Alkco UV-C Louvered Wall Guide
Add to My manuals12 Pages
Alkco UV-C 2x2 Grid Ceiling Mount is a germicidal ceiling luminaire that uses UV-C radiation to kill bacteria and viruses, including those that cause COVID-19. It's designed for use in commercial and industrial settings, such as hospitals, schools, and offices, to help reduce the risk of infection. The luminaire features a durable construction, easy installation, and a long lifespan of up to 10,000 hours.
advertisement
Step 03: Documentation and Deliverables
Deliverables:
1.
Mechanical / Electrical Installation report (reporting if the luminaires were correctly installed, following mounting instructions and design guidance)
2.
Visual / photographic inspection (confirming if all elements noted during the audit still valid)
3.
Confirmation that visual markers (stickers to be placed on the wall and luminaire) are proper placed as per mounting instructions.
4.
Irradiance measurements (in excel or PPT, preference typed, not scanned).
5.
Effectiveness measurements - In the beam (Step 01)
6.
Eye Level Safety and compliance - Out of the beam (Step 02) at
1.7m or the height used in the design.
7.
All documentation, including Acceptance Certificate signed by
Customer, is uploaded in the dedicated Customer Portal, that is available if there is a Service Contract in place (via C4CS ticket to the C-ROC).
08 2020-1130 Rev. 00 UV-C Upper Air Commissioning and (recurrent) Measurement Guidelines
UV-C Upper Air
Commissioning and
Ongoing Maintenance
Measurement Guidelines
May 2021
Before You Begin:
Read and understand this entire guide, the luminaire installation instructions, and any sitespecific documents before attempting to install, commission or operate these luminaires.
Failure to read and follow all provided instructions may result in damage or injury.
It is the responsibility of the installer to ensure that persons will not be exposed to excessive UV radiation during equipment operation. This will require the installer to conduct an assessment of irradiance levels per the instructions listed in this document within the surrounding occupied spaces prior to occupancy and to repeat assessment whenever relamping is completed.
This document applies to following products:
Alkco U2C - UV-C 2x2 Grid Ceiling Mount
Alkco UWL - UV-C Louvered Wall Mount
General Instructions and Materials Required
Step 01: Establish Baseline
Step 02: Eye Level Safety measurements
Step 03: Documentation and Deliverables
Final Notes and Appendices
UV-C 1
General Instructions and Materials Required
03
•
Long sleeve shirt
Tripod
•
•
•
2020-1130 field-of-view. - Gigahertz -Optik
Upper Air Germicidal Radiation
Upper Air UV radiation measurements must be taken
• Whenever modifications are made to the
Materials:
• Whenever new tubes are installed
•
•
•
•
•
•
• etc.)
Materials:
PPE:
•
•
•
•
•
• PPE:
•
• Ladder
• Tripod
• Whenever any reports or complaints of possible
Safety glasses with side panels
Trousers and closed toe shoes
Skin protecting gloves
• Ladder
•
•
•
03
General Instructions and Materials
General Instructions and Materials room or upper air installation conditions overexposure are received or reasonably expected field-of-view. - Gigahertz -Optik
Required Materials
Rev. 00
•
•
•
•
•
•
•
• etc.)
