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Laboratory Exhaust
Axijet High Plume
Exhaust Systems
The Axijet® High Plume Dilution Blower is a
backwardly inclined airfoil centrifugal blower incorporating a specially
designed housing and discharge venturi nozzle. The Axijet is AMCA certified,
assuring the user and engineer of accurate performance.
The Axijet is used to extract laboratory,
process, or fume hood effluent air and dilute the effluent with outside
ambient air. Because of the nozzle design, the exhausted effluent is
displaced high into the atmosphere at a constant high discharge velocity.
As a result, the Axijet has greater exhaust
dilution, higher discharge velocity, greater exhaust mass, and a greater
plume height than conventional blowers and fans.
Many applications such as laboratory or process
exhausts are hazardous and must be exhausted to ensure the safety of those
working in close proximity to the source of the exhausted effluent.
Safety concern is extended to not only those in
the immediate area where the fumes are generated, but also to others located
in the building, as well as the occupants in surrounding building.
Improperly designed exhaust systems that
ineffectively discharge high concentrations of effluent can result in
re-entrainment of the hazardous or noxious exhaust into the building make-up
air conditioning system, contaminating the fresh building air.
In applications where the exhaust is heavier
than air and corrosive, the use of Axijet high plume blowers effectively
displace the exhaust from the building roofing system and other roof mounted
equipment, eliminating costly corrosion caused by the exhaust vapors.
EXCELLENT REASONS TO SPECIFY & USE THE AXIJET HIGH PLUME
DILUTION BLOWER…
AMCA Certified
Increases exhaust effluent dilution…
Discharge from venturi nozzle entrains ambient air with exhaust air up
to 270% of primary exhaust effluent.
Minimizes exhaust re-entrainment without
blower stacks…
Because of increased exhaust mass (270% of primary exhaust flow) and
high discharge nozzle velocity,
effluent is displaced high into the atmosphere.
Backward Inclined Airfoil
non-overloading fan wheel…
High Efficiency Stable Operation Throughout Operating Curve, Low
Radiated Sound Levels, Non-Overloading
Power Characteristics, Greater Airflow capacity per Fan, High Static
Pressure capabilities.
Choice of Materials of Construction…
Fiberglass Reinforced Plastics, Chemical resistant Epoxy Coated
Steel, or Stainless Steel.
Choice of Belt Drive…
Allows air handling capacity of fan to match system requirements of
flow and pressure, Lower horsepower required,
Lower operating costs, Use standard frame and speed motors which are
readily available, or Arrangement #4 Direct Drive.
Reliable…
Belt Drive sized for 200% of motor BHP for reliability, Bearings
sized for an L-10 life of 200,000 hours.
Safe Maintenance…
Motor maintenance does not require contact with exhaust contaminated
impeller.
Constant Volume or
Variable Volume Exhaust Applications |
 We
would be pleased to provide you with a copy of the Axijet Laboratory Exhaust
Engineering manual. This publication includes selection, application,
performance and dimensional information on designing exhaust systems for
critical laboratory applications. It also includes general information on
all the M.K. Plastics fans, exhaust systems and exhaust system components.
This design resource is available from your local technical sales
representative or M.K. Plastics directly. We look forward to assisting you
with your important application.
FACTORY & CORPORATE HEADQUARTERS
4955 De Courtrai
Montreal, Quebec, H3W 1A6
Canada
TEL: 514-871-9999
TEL: 888-278-9988 (US Toll Free)
FAX: 514-871-1753
web site:
www.mkplastics.com
U.S.
TECHNICAL SALES & MARKETING P.O. Box 385, Troy OH 45373
USA
TEL: 937-440-6405
FAX: 937-440-4606 For more information on how the Axijet can alleviate
exhaust problems please send us an email:
dan.chisholm.jr@mgisys.com
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