nanoe-G charges dust particles as small as PM2.5 with negative electricity and catches them. The air conditioner uses a suction airflow to draw in dust and collect it in an air filter. For as long as the air conditioner is active, the air in the room is being constantly cleaned.

Not a result of experiments in an actual use environment.

How nanoe-G works

nanoe-G negative ions capture dust particles as small as PM2.5 in the air by trapping them in the filter for deactivation*2 *3.

How nanoe-G works
The nanoe-G generator produces 3 trillion*⁷ negative ions/sec. Then, nanoe-G gives dust particles a negative charge and captures them. The air conditioner uses a suction airflow to draw in dust and collect it in an air filter.

The nanoe-G generator produces 3 trillion*7 negative ions/sec. Then, nanoe-G gives dust particles a negative charge and captures them. The air conditioner uses a suction airflow to draw in dust and collect it in an air filter.

Airborne

Airborne
nanoe-G captures airborne particles.

After capture airborne particle, trapped to filter.

After capture airborne particle, trapped to filter.

Effects of nanoe-G

Pause
Effects of nanoe-G
Effects of nanoe-G
Effects of nanoe-G
Effects of nanoe-G

Effects of nanoe-G

Effects of nanoe-G
Effects of nanoe-G
Effects of nanoe-G
Effects of nanoe-G

What is PM2.5?

Particle Size Comparison

"Particulate matter," also known as PM is made up of a number of components including extremely small particles and liquid droplets. Sized at less than 2.5 micrometers (PM2.5), these particles are said to pose health problems as they can easily enter our lungs.

Particle Size Comparison

Typical Types Of PM2.5

PM2.5 can be found suspended in the air, being included in dust, dirt, smoke and liquid droplets. These fine particles come from manmade sources such as the combustion of fossil fuels, open burning and industrial processes as well as natural ones, which include sea sprays and dust carried by strong winds.

Typical Types Of PM2.5

Disclaimer

*1 [Testing organisation] Kitasato Research Center for Environmental Science [Testing method] nanoe-G mounted air conditioner was operated and tested in a 25m3 sized test room 
[Test result] Removed by 99% in 150 minutes (compared to the initial concentration) (23_0182))
*2 [Testing organisation] Kitasato Research Center for Environmental Science [Testing method] nanoe-G mounted air conditioner was operated and tested in a 25m3 sized test room 
[Test result] Removed by 99% in 120 minutes (compared to the initial concentration) (22_0008)
*3 [Testing organisation] Kitasato Research Center for Environmental Science [Testing method] nanoe-G mounted air conditioner was operated and tested in a 25m3 sized test room 
[Test result] Removed by 99% in 90 minutes (compared to non-operation) (23_0140)
*4 [Testing organisation] FCG Research Institute, Inc. [Testing method] nanoe-G mounted air conditioner was operated and tested in a 23m3 sized test room 
[Test result] Removed by 99% in 202 minutes (compared to the initial concentration) (25034)
*5 [Testing organisation] Japan Food Research Laboratories [Testing method] nanoe-G mounted air conditioner was operated and tested in a test box [Test result] Removed by 99% in 2 hours (compared to non-operation) (12037932001-02)
*6 [Testing organisation] Japan Food Research Laboratories [Testing method] nanoe-G mounted air conditioner was operated and tested in a test box [Test result] Removed by 99% in 2 hours (compared to non-operation) (12014705001-02)
*7 Trillion is the simulated number of nanoe-G negative ions under test conditions. Actual measured nanoe-G negative ions at the centre of the room (13m3): 100 k/cc calculated number of nanoe-G negative ions in the entire room, assuming even distribution.

Results may vary based on usage, and seasonal and environmental variables (temperature and humidity). nanoe-G inhibit activity or growth of viruses, but do not prevent infection.

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