•
• Ladder
• Tripod
Measuring tape and documentation materials
•
•
Upper Air Germicidal Radiation
Measurements should be taken:
•
• Upon initial installation
• Whenever modifications are made to the room or Upper Air installation conditions
• Whenever new lamps are installed
Upper Air Germicidal Radiation
Whenever any complaints of possible overexposure are received
• Long sleeve shirt
•
•
µW/cm² calibrated to second decimal (0.01 µW/cm²)
UV-3725-4 Radiometric Detector. UV-C 254nm irradiance with cosine corrected
neck,face and other areas of exposed skin) [1]
neck,face and other areas of exposed skin)
•
Upon initial installation
Whenever new tubes are installed
neck,face and other areas of exposed skin) [1]
Skin protecting gloves
neck,face and other areas of exposed skin) [1]
•
•
•
•
•
03
•
•
• Sunblock cream (containing either zinc oxide or titanium dioxide for head,
PPE:
Whenever modifications are made to the room or Upper Air installation conditions
(e.g. height, position, change of walls or ceiling material, room dimension changes,
• Skin protecting gloves
Sunblock cream (containing either zinc oxide or titanium dioxide for head,
[1] field-of-view. - Gigahertz -Optik
Measuring tape and documentation materials
µW/cm² calibrated to second decimal (0.01 µW/cm²)
[2][3][4]
Measuring tape and documentation materials
2020-1130 Rev. 00 equipment (PPE):
[2][3][4]
[1]
[2][3][4]
UV- 3718Z-01 Detector Accy: 80° FOV adapter for UV-3718 detector
For output (Step 01): range of 1-50µW/cm², calibrated at first decimal (0.1 µW/cm²)
UV-3725-4 Radiometric Detector. UV-C 254nm irradiance with cosine corrected Figure 2 and 3 (bottom and right) are the detector head and the detector head with the 80 degree field-of-vision attachment. tachment.
UV- 3718Z-01 Detector Accy: 80° FOV adapter for UV-3718 detector
• For output (Step 01): range of 1-50µW/cm², calibrated at first decimal (0.1 µW/cm²)
• For safety assessments (Step 02): lower range, for measuring safety level at 0,2
µW/cm² calibrated to second decimal (0.01 µW/cm²)
• UV- 3718Z-01 Detector Accy: 80° FOV adapter for UV-3718 detector
[1]National Institute for Occupational Safety and Health. Atlanta, GA: National Institute for Occupational Safety and Health; 2009. Environmental control of tuberculosis: basic upper-room ultraviolet germicidal irradiation guidelines for healthcare settings.
[2] ICNIRP (2007) Protecting Workers from Ultraviolet Radiation
(sold separately)
[2] ICNIRP (2007) Protecting Workers from Ultraviolet Radiation
[3] End TB Transmission (ETTI) (2019) Maintenance of Upper-Room Germicidal Ultraviolet (GUV) Air Disinfection Systems for TB Transmission Control, Stop - Gigahertz - Optik dim
Figure 1 (above) are the recommended handheld radiometer and detector.
Figure 2 and 3 (bottom and right) are the detector head and the detector head with the 80 degree field-of-vision attachment.
Figure 1 (above) are the recommended handheld radiometer and detector.
Figure 2 and 3 (bottom and right) are the detector head and the detector head with the 80 degree field-of-vision at-
[1]National Institute for Occupational Safety and Health. Atlanta, GA: National Institute for Occupational Safety and Health; 2009. Environmental control of tuberculosis: basic upper-room ultraviolet germicidal irradiation guidelines for healthcare settings.
[2][3][4] tachment.
TB Partnership, Geneva, Switzerland. www.stoptb.org/wg/ett/resources.
[4]ACGIH. (2017). TLVs® and BEIs®. American Conference of Governmental Industrial Hygienists, Cincinnati, OH.
[1]National Institute for Occupational Safety and Health. Atlanta, GA: National Institute for Occupational Safety and Health; 2009. Environmental control of tuberculosis: basic upper-room ultraviolet germicidal irradiation guidelines for healthcare settings.
[2] ICNIRP (2007) Protecting Workers from Ultraviolet Radiation
[3] End TB Transmission (ETTI) (2019) Maintenance of Upper-Room Germicidal Ultraviolet (GUV) Air Disinfection Systems for TB Transmission Control, Stop en
UV-C Upper Air Commissioning and (recurrent) Measurement Guidelines
Calibrated X1-5 Optometer
Figure 1 (above) are the recommended handheld radiometer and detector.
