The use of air purifiers on buses is essential to improve passenger health, reduce the risk of spreading infectious diseases, improve ride comfort, and meet environmental requirements. These factors contribute to the overall ridership experience and quality of public transportation. With an inactivation rate of more than 95%, the bipolar ionization purifier cleans the air in the bus passenger compartment of harmful viruses such as SARS-CoV-2 and its variants, bacteria, molds and other pathogens in a single airflow cycle.
Necessity of air purifier
Preventing the spread of disease: Public transportation, such as buses and cars, is a potential place for the spread of disease, especially respiratory infections. Air purifiers filter viruses, bacteria and other microorganisms from the air, reducing their spread inside the car and reducing the risk of passengers contracting diseases.
Protecting passenger health: Public transportation such as subways, buses and trains are often crowded and densely populated with passengers, and the air may contain a variety of pollutants such as bacteria, viruses, particulates and harmful gases. Air purifiers filter and purify the air, reducing potential health risks and providing a cleaner, healthier riding environment.
Meet environmental requirements: In many regions, governments and transport operators are placing higher demands on the environmental friendliness of public transport. The use of air purifiers can reduce pollutant emissions from the cars and reduce the negative impact on air quality, in line with the goal of sustainable transportation.
Installation of air purifiers on buses
1、Use of ionization in existing HVAC systems.
Our first approach was to connect a bipolar ionization unit to the vehicle's existing HVAC system. This can be done economically and efficiently to ensure that a constant stream of ions is released into the bus area to clean the air.
