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Ceramic
Dust & Fume Filters - Per Work Station
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Per Station Dust Collectors such as these are ideal for 'Cell Based' manufacturing and work stations. Most of these solutions are based upon self-cleaning filter cleaning systems to reduce filter costs.Water based systems are also available for certain explosive and flammable applications
Some important points to consider when purchasing:
What is the Total Flow Rate? (How many CFM's are needed to capture the contaminants)
What is the exact resistance (filter and capture device losses) required for the fan to overcome?
Do I have enough filter media in the collector?(Air to cloth ratio)
Will it stand up to your environment (Eg: is it made from Plastic or Steel?)
Filter cleaning: Does the filter cleaning system really work in your application?
What will be my filter, maintenance and energy costs per year?
Are there any tertiary risks such as fire, explosion, etc, that I need to consider?
Here are some general design velocities when using "CAPTURE" Hoods:
Smoke (e.g. Welding):Capture Velocity 100 FPMTransport Velocity 3000 FPMMinimum Face Velocity 2355 FPM
Dust (e.g. Grinding):Capture Velocity 500 FPMTransport Velocity 4000 FPMMinimum Face Velocity 4000 FPM
Gas (e.g. V.O.C.'s):Capture Velocity 50 FPMTransport Velocity 2000 FPMMinimum Face Velocity 785 FPM
For more info, please see the products and associated documentation listed below.
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Dust & Fume Filters - Centrally Ducted
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Centrally Ducted Dust Collectors such as these are ideal for large shops and centrally ducted applications. Most of these solutions are based upon self-cleaning filter cleaning systems to help reduce filter costs. In addition, Water based filtration systems are available for certain explosive and flammable applications
Some important points to consider when purchasing:
What is the Total Flow Rate? (Add up all the inlets that will run at once)
What is the exact resistance (filter and duct losses) required for the fan to overcome?
Do I have enough filter media (Air to cloth ratio) in the collector?
Will it stand up to your environment (Eg: is it made from Plastic or Steel?)
Filter cleaning: Does the filter cleaning system really work in your application?
What will be my filter, maintenance and energy costs per year?
Are there any tertiary risks such as fire, explosion, etc, that I need to consider?
Here are some general design velocities when using "CAPTURE" Hoods:
Smoke (e.g.Welding):Capture Velocity 100 FPMTransport Velocity 3000 FPMMinimum Face Velocity 2355 FPM
Dust (e.g. Grinding):Capture Velocity 500 FPMTransport Velocity 4000 FPMMinimum Face Velocity 4000 FPM
Gas (e.g. V.O.C.'s):Capture Velocity 50 FPMTransport Velocity 2000 FPMMinimum Face Velocity 785 FPM
For more info, please see the products and associated documentation listed below.
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Ducted Air Cleaners-Dust Fume Vapor
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Ducted Air Cleaners are used in a variety of applications where the filter selection often requires a specific configuration. With these collectors you can select a variety of particulate, liquid or gas phase filters such as “HEPA” filters, “Mist Agglomerators” and “Gas Adsorbers” respectively.
These systems are available with or without pre-engineered and installed fan packages.
Here are some general design velocities when using "CAPTURE" Hoods:
Smoke (e.g. Welding): Capture Velocity 100 FPMTransport Velocity 3000 FPMMinimun Face Velocity 2355 FPM
Dust (e.g. Grinding):Capture Velocity 500 FPMTransport Velocity 4000 FPMMinimun Face Velocity 4000 FPM
Gas (e.g. V.O.C.'s):Capture Velocity 50 FPMTransport Velocity 2000 FPMMinimun Face Velocity 785 FPM
Mist:Capture Velocity 100 FPMTransport Velocity 2250 FPMMinimum Face Velocity 1766 FPM
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Mist Collectors
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Mist Collectors are for a variety of mist producing applications such as:
CNC Machining and Coldheading Applications.
These filters are "SELF-DRAINING" and it is important that the amount of dust being captured by these systems does not exceed more than 5% of the total extracted pollutant.
If the dust quantity is kept to a minimum, filter life can be expected between 1 and 5 years depending on the application and runtime.
Here are some general design velocities when using "CAPTURE" Hoods:
Mist: Capture Velocity 100 FPMTransport Velocity 2250 FPMMinimum Face Velocity 1766 FPM
Here are some general design velocities when using "ENCLOSING" Hoods:
Mist CNC:Minimum Face Velocity 75 FPMTransport Velocity 2250 FPM
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Hi-Vac & 'On Tool' Extraction Systems
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Hi-Vac capture and filtration of welding fume is a highly effective method of capturing welding fumes directly at source. This solution involves the use of CAS welding gun (sold by many welding equipment resellers) or by the use of one of our tool attachments.
The fumes are extracted directly on the welding gun and filtered by a remotely located Hi-Vac filtration system
Here are some general design velocities when using "CAPTURE" Hoods:
Smoke (e.g. Welding): Capture Velocity 100 FPMTransport Velocity 3000 FPMMinimum Face Velocity 2355 FPM
Dust (e.g. Grinding):Capture Velocity 500 FPMTransport Velocity 4000 FPMMinimum Face Velocity 4000 FPM
Gas (e.g. V.O.C.'s):Capture Velocity 50 FPMTransport Velocity 2000 FPMMinimun Face Velocity 785 FPM
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Vehicle Exhaust - Cars & Trucks
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The best way to protect mechanics and garage employees from the harmful gases released from automotive vehicles such as cars & trucks is CAPTURE AT SOURCE. This means directly at the tailpipe.
This process involves the capture of the fumes through suction hose, nozzles, hose storage mechanisms and LEV fans.
The most commonly used device to store the hose is a Hose Reel. Hose reels are proven space saving devices and go along way in protecting the hose from abuse over time. These solutions are typically ordered with the appropriate hoses to suit the applications and can be further enhanced through the addition of optional tail-pipe adapters, extension booms & fans.
Here are some general design velocities when using "RECEIVING" Hoods:
Vehicle Exhaust:Minimum Face Velocity 3000 FPMTransport Velocity 3000 FPM
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