Figure 2 and 3 (bottom and right) are the detector head and the detector head with the 80 degree field-of-vision at-
[2] ICNIRP (2007) Protecting Workers from Ultraviolet Radiation
[3] End TB Transmission (ETTI) (2019) Maintenance of Upper-Room Germicidal Ultraviolet (GUV) Air Disinfection Systems for TB Transmission Control, Stop
TB Partnership, Geneva, Switzerland. www.stoptb.org/wg/ett/resources.
[4]ACGIH. (2017). TLVs® and BEIs®. American Conference of Governmental Industrial Hygienists, Cincinnati, OH.
Measuring tape and documentation materials
2020-1130 Rev. 00
• Long sleeve shirt, long pants and closed toe shoes
• Skin protecting gloves
• Sunblock cream 1
(containing either zinc oxide or titanium dioxide for head, neck,face and other areas of exposed skin)
• Step 1: For output range of
1-50μW/cm², calibrated at first decimal (0.1 μW/cm²)
• Step 2: For measuring safety level at 0.2 μW/cm² calibrated to second decimal (0.01 μW/cm²)
Ladder and Tripod
UV-3725-4 Radiometric
Detector. UV-C 254nm irradiance with cosine corrected field-of-view.
Gigahertz -Optik
UV- 3718Z-01 Detector
Accy: 80° FOV adapter for UV-3718 detector 2,3,4
1. National Institute for Occupational Safety and Health. Atlanta, GA: National Institute for Occupational Safety and Health; 2009.
Environmental control of tuberculosis: basic upper-room ultraviolet germicidal irradiation guidelines for healthcare settings.
2. ICNIRP (2007) Protecting Workers from Ultraviolet Radiation
3. End TB Transmission (ETTI) (2019) Maintenance of Upper-Room Germicidal Ultraviolet (GUV) Air Disinfection Systems for TB Transmission Control, Stop TB Partnership, Geneva, Switzerland. www.stoptb.org/wg/ett/resources.
4. ACGIH. (2017). TLVs® and BEIs®. American Conference of Governmental Industrial Hygienists, Cincinnati, OH.
Premeasurement Actions
• Prior to the installation, Signify recommends 100hr burn-in of the lamps.
Once the burn-in is complete, the lamps will be stable and considered a baseline for commissioning measurement.
1 Failure to complete the 100hr burn-in could result in higher initial readings. The space should never be occupied by humans or pets prior to completing all measurements.
• Make sure you have the latest site documents including latest architectural and electrical drawings, simulated calculation report (if performed), list of surface materials and reflectance values (see Appendix B), site audit notes or previous measurements (if applicable) to compare with the current situation.
• Check if the usage of the space (occupant tasks, hours occupied, etc) is the same as it was when the system was designed. If there is a change, register it.
• Look for obstacles (hanging from the ceiling or higher objects from the floor) that may interfere with the UV-C light, register them.
• Check if there are nearby items (smoke detectors, alarms, projectors, wi-fi routers, etc.) with materials or paint that can be degraded by UV-C and advise the customer.
• Energize luminaires and allow to stabilize for 10 minutes prior to beginning any measurements.
• Thoroughly clean the sensor lens according to sensor manufacturer instructions or with Isopropyl Alcohol before beginning measurements.
• Look for standard luminaires installed in the ceiling directly in the irradiance path that may reflect light into the occupied zone. Signify recommends moving or removing these.
1. ASHRAE GPC 37 (Draft).
UV-C 3
Step 01: Establish Baseline
Figure 1
Figure 1: The detector is raised and lowered to find maximum output
(irradiance) of the UV beam for recording output. If allowed, permanent marker on the floor would facilitate repeat measurement. Or use a yard/ meter stick between the face of the luminaire and the radiometer’s detector.
