Dr. Philip M. Tierno, Jr.
Professor of Microbiology & Pathology NYU School of Medicine NYU Langone Medical Center
US Member of the Global Hygiene Council
Improve the health and wellness of your indoor air quality
Largest manufacturer of bi-polar ionization air purification systems
Proven air purification technology acts as an a continuous disinfectant, actively reducing a wide range of airborne and surface contaminants
Helps eliminate odors while also reducing dust, mold, mildew, and allergens.
Improve productivity and reduce absenteeism by reducing mold, bacteria, viruses and germs - Reproductive cycle of bacteria and viruses are interrupted and colony forming units are reduced.
Odor Control Solution; Up to 90% of VOCs are reduced and broken down
Up to 95% of Ultrafine Particulate is Reduced
Track and Measure the health and wellness of the Workplace - Real-Time monitoring of CO2, PM2.5 (particulate), and Volatile Organic Compounds (VOCs) among other IAQ parameters.
AtmosAir presents an opportunity to reduce energy consumption, filtration efficiency, and
greenhouse gas emissions.
In both new design and retrofit projects, a 50% Reduction in Outside Air Heating/Cooling Load is Possible generating 4-8% total utility energy savings.
A good rule of thumb to use for retrofit
projects is $0.12-$0.18 per square
foot in energy savings.
Think energy savings are valuable? Businesses are realizing how much productivity is truly worth.
It has now been shown beyond reasonable doubt that poor indoor air quality in buildings can decrease productivity in addition to causing visitors to express dissatisfaction. The size of the effect on most aspects of office work performance appears to be as high as 6-9%, the higher value being obtained in field validation studies.
Even if customers only recognizes a 1% improvement in productivity from the AtmosAir enhanced IAQ system, the system will pay for itself in less than 1 year.
Globally, outdoor air quality is deteriorating due to pollution from traffic, construction, agricultural activity, combustion sources and particulate matter. Because ambient air diffuses easily, even distant sources of pollution have a huge impact on the more than 15,000 liters of air we breathe every day. Indoor air quality can be degraded by these outdoor sources, as well as by off-gassing from building materials, indoor combustion sources and water leaks. Poor ventilation practices can fail to address these sources, exposing us to volatile organic compounds (VOCs), polycyclic aromatic hydrocarbons (PAHs) and microbial pathogens. Another way in which indoor air quality may be diminished is via surfaces, which can accumulate airborne germs. All of these contaminants contribute to a range of negative health outcomes such as asthma, allergies and other upper respiratory illnesses. In addition, air quality issues can diminish work productivity and lead to sick building syndrome (SBS), where no disease or cause can be identified, yet acute health effects are linked to time spent in a building. SBS symptoms include various nonspecific symptoms such as eye, skin and airway irritation, as well as headache and fatigue.
The reactions people have to air pollutants vary widely and depend on multiple factors including the concentration of the contaminant, the rate of intake and the duration of exposure. Pollution source avoidance, proper ventilation and air purification are some of the most effective means of achieving high indoor air quality.