectant for air, water, and nonporous surfaces.
It has been used successfully for decades to stop bacteria like tuberculosis from spreading.
Because they can kill germs, UVC lamps are often called “germicidal” lamps.
Upper-Room Ultraviolet Germicidal Irradiation (UVGI)
Upper-Room Ultraviolet Germicidal Irradiation (UVGI) is a type of germicidal UVC that can help reduce exposures to SARS-CoV-2 in some group settings.
UVGI fixtures give off UV-C energy, which has shorter wavelengths than UV-A and UV-B rays and is less dangerous to people’s health.
The virus that causes COVID-19 can be killed by a UVGI system that was professionally designed, installed, and kept up.
This can help keep people from getting the disease inside.
Consumer UVC Germicidal Devices
Consumer UVC germicidal devices are coming onto the market quickly because COVID-19 has made people want to clean and kill germs more than ever. But there are risks to being exposed to UVC, and too much UVC can be harmful. If you want to install a UVGI system in your building, you should talk to people who have done it before. Using a UVGI system is not enough to protect people from COVID-19. It should be used with other best practices recommended by the Centers for Disease Control and Prevention.
How Germicidal UVC Works
Germicidal UVC lamps use ultraviolet-C (UV-C) radiation to kill or stop microorganisms from working by destroying their nucleic acids and messing up their DNA.
This makes them unable to perform important cellular functions.
UV-C radiation has been used for decades to stop the spread of bacteria like tuberculosis.
It can clean the air, water, and nonporous surfaces.
UVGI fixtures give off UV-C energy, which has shorter wavelengths than UV-A and UV-B rays and is less dangerous to people’s health.
UVC Germicidal Lamp
A UVC germicidal lamp is an electric light that makes UVC light, which breaks up the pairing of the bases in DNA.
This base-pairing of ultraviolet light in the LED germicidal lamp makes pyrimidine dimers, which kill protozoa, viruses, and bacteria.
The length of time a microorganism is exposed to germicidal UV, the intensity and wavelength of the UV radiation, the presence of particles that can protect microorganisms from UV, and a microorganism’s ability to withstand UV during its exposure all affect how well UV kills germs.
Effectiveness Against SARS-CoV-2
The outer protein coating of the SARS-Coronavirus, which is not the same virus as the current SARS-CoV-2 virus, can be destroyed by UVC radiation.
But UVC radiation is known to kill germs in the air, water, and on surfaces that don’t have pores.
This is why UVC lamps are often called “germicidal” lamps.
Many of the UVC lamps that can be used at home have a low dose, so it may take longer for a given surface area to be exposed to the light for it to kill bacteria or viruses.
Safety Precautions
The safest way to use UVC radiation to clean the air is inside air ducts, since direct exposure to UVC can hurt the skin or eyes. Installing UVC inside an air duct makes it less likely that skin or eyes will be exposed to UVC. If you want to install a UVGI system in your building, you should talk to people who have done it before. Using a UVGI system is not enough to protect people from COVID-19. It should be used with other best practices recommended by the Centers for Disease Control and Prevention.
Benefits and Safety of Germicidal UVC
Germicidal UVC: An Effective Air Purifier
Germicidal UV-C radiation has been used for decades to stop the spread of bacteria like tuberculosis.
It is often called “germicidal” radiation.
UV-C radiation is known to clean the air, water, and surfaces that don’t have pores.
UV-C radiation is often used to clean the air inside air ducts.
This is the safest way to use UV-C radiation, since it can hurt your skin or eyes if it comes in direct contact with them.
UV air purifiers use short-wave UV-C light to kill mold, bacteria, and viruses that are floating through the air.
UV air purifiers, also called UV germicidal irradiation (UVGI) air purifiers, are made to get rid of pollutants in the air inside.
UV-C air purifiers can be set up in many different ways, and the results can vary.
When used with HEPA filters, UV air purifiers are good at getting rid of bacteria in the air.
But UV air purifiers can put out ozone gas, which can make it hard for people to breathe, especially those with asthma.