Instructions for Measuring
1. Acquire all necessary PPE.
2. Zero the UV meter according to the meter manufacturer’s instructions. Set the meter mode to read 254nm HG-LAMP.
3. Remove the cap and position the sensor 3ft (0.91m) from the center of the upper-room UV-C luminaire.
1
4. Point the sensor probe vertically, aiming in the beam of the luminaire, the center of the sensor should be in the center of the UV-C beam.
5. Record the reading in the log book, this is the initial baseline output to be referenced by all future readings after replacement lamps are installed.
6. Repeat steps 1-5 at 6ft (1.83m) from the center of the upper-room UV-C luminaire.
7. If measuring during relamping and after initial installation, compare results to baseline measurements. If value is less than baseline reading, take corrective action by cleaning the lamp and fixture. If value is more than baseline reading, make sure proper wattage lamp is being installed.
1,2
Note: Upon luminaire relamping and/or cleaning, changes to site conditions
(painting, installation of new luminaire in the irradiance path, changing or resurfacing reflective surfaces, installation of obstructions in the irradiance path, etc.) and/or changes to site usage, repeat steps 1-7.
1. End TB Transmission (ETTI) (2019) Maintenance of Upper-Room Germicidal Ultraviolet (GUV)
Air Disinfection Systems for TB Transmission Control, Stop TB Partnership, Geneva, Switzerland. www.stoptb.org/wg/ett/resources.
2. Nardell EA, Bucher SJ, Brickner PW, Wang C, Vincent RL, Becan-McBride K, James MA, Michael
M, Wright JD. Safety of upper-room ultraviolet germicidal air disinfection for room occupants: results from the Tuberculosis Ultraviolet Shelter Study. Public Health Rep. 2008;123:52–60 w.
4 ALKCO
Step 02: Eye Level Safety measurements
Instructions for Measuring
1. Create a grid of measurements on the floor, placing the tripod at an equally-spaced distance
(see table to the right).
2. Place the tripod head at the default 6ft (1.83m) or acceptable eye level for the tasks that take place in the space.
3. Make sure to use the 80° field of view adapter on the detector for these measurements.
4. At each grid point, take five measurements.
• For the first measurement, orient the detector
(normal of the detector surface) horizontally
(pointed at ceiling).
• Next, orient the detector vertically, pointing straight ahead along the typical line of sight for measurements in all directions
(north, east, south, west).
5. Record the location of all measured points, clearly highlight if any measurement is higher than the maximum agreed upon value for the application
(based on the Maximum Permissible UV-C Exposure guidelines in Appendix A).
2 Corrective action needs to be taken and system should not be released for use until measurements are in alignment with
Appendix A dosage recommendations.
Measurement Grid
Space
Length
(ft/m)
Maximum grid spacing
(ft/m)
<6ft/<1.83m
6-24ft/2-7.5m
1.5ft/0.5m
3ft/0.91m
24-65ft/7.5-20m 4.5ft/1.5m
>65ft/>20m 6ft/1.83m
Minimum grid points
10
15
4
5
• The larger the area, the bigger the distance between measurement points.
• Grid should not align with luminaire layout.
• If a simulated calculation of the space has been provided, the measurement grid may follow the simulated grid points for correlation.
• Reduce grid distance:
- Where multiple luminaire are combining energy 3
- Wherever highly reflective surfaces might be found 4
- At task areas
Sensor Orientation
Horizontal
1. ICNIRP (2007) Protecting Workers from Ultraviolet Radiation.
2. See Appendix A.
3. End TB Transmission (ETTI) (2019) Maintenance of Upper-Room Germicidal Ultraviolet (GUV)
Air Disinfection Systems for TB Transmission Control, Stop TB Partnership, Geneva, Switzerland. www.stoptb.org/wg/ett/resources.
4. See Appendix B.
Vertical
UV-C 5
Step 02: Eye Level Safety measurements
Figure 2
Figure 2: Technician checking eye level safety with UV-C radiometer.
