How Bipolar Ionization Improves Indoor Air Quality: In the face of the COVID19 epidemic, facility and building managers now have stronger strategies and technologies at their disposal for maintaining building safety. Increased cleaning and disinfection routines, for example, reduce the danger of contamination.
Every few months, you should have your heating and air conditioning system checked out and repaired. This will keep your system running at its best. Real-time air filtration provides building engineers an advantage in ensuring optimum interior air quality. However, As a result, bipolar ionization enhances IAQ by limiting the spread of infectious agents via the air in public places.
It’s critical to know how airborne viruses migrate if you want to keep them under control. Coughing, sneezing, and talking can all transmit the coronavirus, for example. Invisible to the human eye, sneezes create up to 30,000 droplets. These tiny droplets can move at rates of up to 60 mph.
A new method of transmission for airborne viruses is discovered almost every day. Clean air and COVID-19’s spread are now receiving greater attention as a consequence of this trend.
If you’re concerned about the quality of the air in your building, bipolar ionization has been shown to help. With bipolar ionization, several hotels are creating safer and healthier settings for visitors. Keeping employees, visitors, and other facility inhabitants safe from illness has advantages for every sector, though.
Bipolar Ionization Improves Indoor Air Quality
Airborne viruses are rendered inactive by these ionizers’ proactive purifying methods. Millions of positive and negative oxygen ions are generated by these bipolar ionization devices. They inactivate viral cells by removing hydrogen molecules from them when discharged into the air transportation system.
Ionizers can be installed in brand-new equipment or in systems that have already been in place for some time. To begin with, the device’s positive and negative ions are discharged whenever there’s movement in the ductwork.
Viruses, molds, and other organisms are then exposed to the ions. Next, they set off oxidation inside the particle’s cells, resulting in structural disintegration. Another way to minimize volatile organic compounds and eliminate scents is to use ionization technology. Most filtering systems are unable to capture the coronavirus because it is so tiny. Clusters of charged particles, on the other hand, are simpler for air filters to remove from the atmosphere. As a consequence, the environment is safer and healthier, with fewer outbreaks of infectious diseases.
Can Bipolar Ionization Stop the Transmission of COVID-19?
It is theoretically possible that bipolar ionization can remove viruses from the air and reduce the amount of virus-infected droplets and particles in the air.
Virus capsid proteins lose hydrogen atoms when they are attacked by these specific ions, the virus’s outer layer of defense against the environment. To prevent the virus from spreading, hydrogen atoms can be removed from proteins, causing a change in their structure. To put it another way, it’s like altering a key’s form such that it no longer does the same task.
Ions help settle airborne particles in addition to the virus. Because of their charge, ions will be drawn to and adhere to bigger molecules, resulting in their weight. In order to disinfect or eliminate the airborne particles from the environment, the particles will settle on surfaces more rapidly.