VDI 6022 Certification Mark
Certification of a HVAC system under VDI 6022 guarantees that the system fulfills the market’s strictest hygiene requirements. Panasonic nanoe™ X technology received VDI6022 certification mark after rigorous testing.
VDI 6022 – Part 5 Certification
‘Avoidance of allergenic exposure’
Inhibits a wide range of harmful bacteria, viruses, mould, pollen and allergens.
Panasonic nanoe™ X technology has, after rigorous testing in the strictest test conditions, been awarded VDI6022 certification, which guarantees the highest level of effectiveness against exposure to common allergens such as Pollen, mould, and many common pet allergens present within indoor spaces.
Pollen
Mould
Allergens
VDI 6022 – Part 1 & 1.1 Certification
‘Ventilation and indoor-air quality’
Panasonic nanoe™ X technology improving indoor air quality.
Panasonic nanoe™ X technology has been tried and tested for over 20 years and is proven to inhibit a wide range of harmful bacteria, viruses, mould, pollen and allergens.
*1,Certification mark of part5 is only valid for Generater Mark3.
*2,Certification mark of part1 is only valid for Generater Mark3.
*3,Certification mark of part1.1 is only valid for Generater Mark2 and Mark3.
Effect
Inhibits airborne & adhered mould activity
Various types of airborne mould1 and even adhered mould2 found indoors can be reached and inhibited by nanoe™ X.
8 varieties of household mould are inhibited
Main mould types found in dust:
Aspergillus,
Cladosporium, Alternaria, Fusarium, Penicillium, Eurotium
Mould found in bathrooms:
Stachybotrys3
Mould found in soil:
Mucor
(Taking into account airborne transfer of mould from soil into the home environment)4
The spa experience means truly relaxing. When you take time for yourself, everything has to be just right. nanoe™ X inhibits the growth of mould, so you can enjoy your personal time in greater comfort, confident that everything around you is fresh and clean.
Effects on moulds
Airborne mould1
Cladosporium
Do you want to risk your health at the gym? It’s important to regularly work up a good sweat, but your workout environment needs to be kept really clean and fresh. Inhibiting the growth of mould, nanoe™ X helps support your active lifestyle.
Effects on moulds
Adhered mould2
Aspergillus
How nanoe™ X works
nanoe™ X reaches mould.
Hydroxyl radicals denature mould proteins.
Mould growth is inhibited.1-4
1Testing organisation: Japan Food Research Laboratories. Testing method: Measured the amount of mould inhibited in an approximately 23 m3-sized test chamber. Inhibition method: nanoe™ released. Target substance: Airborne mould. Test result: Inhibited by at least 99% in 1 hour. (205061541-001)
2Testing organisation: Japan Food Research Laboratories. Testing method: Measured mould adhered to a cloth. Inhibition method: nanoe™ released. Target substance: Adhered mould. Test result: Inhibited by at least 99.5% in 8 hours. (11038081001-02)
3Kosuke Takatori, 2002 (Mould Inspection Manual Colour Illustrated Catalogue) p. 382 TECHNO SYSTEMS, Inc.
4Kosuke Takatori, 2002 (Mould Inspection Manual Colour Illustrated Catalogue) p. 44-45 TECHNO SYSTEMS, Inc.
Results may vary based on usage, and seasonal and environmental variables (temperature and humidity). nanoe™ X and nanoe™ inhibit activity or growth of Mould, but do not prevent infection.