Upper-Room UVGI: A Supplement to Infection-Control Strategies
Germicidal UV can be used to improve and add to other ways to stop infections, like changing the air in a room.
Upper-room UVGI is a system where air from HVAC systems, fans, and/or open windows moves through the disinfection zone.
Once they get enough UV energy, the airborne pathogens are killed.
The particles are still in the air, but they are no longer dangerous.
In some group settings, upper-room UVGI works to cut down on SARS-CoV-2 exposure.
Safety Precautions for Germicidal UVC
The Centers for Disease Control and Prevention (CDC) says that UVGI fixtures give off UV-C energy, which has shorter wavelengths than UV-A and UV-B rays and is less harmful to human health.
But direct exposure to UVC radiation can hurt a person’s skin and eyes, so it’s important to use UVC radiation inside air ducts or in UVGI fixtures in upper rooms, where it’s less likely to reach skin and eyes.
UVC lamps that are used to disinfect may pose health and safety risks, depending on the wavelength, dose, and length of exposure to the UVC radiation.
The risk may go up if the unit isn’t set up correctly or if people who aren’t trained use it.
So, it’s important to think about both the risks UVC lamps pose to people and things and the chance that the virus won’t be killed completely.
A new study found that continuous low doses of far ultraviolet C (far-UVC) light can kill flu viruses in the air without hurting human tissues.
Far-UVC light has a very small range and can’t get through the top layer of dead skin cells or the layer of tears in the eye, so it doesn’t pose a health risk to people.
But traditional UV light that kills germs can cause skin cancer and cataracts, so it can’t be used in public places.
Because of this, it is important to use UVC radiation carefully and follow safety rules to keep people from getting hurt.
Maintenance and Effectiveness of Germicidal UVC
Germicidal UVC: An Effective Air Purifier
Germicidal UVC bulbs are often used in air purifiers because they kill germs and other small living things.
But it’s important to remember that these bulbs should be changed every year, even if they seem to be working fine.
This is because the bulbs’ ability to kill germs and other microorganisms gets worse over time as they make less UVC energy.
Factors Affecting Bulb Replacement Frequency
How often you need to change the bulbs may depend on things like how often you use the system and if anyone in your home has allergies or asthma.
If someone in the house has allergies or asthma, it’s important to change the UV lightbulbs on a regular schedule to make sure the system works.
Importance of Regular Bulb Replacement
It is important to remember that the system may not need to be replaced, but the UV lamp must be changed for the system to work.
Even if they haven’t burned out, UV lights may not kill germs and other tiny living things as well after the first year.
Effectiveness of UVC Radiation
Ultraviolet-C (UVC) radiation is known to kill germs in the air, water, and on surfaces that don’t have pores.
UVC radiation has been used to stop the spread of bacteria like tuberculosis for many years.
UVC radiation can kill a virus if it comes in direct contact with the virus.
So, UV radiation may not be able to kill viruses on surfaces because soil, like dust, or other contaminants, like body fluids, can block it.
Low Dose UVC Lamps
Many of the UVC lamps that can be used at home have a low dose, so it may take longer for a given surface area to be exposed to the light for it to kill bacteria or viruses.
UVGI Fixtures
UVGI fixtures give off UV-C energy, which has shorter wavelengths than UV-A and UV-B rays and is less dangerous to people’s health.
Viral, bacterial, and fungal organisms can all be killed by UV-C energy.
In some group settings, upper-room UVGI can help cut down on SARS-CoV-2 exposure.
The virus that causes COVID-19, SARS-CoV-2, can be killed by UV-C, according to early tests.
Far-UVC Fixtures
Pathogens like viruses, bacteria, mold, and fungus can be killed or stopped from spreading by UV-C.
Far-UVC fixtures are able to fight germs in a room all the time.
But UVC light can burn skin in a matter of seconds, and UVC light made by people is just as strong as UVC light from the sun.
So, it’s important to be careful when using UVC lamps and wands and to follow safety rules.
Germicidal UVC bulbs are an effective way to clean the air, but they need to be replaced every year to keep working.