Searching for the hot-spots at eye level using a hand-held radiometer and sensor with 80 degree field-of-view cover to mimic the structure of the brow and eye.
Figure 3: A tape measure is recommended to set the tripod to
6ft (1.83m).
Figure 4: A tripod is recommended for easy repetitive measurements at 6ft (1.83m) along the grid.
Figure 5: Measuring along the line of eye sight of the occupant.
6 ALKCO
Figure 3
Figure 4
Figure 5
Step 03: Documentation and Deliverables
Deliverables:
1.
Mechanical / Electrical Installation report (reporting if the luminaires were correctly installed, following mounting instructions and design guidance)
2.
Visual / photographic inspection (confirming if all elements noted during the audit still valid)
3.
Confirmation that visual markers (stickers to be placed on the wall and luminaire) are proper placed as per mounting instructions.
4.
Irradiance measurements (in excel or PPT, preference typed, not scanned).
5.
Effectiveness measurements - In the beam (Step 01)
6.
Eye Level Safety and compliance - Out of the beam (Step 02) at
1.7m or the height used in the design.
7.
All documentation, including Acceptance Certificate signed by
Customer, is uploaded in the dedicated Customer Portal, that is available if there is a Service Contract in place (via C4CS ticket to the C-ROC).
08 2020-1130 Rev. 00 UV-C Upper Air Commissioning and (recurrent) Measurement Guidelines
Step 03: Documentation and Deliverables
Reporting Activities
1. Mechanical / Electrical Installation report
(reporting if the luminaires were correctly installed, following mounting instructions and design guidance).
2. Visual / photographic inspection
(confirming if all elements noted during the audit are still valid).
3. Irradiance measurements should be recorded and saved
(recorded in XLS, PPT or Word – not scanned handwritten values).
4. Baseline Measurements – in the beam (Step 01).
5. Eye Level Safety and compliance - Out of the beam (Step 02) at 6ft (1.83m) or the height used in the design.
6. All documentation should be made available to all parties involved
(installing/commissioning contractor, distributor, owner) and saved in a secure location for future reference.
UV-C 7
Final Notes and Appendices
Dosing Recommendation
Maximum permissible UVC exposure
This international standard adopts the REL 1 maximum permissible UVC exposure values and the maximum permissible UVC exposure shall not exceed the ACGIH
TLH and NIOSH REL 1 of 6.0 mJ/cm 2 for an 8 hour day,
40 hour work week exposure to UV radiation at 254 nm.
2,3
Maximum permissible UVC exposure for radiation at 254 nm
Permissible UVC exposure time
24 hours
18 hours
12 hours
10 hours
8 hours
4 hours
2 hours
1 hour
30 minutes
15 minutes
10 minutes
5 minutes
1 minutes
30 seconds
15 seconds
5 seconds
1 second
Effective irradiance
µW/cm
0.07
0.4
0.8
1.8
3.3
0.09
0.14
0.17
0.2
6.7
10
20
100
200
400
1200
6000
2
<0.8 µW/cm operating
3 range for TLV assessments
>0.8 µW/cm is not allowable for design acceptance criteria and
3 commissioning
Threshold Limit Value ® (TLV ® ) consideration should be based on real-time occupancy of spaces treated by UVGI.
3
This recommendation is supported by recent UV monitoring data from First and Colleagues 4 , who founded that peak meter readings poorly predict actual exposure of room occupants.