Evidence
Mould
nanoe™
|
|
Target |
Results*¹ |
Test space |
Exposure |
Testing organisation |
Report No. |
|
|---|---|---|---|---|---|---|---|
|
Adhering |
Trichophyton |
99.7% |
40 L |
24 |
Panasonic Product Analysis Center |
E02-061002IN-01 |
|
|
99.9% |
45 L |
8 |
Osaka Prefecture University |
|
|
||
|
Cladosporium |
99.9% |
45 L |
4 |
Panasonic Product Analysis Center |
E02-110801IN-01 |
|
|
|
99.9% |
45 L |
8 |
Osaka Prefecture University |
|
|
||
|
inhibited |
Approx. |
8 |
Japan Food Research Laboratories |
17145307001-0201 |
|
||
|
Aspergillus |
99.5% |
45 L |
8 |
Japan Food Research Laboratories |
11038081001-02 |
|
|
|
inhibited |
Approx. |
8 |
17145307001-0101 |
|
|||
|
Penicillium |
99.9% |
45 L |
4 |
11028760001-01 |
|
||
|
inhibited |
Approx. |
8 |
17145307001-0601 |
|
|||
|
Fusarium |
99.9% |
45 L |
4 |
11018692001-02 |
|
||
|
inhibited |
Approx. |
8 |
17145307001-0401 |
|
|||
|
Eurotium |
99.9% |
45 L |
8 |
Kitasato Research Center |
22_0455 |
|
|
|
inhibited |
Approx. |
8 |
Japan Food Research Laboratories |
17145307001-0301 |
|
||
|
Mucor |
99.9% |
45 L |
8 |
Japan Food Research Laboratories |
11038080001-01 |
|
|
|
inhibited |
Approx. |
8 |
17145307001-0501 |
|
|||
|
Stachybotrys |
99.9% |
45 L |
8 |
Kitasato Research Center |
22_0465_2 |
|
|
|
inhibited |
Approx. |
8 |
Japan Food Research Laboratories |
17145307001-0701 |
|
||
|
Alternaria |
99.2% |
45 L |
16 |
Japan Food Research Laboratories |
11038082001-01 |
|
|
|
inhibited |
Approx. |
8 |
13044083002-01 |
|
|||
|
inhibited |
Approx. |
8 |
SGS |
SHES131100435002 |
|
||
|
Bjerkandera adustra |
99.0% |
Approx. |
8 |
Kanazawa University |
|
|
|
|
Candida albicans |
99.4% |
45 L |
2 |
Chiba University, |
|
|
|
|
Cryptococcus neoformans |
99.8% |
45 L |
2 |
|
|||
|
Malassezia furfur |
99.9% |
45 L |
4 |
Osaka Prefecture University |
|
|
|
|
99.7% |
45 L |
4 |
Chiba University, |
|
|
||
|
Sporothrix schenckii |
99.9% |
45 L |
4 |
Osaka Prefecture University |
|
|
|
|
Exophiala jeanselmei |
99.9% |
45 L |
8 |
|
|||
|
Absidia corymbifera |
99.9% |
45 L |
8 |
|
|||
|
Rhodotorula rubra |
99.9% |
45 L |
4 |
|
|||
|
Neurospora sitophila |
99.9% |
45 L |
8 |
|
|||
|
Schizophyllum commune |
99.9% |
45 L |
4 |
|
|||
|
Airborne |
Cladsporium |
99% |
Approx. |
1 |
Japan Food Research Laboratories |
205061541-001 |
|
nanoe™ X
|
|
Target |
Results*¹ |
Test space |
Exposure |
Testing organisation |
Report No. |
|
|---|---|---|---|---|---|---|---|
|
Adhering |
Trichophyton |
99.7% |
40 L |
24 |
Panasonic Product Analysis Center |
E02-061002IN-01 |
|
|
99.9% |
45 L |
8 |
Osaka Prefecture University |
|
|
||
|
Cladosporium |
99.9% |
45 L |
4 |
Panasonic Product Analysis Center |
E02-110801IN-01 |
|
|
|
99.9% |
45 L |
8 |
Osaka Prefecture University |
|
|
||
|
inhibited |
Approx. |
8 |
Japan Food Research Laboratories |
17145307001-0201 |
|
||
|
Aspergillus |
99.5% |
45 L |
8 |
Japan Food Research Laboratories |
11038081001-02 |
