1. User Control Panel
2. Carrying Handle
3. No-Draft Diffuser
4. Cleanroom-Grade HyperHEPA Filter
5. Snap-Open Locking Arms
6. High-Performance Centrifugal Fan
7. Advanced Fan Control
8. Pre-Max Pre-Filter (Class F9)
9. Dual Floor Air Intake
| General |
| Number of Selectable Fan Speeds |
5 |
| Air Delivery (with new filters
installed) per Speed |
1 - 45 cfm
2 - 70 cfm
3 - 90 cfm
4 - 155 cfm
5 - 270 cfm |
| Maximum Coverage Area |
1200 sq ft (based on maximum fan
speed and an 8.5 ft ceiling) |
| System Efficiency for
Particles |
99.99% or more at 0.3 microns
99.7% for smaller particles
|
| Power Requirements |
115 VAC 50-60 Hz The entire
electrical system is UL certified. |
| Energy Consumption (Max) |
195 W |
| Standby Energy Consumption |
2.5 W |
| Power Cable |
Grounded Detachable 10 foot |
| Dimensions |
H 32" W 15" D 16" |
| Net Weight (including filters) |
33 lbs |
| Warranty Period |
1 yr on unit including fan motor,
excluding filters |
| Filters |
| Number of Filter Stages |
2 (fine dust and micro dust
filtration) |
| Total Number of Replacement Filters |
2 (pre-filter, HEPA Filter) |
| Pre-Filter |
32 sq ft mini-pleat fine dust filter |
| HEPA Filter Efficiency |
99.97% at .3 microns |
| HEPA Filter Surface Area |
44 sq ft. |
| Filter Frame Material |
Expanded polystyrene (EPS),
chlorofluorocarbon (CFC) - free |
| Filter Life |
Pre-Filter 6-18 months
HEPA up to 2 years (filter life is dependant on the
operating environment) |
| Housing |
| Number of Housing Modules |
6 |
| Housing Material |
PC-ABS and ABS(UV-stabilized) |
| Color of Main Housing/Arms |
Light Gray/White |
| Air Intake |
Two side openings at base of unit |
| Air Outlet |
Via diffuser with horizontal 320
degree opening on top of unit |
| Fan |
| Fan Type |
Centrifugal fan, backward curved,
single inlet |
| Bearings |
Maintenance-free steal ball bearings |
| Speed Regulation |
Voltage reductions via capacitor
switching |
| Electronic Control
Panel |
| Control Panel Finish |
Polyester overlay panel |
| Main Display |
Liquid crystal display, 16 character
x 2 line |
| Status and Indicator LEDs |
Timer Status LED, Filter Life Status
LEDs, Fan Speed Indicator LEDs |
| Display Languages |
English, French, German, Italian,
Spanish |
|
Professional Control Airborne Particulates
The IQAir� Cleanroom Series has been designed specifically
for the removal of airborne particles. The systems feature the
highest air delivery and longest filter life of any IQAir
particle filter system. To allow for maximum air delivery the
systems contain no gas phase filtration.
The Cleanroom Series provides a choice of 2 models, each
with a specific filter efficiency and air delivery profile.
While healthcare facilities may require higher air delivery to
achieve optimum control of microorganisms (e.g. in ICUs or TB
isolation rooms), a cleanroom facility may need a filtration
efficiency of 99.97% to meet strict manufacturing regulations
or standards.
Positive and Negative Pressure Environments
Each IQAir� Cleanroom system can be used as a recirculation
device or it can be combined with IQAir's ducting adapters
InFlow W125 or OutFlow W125 to create positive and negative
pressure environments. The creation of negative pressure helps
to contain harmful particles, such as microorganisms, in a
particular area (e.g. TB isolation).
The creation of positive pressure helps to protect clean
areas from contaminants entering from adjacent rooms (e.g.
protective isolation of immuno-compromised patients,
controlled environments for medical device manufacturing).
Decentralised Airborne Infection Control in
Health-Care Facilities
Airborne pathogens in health-care environments pose a
particular risk to immunocompromised patients who may inhale
fungal spores, bacteria and viruses. Airborne microorganisms
can not only complicate recovery from surgery, but can also
lead to life-threatening infections,costing health-care
services hundreds of millions every year.
Hospital-acquired aspergillosis for example has been
recognised increasingly as a cause of severe illness and high
mortality in immunocompromised individuals, e.g. patients
undergoing chemotherapy and/or organ or bone marrow
transplants. In the light of the marked increase in nosocomial
infections over recent years, many of which are caused by
drug-resistant pathogens, the importance of using
high-efficiency air filtration systems beyond the confines of
so-called �critical areas� (such as operation theatres) has
once again been emphasised. Both the World Health Organisation
(WHO) and the Centers for Disease Control and Prevention
(CDC), advise that, wherever possible, preventive infection
control measures should be implemented to reduce the risk of
nosocomial infections.
|