UVC radiation is known to kill germs in the air, water, and on nonporous surfaces.
UVGI and Far-UVC fixtures can help reduce SARS-CoV-2 exposure.
But it’s important to be careful when using UVC lamps and wands and to follow safety rules.
UVC Disinfection: The Key to Effective Air Purification
Germicidal UVC technology is becoming increasingly popular in air purifiers due to its ability to effectively eliminate harmful microorganisms such as bacteria, viruses, and mold spores.
UVC disinfection works by emitting short-wavelength ultraviolet light that damages the DNA and RNA of these microorganisms, rendering them unable to reproduce and causing them to die off.
This technology is particularly important in indoor environments where airborne pathogens can easily spread and cause illness.
By incorporating UVC disinfection into air purifiers, users can breathe cleaner, healthier air and reduce the risk of infection.
It is important to note that UVC disinfection should be used in conjunction with other air purification technologies for optimal results.
For more information:
UVC Disinfection: Air Purifier FAQs
Comparison and Combination with Other Air Purification Methods
Germicidal UVC: An Effective Method of Air Disinfection
Since the 1930s, germicidal ultraviolet irradiation (GUV) has been used to stop infections that spread through the air.
GUV makes short-wavelength light in the UVC spectrum between 200 and 280 nm, which messes with the DNA of microorganisms like viruses and bacteria.
GUV can sterilize the air well while staying below the limits set by OSHA.
It has been used safely in a number of settings.
GUV can also be put in the ducts of heating, ventilation, and air conditioning (HVAC) systems.
As air moves through the ducts, it irradiates potentially infectious airborne particles.
UV Air Purifiers and HEPA Filters
When used with HEPA filters, UV air purifiers that use UV light to find and kill viruses and bacteria in the air work well to remove bacteria from the air.
HEPA filters can get rid of up to 99.99% of allergy-causing particles in the air, like PM2.5, PM10, dust, pollen, dander, and other particles as small as 0.1 microns.
But HEPA filters can’t catch or get rid of bacteria and viruses.
This is where UVC that kills germs comes in.
Germicidal UVC is a powerful energy that can kill microorganisms and pathogens.
It does this by stopping the growth of bacteria and viruses.
UV Air Purifiers and VOCs
Volatile organic compounds (VOCs) can’t be taken out of the air by UV air purifiers.
The Environmental Protection Agency (EPA) says that some UV air purifiers release ozone gas, which can make it hard for people with asthma to breathe.
The EPA says that you shouldn’t buy air cleaners that release ozone, such as UV air cleaners, electrostatic precipitators, ionizers, and plasma air cleaners.
Upper-Room UVGI
Upper-room ultraviolet germicidal irradiation (UVGI), which uses UV energy to kill viruses, bacteria, and fungi, is another way to clean the air.
UVGI fixtures give off UV-C energy, which has shorter wavelengths than UV-A and UV-B rays and is less dangerous to people’s health.
Upper-room UVGI is a system in which UVGI fixtures are placed in the upper part of a room and the air is moved by natural convection or fans.
Pathogens in the air are killed when they get enough UV energy.
The particles stay in the air, but they are no longer dangerous.
Upper-room UVGI works especially well in crowded indoor spaces where it’s hard to keep a social distance.
UV-C-Based Air Purifying Technology
UV-C-based technology for cleaning the air works as one of many filters that clean the air as it passes through them.
The machine will force air through the filter (often after the air has gone through particle filters like HEPA) and then expose it to UV-C light, which will kill any remaining viruses and bacteria.
UV-C light air purifiers are rarely sold on their own.
They are usually used with HEPA filters because they can’t catch particles on their own.
CDC Recommendations
It is important to know that the CDC does not recommend using UVGI in HEPA filtration systems.
The CDC recommends that you use HEPA air filtration with UVGI equipment instead of a single device that does both.
Ultraviolet germicidal irradiation (UVGI) can be used to clean the air in addition to HEPA filtration, but it can’t take the place of it.
The only real way to know if the UVGI works is to test how well a HEPA filter works.
