More hydroxyl radicals, greater benefits
nanoe™ X technology has evolved dramatically. Compared to the first nanoe™ generator developed by Panasonic in 2003, the nanoe X Generator Mark 2, developed in 2019, generates 20 times and the nanoe X Generator Mark 3, developed in 2021, even generates 100 times as many hydroxyl radicals.
The decisive factor for the cleaning effects is hydroxyl radical amount,
which contained in nanoe™ X particles.
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|
nanoe™ |
nanoe™ X |
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|---|---|---|---|---|
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Generator Mark 1 |
Generator Mark 2 |
Generator Mark 3 |
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|
Hydroxyl radicals |
480 billion |
4.8 trillion |
9.6 trillion |
48 trillion |
|
Generating mechanism |
Counter electrode |
With multi-leader discharge (4 needle-shaped electrodes) the generation area is significantly expanded, so 10 times as many hydroxyl radicals are generated. |
The convex shape of the counter electrode draws moisture from the discharge point upward, stabilizing discharge, so 20 times as many hydroxyl radicals are generated. Electrostatic atomisation Multi-leader discharge (optimised discharge control) |
Round-Leader discharge system that discharges electricity in a circular pattern to increase the area for generating hydroxyl radicals, so 100 times as many hydroxyl radicals are generated. |
|
Discharge system |
Electrostatic atomisation discharge |
Electrostatic atomisation |
Electrostatic atomisation |
Electrostatic atomisation round-leader discharge |
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Particle size |
5-20 nm |
5-20 nm |
5-20 nm |
5-20 nm |
|
Particle lifespan |
Approx. 600 sec. |
Approx. 600 sec. |
Approx. 600 sec. |
Approx. 600 sec. |
|
Moisture content compared to ordinary negative ion |
Approx. 1,000 times |
Approx. 1,000 times |
Approx. 1,000 times |
Approx. 1,000 times |
|
Released |
2003 |
2016 |
2019 |
2021 |
Higher concentration, even in large spaces
Greater effectiveness even in large spaces of more than 100 ㎡.
Conditions of the Simulation: Inspection / Model: 4-way cassette / Room size: 112㎡ / Room height: 2.4m / Position of IDU: Centre of space /
Ventilation: 3 times/hour
Evolution of the nanoe™ X Effect
Effectiveness in large space with generator mark 3
Inhibits Virus
An air conditioner equipped with nanoe™ X Generator Mark 3 inhibits activity of adhered virus (Bacteriophage) by 98.81% in 4 hours.
Testing organisation: SGS Inc / Test subject: Adhered Bacteriophage / Test volume: Approx. 139m large space (6.6×8.9x2.48m)
Test result: Inhibited 98.81% in 4 hours
Test repot no.: SHES210901902583
Test Ambient
Approx.139m3 (1):6.6m (2):8.9m (3):2.48m
Test Result
Bacteriophage
Deodorise*1*2
An air conditioner equipped with nanoe™ X Generator Mark 3 reduces cigarette smoke odour intensity by 1.7 levels in 30 mins.
Testing organisation: SGS Inc / Test subject: Adhered cigarette smoke odour / Test volume: Approx. 139m large space (6.6×8.9x2.48m)
Test result: Odour intensity reduced 1.7 levels in 30 mins.
Test repot no.: SHES210901902478
Test Ambient
Approx.139m3 (1):6.6m (2):8.9m (3):2.48m
Test Result
Cigarette smoke odour
Better deodorisation results than with the
Generator Mark 2
Sweat odour *3
Greatly improved deodorisation speed
Urine odour *4
Faeces odour *5
Odour intensity: 5-Very strong odour 4-Strong odour 3-Easily detectable odour
2-Weak,recognisable odour (cognitive threshold concentration) 1-Barely detectable odour (detection threshold concentration) 0-No odour
Inhibits Pollen
The result of nanoe™ X Generator Mark 3
Inhibits pollen in 1/4 the time of nanoe™ X Generator Mark 2*7
Inhibits Mould
Inhibits mould growth in fans and heat exchangers*6
Internal Cleaning Function
After cooling/drying function, the inside of the indoor unit is automatically dried.
nanoe™ X Operating time
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Operations |
ON |
Air purification with nanoe™ X |
|
OFF |
Internal Cleaning Function |
|
Operating Timing |
ON |
Cooling / Heating / DRY / Fan |
|
OFF |
Cool / Dry operation |
Dried with a fan to dissipate internal heat
Internal circulation of nanoe™ X with a fan
Results of Mould Inhibition Test
Comparison with and without internal cleaning function.