|
|
|
inhibited |
Approx. |
8 |
17145307001-0101 |
|
|||
|
inhibited |
Approx. |
24 |
4AA33-160615-F02 |
|
|||
|
Penicillium |
99.9% |
45 L |
4 |
11028760001-01 |
|
||
|
inhibited |
Approx. |
8 |
17145307001-0601 |
|
|||
|
Fusarium |
99.9% |
45 L |
4 |
11018692001-02 |
|
||
|
inhibited |
Approx. |
8 |
17145307001-0401 |
|
|||
|
Eurotium |
99.9% |
45 L |
8 |
Kitasato Research Center |
22_0455 |
|
|
|
inhibited |
Approx. |
8 |
Japan Food Research Laboratories |
17145307001-0301 |
|
||
|
Mucor |
99.9% |
45 L |
8 |
Japan Food Research Laboratories |
11038080001-01 |
|
|
|
inhibited |
Approx. |
8 |
17145307001-0501 |
|
|||
|
Stachybotrys |
99.9% |
45 L |
8 |
Kitasato Research Center |
22_0465_2 |
|
|
|
inhibited |
Approx. |
8 |
Japan Food Research Laboratories |
17145307001-0701 |
|
||
|
Alternaria |
99.2% |
45 L |
16 |
Japan Food Research Laboratories |
11038082001-01 |
|
|
|
inhibited |
Approx. |
8 |
13044083002-01 |
|
|||
|
inhibited |
Approx. |
24 |
Panasonic Product Analysis Center |
4AA33-160615-F02 |
|
||
|
inhibited |
24 m³ |
4 |
1V332-170703F06 |
|
|||
|
inhibited |
Approx. |
8 |
SGS |
SHES131100435002 |
|
||
|
Bjerkandera adustra |
99.0% |
Approx. |
8 |
Kanazawa University |
|
|
|
|
Candida albicans |
99.4% |
45 L |
2 |
Chiba University, |
|
|
|
|
Cryptococcus neoformans |
99.8% |
45 L |
2 |
|
|||
|
Malassezia furfur |
99.9% |
45 L |
4 |
Osaka Prefecture University |
|
|
|
|
99.7% |
45 L |
4 |
Chiba University, |
|
|
||
|
inhibited |
Approx. |
24 |
Panasonic Product Analysis Center |
4AA33-160615-F02 |
|
||
|
Sporothrix schenckii |
99.9% |
45 L |
4 |
Osaka Prefecture University |
|
|
|
|
Exophiala jeanselmei |
99.9% |
45 L |
8 |
|
|||
|
Absidia corymbifera |
99.9% |
45 L |
8 |
|
|||
|
Rhodotorula rubra |
99.9% |
45 L |
4 |
|
|||
|
Neurospora sitophila |
99.9% |
45 L |
8 |
|
|||
|
Schizophyllum commune |
99.9% |
45 L |
4 |
|
|||
|
Candida |
inhibited |
Approx. |
24 |
Panasonic Product Analysis Center |
4AA33-160615-F02 |
|
|
|
Chaetomium globosum |
inhibited |
Approx. |
8 |
Japan Food Research Laboratories |
18053279001-0101 |
|
|
|
Rhizopus oryzae |
inhibited |
Approx. |
8 |
18053279001-0201 |
|
||
|
Moraxella osloensis |
99.4% |
Approx. |
8 |
18084378001-0101 |
|
||
|
Rhodotorula mucilaginosa |
inhibited |
Approx. |
8 |
18069887001-0201 |
|
||
|
Airborne |
Cladsporium |
99% |
Approx. |
1 |
Japan Food Research Laboratories |
205061541-001 |
|
nanoe™ X (nanoe™ X Generator Mark 2)
Target |
Results*¹ |
Test space |
Exposure |
Testing organisation |
Report No. |
||
|---|---|---|---|---|---|---|---|
Adhering |
Cladosporium sphaerospermum |
Inhibited |
Approx. 30m³ |
6 |
Kaken Test Center |
KT-21-007373-2 |
 |
nanoe™ X (nanoe™ X Generator Mark 3)
Target |
Results*¹ |
Test space |
Exposure |
Testing organisation |
Report No. |
||
|---|---|---|---|---|---|---|---|
Adhering |
Cladosporium sphaerospermum |
Inhibited |
Approx. 30m³ |
2 |
Kaken Test Center |
KT-21-003341-4 |
|