1. CDC/NIOSH. Recommended Exposure Limit. REL, 2005
2. NIOSH. Criteria for a recommended standard: Occupational exposure to ultraviolet radiation
Publication 73-11009. National Institute for Occupational Safety and Health, Washington, D.C, 1972
3. ACGIH. 2007. TLVs® and BEIs®. American Conference of Governmental Industrial Hygienists,
Cincinnati, OH
4. First M.W., Weker R.A., Yasui S., Nardell E.A. Monitoring human exposures to upper-room germicidal ultraviolet irradiation. J. Occup. Environ. Hyg. 2005, 2 pp. 285–292
8 ALKCO
UVC radiation reflectance
Material Refl. (%)
Aluminium: untreated surface
Aluminium: treated surface
40-60
60-89
Aluminium: sputtered on glass
“ALZAK” treated aluminium
“DURALUMIN”
75-85
65-75
Stainless steel
/Tin plate
16
25-30
Chromium plating 39
Various white oil paints
3-10
Various white water paints
Aluminium paint
Zinc oxide paint
Black enamel
White baked enamel
10-35
40-75
4-5
5
5-10
White plastering 40-60
Magnesium oxide 55-60
Calcuim carbonate 75-88
Linen 70-80
Bleached wool
Bleached cotton
17
4
Wallpapers: Ivory 30
Wallpapers: white 31
Wallpapers: white 21-31
31 Wallpapers: red printed
Wallpapers: ivory printed
26
Wallpapers: brown printed
White notepaper
18
25
Reed NG, Wengraitis S, Ultraviolet Spectral
Reflectance of Ceiling Tiles, and Implications for the Safe Use of Upper-Room Ultraviolet
Germicidal Irradiation Photochemistry &
Photobiology 2012, 88: 1480-1488
Ceiling tiles reflectance values
ID
Incl specular
Excl specular
A 0.035±0.001
0.034
B 0.043±0.002 0.041
C 0.048±0.001
0.047
D 0.051±0.001
0.05
E 0.052±0.002 0.047
F 0.055±0.006 0.054
G 0.060±0.002 0.059
H 0.064±0.004 0.062
I 0.070±0.001
0.065
J 0.071±0.005
0.071
K 0.071±0.001
0.069
L 0.074±0.001
0.071
M 0.076±0.003 0.067
N 0.096±0.003 0.041
O 0.106±0.006 0.047
P 0.107±0.024
0.05
Q 0.122±0.007
0.047
R 0.151±0.008
0.054
S 0.152±0.009
0.059
T 0.165±0.021
0.062
U 0.237±0.011
0.065
V 0.240±0.033 0.071
W 0.240±0.063 0.069
X 0.244±0.023 0.071
Y 0.245±0.070 0.067
Z 0.260±0.048 0.288
AA 0.260±0.035 0.243
BB 0.273±0.007
0.274
CC 0.275±0.016
0.28
DD 0.276±0.013
0.283
EE 0.276±0.026 0.29
FF 0.282±0.029 0.306
GG 0.334±0.024 0.333
HH 0.353±0.031
0.363
II 0.362±0.028 0.364
JJ 0.423±0.103
0.41
KK 0.459±0.015
0.438
Final Notes and Appendices
Ceiling tile information
Armstrong
Armstrong
Armstrong
Armstrong
Armstrong
Armstrong
Armstrong
Certain-Teed
Certain-Teed
Certain-Teed
Certain-Teed
Certain-Teed
USG
USG
Manufacturer Item Name
Armstrong
Armstrong
Armstrong
Armstrong
Armstrong
Armstrong
Armstrong
Armstrong
Armstrong
Armstrong
Armstrong
Armstrong
Armstrong
Armstrong
Armstrong
Armstrong
Armstrong
Armstrong
Armstrong
Armstrong
Armstrong
Armstrong
Armstrong
Item No.