Considerations and Limitations of Germicidal UVC
Germicidal UVC Air Purifiers: Benefits and Downsides
UV air purifiers that use UV-C light to find and kill viruses and bacteria in the air can help improve the quality of the air inside your home.
Short-wave ultraviolet light is used in UV-C light air purification systems to kill mold, bacteria, and viruses that are in the air.
UV-C light is the part of the UV spectrum that kills germs the best.
At the moment, UV-C air purifiers are sold as stand-alone devices or as systems that can be added to existing HVAC units in homes or businesses.
UV-C air purifiers can be set up in many different ways, and the results can vary.
Benefits of Germicidal UVC Air Purifiers
People who want to improve the quality of the air in their homes often choose UV air purifiers because they can get rid of bacteria in the air.
They are especially helpful in places like hospitals, schools, and offices where there is a high risk of infections spread through the air.
Systems that use UV-C light to clean the air may be able to disinfect in some way, but they should also have a filter medium to catch particles.
How to Determine if an Air Purifier has Germicidal UVC Technology
To find out if an air purifier has germicidal UV-C technology, look for the terms “UV-C light,” “UVGI,” or “germicidal irradiation” in the product description or specifications.
Also, make sure that the UV air purifier doesn’t make ozone and that it has a filter to catch particles.
Downsides of Germicidal UVC Air Purifiers
One of the main worries about using germicidal UVC in an air purifier is that UVC radiation can be bad for your skin and eyes.
Direct exposure of the skin or eyes to UVC can be harmful, so it is safer to use UVC radiation inside air ducts to clean the air.
Some UVC lamps make ozone, which can make it hard for people to breathe, especially those with asthma.
The Environmental Protection Agency says that you shouldn’t buy UV air purifiers, electrostatic precipitators, ionizers, or plasma air purifiers because they release ozone into the air.
Germicidal UVC in an air purifier is also bad because it can break down some materials, like plastic, polymers, and dyed textiles.
Some UVC lamps contain mercury, which is toxic even in small amounts.
This means that you need to be very careful when cleaning a broken lamp and throwing it away.
But instead of low-pressure mercury lamps, you can use LEDs, which don’t have any mercury in them.
LEDs may be less good at cleaning the air because they have a small surface area and shine in one direction more than other lights, but they are safer to use than mercury-based lamps.
UV air purifiers can remove bacteria from the air, but they can also give off ozone and break down some materials.
Direct exposure of the skin or eyes to UVC can be harmful, so it is safer to use UVC radiation inside air ducts to clean the air.
Some UVC lamps contain mercury, which is toxic even in small amounts.
This means that you need to be very careful when cleaning a broken lamp and throwing it away.
LEDs can be used instead of low-pressure mercury lamps because they don’t have any mercury in them, but they may not be as good at cleaning the air.
When picking a UV air purifier, it’s important to make sure it doesn’t make ozone and has a filter that can catch particles.
Conclusion
In conclusion, germicidal UVC technology has changed the way harmful pathogens and viruses are fought.
Since it can kill microorganisms at the DNA level, it has become an important tool for keeping the environment clean and healthy.
If you have an air purifier or are thinking about getting one, it is important to know how germicidal UVC technology can help.
Not only does it make cleaning more thorough and effective, but it also gives you peace of mind by getting rid of harmful pathogens.
But it’s important to remember that even though germicidal UVC technology is very good, it shouldn’t be used as the only way to clean and disinfect.
Still, regular cleaning and disinfecting should be done to keep the environment safe and healthy.
In the end, using germ-killing UVC technology is just one part of keeping the environment clean and healthy.
By using it along with other ways to clean and disinfect, we can make the world safer and healthier for ourselves and everyone else.
Links and references
- “Germicidal Ultraviolet Light” PDF from Harvard Medical School Center for Health and the Global Environment
- “SAFETY AND EFFICACY OF UVC TO FIGHT COVID-19” PDF from National Academies of Sciences, Engineering, and Medicine
- “UV-C and Germicidal Light: What We’ve Learned” PDF from Illuminating Engineering Society
My article on the topic:
