Топ-100
Terraforming Market
Clean air

Sustainable development technologies for air purification from viruses and bacteria

A device for fighting viruses in transport
Cleanses the air of viruses in the era of a pandemic
Experts in the field of air sterilization and ventilation
  • Anil Mehta
    Professor of mechanical Engineering at the University of California, Berkeley. He is an expert in the field of air quality and ventilation, and his research focuses on the development of new technologies to improve indoor air quality.
  • David Spengler
    Professor of Environmental Sciences at the Harvard T. H. Chan School of Public Health. He is an expert in indoor air quality and impact assessment, and his research focuses on the health effects of air pollution.
  • Eric Frank
    Professor of Civil and Environmental Engineering at Stanford University. He is an expert in the field of air quality and ventilation, and his research focuses on the development of new technologies to improve indoor air quality.
  • John Spengler
    Professor of Environmental Sciences at the Harvard T. H. Chan School of Public Health. He is an expert in indoor air quality and impact assessment, and his research focuses on the health effects of air pollution.
  • Michael Jarrett
    Professor of Environmental Sciences at the University of California, Berkeley. He is an expert in air quality and epidemiology, and his research focuses on the health effects of air pollution.
  • Richard Corsi
    Professor of Civil and Environmental Engineering at the University of California, Irvine. He is an expert in the field of air quality and ventilation, and his research focuses on the development of new technologies to improve indoor air quality.
  • Stephen Holgate
    Professor of Respiratory Medicine at the University of Southampton. He is an expert in the field of air pollution and asthma, and his research focuses on the effects of air pollution on health.
  • Timothy G. O'Rourke
    Professor of Civil and Environmental Engineering at the University of Notre Dame. He is an expert in the field of air quality and ventilation, and his research focuses on the development of new technologies to improve indoor air quality.
  • William Nazaroff
    Professor of environmental engineering at the University of California, Berkeley. He is an expert in air quality and impact assessment, and his research focuses on developing new technologies to improve indoor air quality.
Nowadays, when public health becomes a priority, sustainable development technologies play an important role in ensuring a safe and healthy environment for everyone. One of the key areas in this context is air purification from viruses and bacteria. New technologies, such as air sterilization in public transport and the use of plasma for air disinfection, offer effective and environmentally sustainable solutions to combat infectious diseases and maintain a high level of hygiene.

Sterilization of air in public transport: Public transport is a place where people come together and may be at risk of infection with viruses and bacteria. Innovative air sterilization technologies have been developed to combat this problem. One example is the use of filtration and ultraviolet irradiation systems that effectively remove and destroy microorganisms in the air. Such systems can be installed in vehicle interiors and provide continuous air purification in real time. Thanks to these technologies, public transport passengers can feel more secure and confident in their health.

Plasma for air disinfection: Plasma is an ionized state of gas that has the ability to destroy viruses and bacteria. In recent years, innovative systems using plasma for air disinfection have been developed. These systems create an ionized field that forms active particles capable of destroying microorganisms in the air. They can be installed in public use areas such as hospitals, offices, shopping malls and airports, where a large number of people are constantly in contact with each other.

The advantages of using plasma for air disinfection are its high efficiency and environmental safety. Unlike chemical disinfectants, plasma does not leave residues and does not create a negative impact on the environment. It is also capable of destroying a wide range of viruses and bacteria, including those that cause allergic reactions and respiratory diseases.

Plasma-based air sterilization technologies offer a unique approach to ensuring the safety and health of the internal environment. They can be used in combination with other ventilation and filtration systems to create a complete solution for cleaning the air from viruses and bacteria.

As a result, the use of sustainable technologies to clean the air from viruses and bacteria is an important step towards creating a healthy and safe environment for everyone. Sterilization of air in public transport and disinfection systems based on plasma offer innovative and effective solutions that reduce the risk of infections and improve public health.
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