Test Method: A mould sensor from the Laboratory for mold prediction was installed in an indoor unit (CS-P80U7H) and the growth of mould was compared after 9 days of cooling operation (3 hours of cooling operation and 21 hours of shutdown) with and without internal cleaning.
Environmental Conditions: Temperature 25°C, humidity 70%
Testing Organisation: Laboratory for mould prediction
Test Report Nos.: 210804, 210810, 210805, 210811
*1 This is not a proven effect in an actual operating space. The deodorizing effect depends on the size of the operating space, ambient environment (temperature and humidity), operation time, and types of odours absorbed in fibres.
*2 Effectiveness in a test space of approx. 230 m3. The figures are not the results of tests conducted in an actual operating space.
*3 [Testing organisation] Panasonic Product Analysis Center [Test method] Verification in a test room (approx. 230 m3) using a 6-step odour intensity display method [Method of deodorisation] Operation of a CS-P160U6 equivalent tester equipped with a nanoe™ X Generator Mark 3 and release of nanoe™ [Target] Adhered sweat odour (hexanoic acid) [Test result] Odour intensity was reduced to 1.0 in 2 hours (R21HM004-0) [Method of deodorisation] Operation of a CS-P80U6 4-way cassette equipped with a nanoe™ X Generator Mark 2 and release of nanoe™ [Target] Adhered sweat odour (hexanoic acid) [Test Result] Odour intensity was reduced to 3.1 in 2 hours (L19YK032-11)
*4 [Testing organisation] Panasonic Product Analysis Center [Test method] Verification in a test room (approx. 230 m3) using a 6-step odour intensity display method [Method of deodorisation] Operation of a CS-P160U6 equivalent tester equipped with a nanoe™ X Generator Mark 3 and release of nanoe™ [Target] Adhered urine odour (trimethylamine) [Test Result] Odour intensity reduced to 1.0 in 2 hours (R21HM005-0)
*5 [Testing organisation] Panasonic Product Analysis Center [Test method] Verification in a test room (approx. 230 m3) using a 6-step odour intensity display method [Method of deodorisation] Operation of a CS-P160U6 equivalent tester equipped with a nanoe™ X Generator Mark 3 and release of nanoe™ [Target] Adhered faeces odour (methyl mercaptan) [Test Result] Odour intensity reduced to 1.0 in 2 hours (R21HM006-0)
*6 While this function is effective in inhibiting mould growth, it does not prevent mould from occurring. The mould growth inhibition effect may vary depending on the installation environment and operating time. *When using the nanoe™ X Generator Mark 3 function, a multi-function wired remote control (CZ-10RT4C) is required. (The floor-standing type with a built-in control switch in the main unit can be used.) *Only ON/OFF operation is possible with the multilingual wired remote controller (CZ-10RTF4). Also, local setup is required to use the nanoe™ X Generator Mark 3.
*7 Effect after 3 hours in a test space of approx. 24 m3. The figures are not the results of testing in an actual operating space.
*8 <nanoe™ X Generator Mark 1> [Testing organisation] Panasonic Product Analysis Center [Test method] ELISA method of measuring allergens adhering to fabric in a test room (approx. 24 m3) [Method of inhibition] Release of nanoe™ [Target] Adhered allergen (cedar pollen) [Test Result] Inhibition of 99% or more in 24 hours (4AA33-151001-F01) <nanoe™ X Generator Mark 2>
[Testing organisation] Panasonic Product Analysis Center, [Test method] ELISA method of measuring allergens adhering to fabric in a test room (approx. 24 m3) [Method of inhibition] Release of nanoe™ [Target] Adhered allergen (cedar pollen) [Test Result] Inhibition of 99% or more in 12 hours confirmed (L19YA009) <nanoe™ X Generator Mark 3> [Testing organisation] Panasonic Product Analysis Center [Test method] ELISA method of measuring allergens adhering to fabric in a test room (approx. 24 m3) [Method of inhibition] Release of nanoe™ [Target] Adhered allergen (cedar pollen) [Test Result] Inhibition of 99% or more in 3 hours (H21YA017-1)