Materials Notable surface features ID
Armatuff
Ceramagurad
Cirrus
860
605
574
Cirrus (camel)
Cirrus (platinum)
Clean Room Mylar
Clean Room VL
Cortega
Crossgate
Dune
Endura
Fine Fissured School Zone 1714
Fine Fissured (camel) 1729
Fine Fissured (haze) 1729
589
589
1721
870
769
2625
1772
639
Wet-formed high-density mineral fiber Latex paint
Ceramic and mineral fiber composite
Wet-formed mineral fiber
Wet-formed mineral fiber
Wet-formed mineral fiber
Wet-formed mineral fiber
Wet-formed mineral fiber
Latex paint
Latex paint
Soil-resistant polyester film G
Vinyl-faced membrane K
S
X
Wet-formed mineral fiber
Wet-formed mineral fiber
Latex paint
Latex paint
Wet-formed mineral fiber Latex paint
Wet-formed high-density mineral fiber Vinyl latex paint
Wet-formed mineral fiber
Wet-formed mineral fiber
Wet-formed mineral fiber
Fine Fissured (techblack) 1729
Fine Fissured (white) 1729
Fine Fissured Open Plan
Georgian
1754
17
Graphis
Latitudes
Ledges
Mesa
Optima
1753
8005
8011
680
3151
Painted Nubby
Pebble
Random Fissured
Sansera
Shasta
Stratus
VL
Ecophon Gedina E
Fine Fissured High NRC
Symphony F
Theatre Black F
Vinyl Rock
Astro Climaplus
Brio Climaplus
3101
2989
2910
573
2906
531
871
—
454
134,2,4
—
—
1910,2 Fiberglass
1140,2-CRF-1 Gypsum
Mineral fiber
Mineral fiber
Wet-formed mineral fiber
Wet-formed mineral fiber
Wet-formed mineral fiber
Wet-formed mineral fiber
Wet-formed mineral fiber
Wet-formed mineral fiber
Wet-formed mineral fiber
Wet-formed mineral fiber
Fiberglass with acoustically transparent membrane
Fiberglass
Fiberglass
Fiberglass
Embossed wet-formed mineral fiber
Fiberglass
Wet-formed mineral fiber
Wet-formed mineral fiber
Fiberglass
Wet-felted mineral fiber
Fiberglass
Scrubbable plastic finish
Latex paint
Latex paint
Latex paint
Latex paint
Latex paint
Latex paint
Latex paint
Latex paint
Latex paint
Latex paint
Latex paint
Latex paint
Acoustically transparent membrane and latex paint
Latex paint
Latex paint
Latex paint
Vinyl-faced membrane
Sound-resistant coating
R
KK
HH
FF
T
DD
V
AA
U
GG
EE
N
Scrubbable vinyl film facing F
Latex paint
Scrubbable vinyl film facing H
Latex paint
Laminate
Laminate
Scrubbable vinyl film facing
—
—
I
P
E
J
W
B
D
Z
II
CC
Y
JJ
L
BB
M
C
A
Q
Q
Note: All tiles are white unless noted in parentheses next to the model, or in the model name itself; ID used to identify specific tiles in Figures, Tables, and text.
UV-C 9
© 2021 Signify Holding. All rights reserved. The information provided herein is subject to change, without notice. Signify does not give any representation or warranty as to the accuracy or completeness of the information included herein and shall not be liable for any action in reliance thereon. The information presented in this document is not intended as any commercial offer and does not form part of any quotation or contract, unless otherwise agreed by Signify.
All trademarks are owned by Signify Holding or their respective owners.
SGn-2032BR 05/21 www.signify.com/uv-c
Signify North America Corporation
200 Franklin Square Drive,
Somerset, NJ 08873
Telephone 855-486-2216
Signify Canada Ltd.
281 Hillmount Road,
Markham, ON, Canada L6C 2S3
Telephone 800-668-9008
advertisement
Key Features
- Disinfects up to 99.9% of viruses, bacteria, and fungi
- Provides upper-room air disinfection 24/7
- Reduces the risk of infection and improves indoor air quality
- Easy to install and maintain
- Suitable for various applications
Related manuals
Frequently Answers and Questions
How does the UV-C luminaire work?
Where can the UV-C luminaire be used?
Is it safe to use the UV-C luminaire in occupied spaces?
How often should the UV-C luminaire be maintained?
What is the lifespan of the UV-C lamps?
advertisement