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The HILCO ceramic membrane system is an ideal way to lower your oily-water waste disposal costs. The filtration system utilizes high-velocity fluid “crossflow” across the face of the membrane. The oil-free water passes through the ceramic membrane while the oily waste is concentrated in a process reservoir. Depending on the particular waste stream disposal, volumes can be reduced as much as 20x. The system is designed to accept three different micron-rated membranes (0.2 µm, 0.01 µm, and 0.005 µm) in order to meet all specific local discharge ordinances.
Features and Benefits include:
• High Packing Density
• Broad PH Range of 2-13
• Resistant to Thermal Shock
• Back Flushable
• Immune to Chlorine Attack
• Durable Ceramic Extends Lifetime
• High Surface Area to Unit Volume
• Compact Design
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| EcoFC-XU™, available in 1 to 6-cell versions, generates 4.5 to 36 watts at 0.6 to 3.6 V. They are designed for demonstration and study of fuel cell operation. Although the output voltage increments are the same as LightFC-XU™, more power is available because the membrane electrode assembly in the fuel cell has a larger active area. By comparison, this is more power than is normally drawn from a 9 V battery. EcoFC-XU™ series are straightforward fuel cell stacks, powerful enough to operate small electronic devices, inexpensive to own and convenient to experiment with. |
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| LightFC-XU™ is a small, 1 to 4-cell fuel cell designed specifically to demonstrate the potential of fuel cells. It can be purchased in 0.6, 1.2, 1.8 and 2.4V models that deliver 1.3-8 watts of power, enough to illuminate a small light bulb. LightFC-XU™ is an excellent starter kit for understanding the inner workings of fuel cells. |
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| H2 ECOnomy’s ProFC-XU™ series air-hydrogen PEM fuel cells provide maximum power from 13 watts to 130 watts, depending on the model. Designed for demonstration and study of fuel cell operation, these PEM fuel cell stacks are offered in 1 to 10-cell models. They produce 13 to 130 watts of power at 0.6 to 6.0 V. This is more than enough power to keep your notebook computer running. ProFC-XU™ provides a good model of the systems that are being used in various applications. |
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Fuel cells
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Benefits:
- extremely small total height
- easily compatible with CLEARPOINT® filters
- top-grade design
- all functional components are built-in and well protected inside the housing
- guaranteed drying, as humidity is removed in any case
- no alteration of the usual compressed air composition
- low purge air demand
- service-free, as there are no wearing parts in the dryer (merely the regular change of the filter elements is required)
- no ecologically undesirable drying agents |
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Membrane Compressed Air Dryer for Critical Applications
The Parker Compressed Air Point of Use Dryer are capable of delivering clean, dry compressed air with a dew point of -40°C at atmospheric pressure. No electrical supply is required to use the Parker Membrane Air Dryer. Each membrane air dryer is equipped with a high efficiency coalescing prefilter to remove oil, water, and particulate contamination.
Features
Provide clean, dry compressed air
Offer a reliable, efficient and economical
alternative to pressure swing and
refrigerant dryer technologies
Require no electricity low operating costs
Built-in high-efficiency prefilter
Atmospheric dew points as low as
-40ºC prevent freezing
Inherently safe in hazardous areas
Silent operation
No refrigerants or freons
No desiccant to change
No moving parts or motors |
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S u n s e p use diffusion prinziple for drying air, by a polymere microfibre hollow membrane. The sunsep-w can ensure a dewpoint up to -40°C. Outlet dewpoint depends on the inlet dewpoint temperature.
Type max. capacity Weight Microfilter (Prefilter)
Sunsep at 8 bar a without prefilter
(l/min) (kg) SWC M04-70 030 0,05 G 2 XP
SWC M08-100 70 0,26 G 2 XP
SWC M15-100 120 0,27 G 2 XP
SWC 01-150 200 0,39 G 2 XP
SWC 02-250 300 0,69 G 2 XP
SWC 02-200 400 0,45 G 2 XP
SWC 03-250 450 0,71 G 2 XP
SWB 01-100 200 0,22 G 2 XP
SWB 01-200 200 0,26 G 2 Xp
SWB 05-100 800 0,66 G 3 XP
SWF M06-400 025 0,12 G 2 XP
The regeneration air requirement quantity is 15-18%. Flow rate as well as the regeneration air requirement are dependent on the operating pressure, inlet temperature and the dew-point of the compressed air. The maximum permissible operating pressure is 8.5 bar min/max compressed air and ambient temperature: -20°C/55°C. Higher operating pressures available on request. |
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Dimensioning range from 26 Nm³/h up to 320 Nm³/h at purity
up to 99.5 %.
Due to the development of special fibres filtrating compressed
air very efficiently, this plant achieves unchanging purity grades.
The IMT-MN is a cost-saving alternative to the traditional supply
by gas-bundles or tank installations.
As an option these plants are available in stainless steel or ATEX
dessign. |
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A complete range of membrane module sets offers you the possibility to integrate your own nitrogen source. Your requirements can always be met thanks to the different sizes and membrane performance available.
The smallest module only measures around 30 centimetres in length and the largest around 1.5 metres. Due to the different measurements there is surely a module that will fit the equipment you are designing. |
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Oxygen from the socket.
Oxygen supply without extensive logistics at purity range up to 40 %.
These membrane generators provide a continuous supply in the
capacity range of 150 ltrs./min. up to 2000 ltrs./min. at O2 purity
grades from 30 - 40 %. |
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ADVANTAGES AND ECONOMIES
Conceived specifically to meet the requirements of flows and purities of the analytical instruments
Increase in the analytical performances
Increase in the effectiveness of the laboratory
Reinforced safety
More important economies
Simple installation
Recommended and approved by the manufacturers of instrumentations LCMS
APPLICATION
Product of nitrogen high purity starting from compressed air.
Replace the nitrogen bottles for the following applications:
- LCMS/MS
- DETECTOR ELSD
- EVAPORATION Of SAMPLES
Principle of operation
Nitrogen is produced by using membrane technology, starting from a network of compressed air without oil or pre treaty of a mini pressure. of 110 psi.
The fall of pressure is only of 10 psi (0.5 bar), weakest of the market, making easier the connection of the generator to your own network of compressed air.
The diaphragm functions on the principle of the selective permeation, or the oxygen, the steam and the CO2 which are fast gases cross the diaphragm, while nitrogen, gas slow, continuous to circulate in the form of gas flow inside the diaphragm. |
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Water resistant and technical
The technology of Parabolic® soles by Lemaitre Sécurité combined with the Sympatex® membrane enable to propose safety shoes adapted to all terrains, comfortable, waterproof and breathable.
Regular quality checks ensure the constant quality of the Lemaitre Sécurité Sympatex® range. Each material is chosen with utmost care and is submitted to stringent tests before being used in production. |
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Electronic switches and controls are operated simply and comfortably by the use of membrane switches with highest functional safety - printed with the modern screen printing technology.
Membrane switches excel due to their space-saving and compact construction, safe function, and last but not least by insensitivity to humidity and soiling. The boundless design possibilities are a further consideration. |
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Inks
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WISKA QUIXX. Push in, pierce through, ready.
There is no easier way to insert a cable with protection grade IP 66. For QUIXX we transferred the soft membrane technique from junction boxes to cable inserts. |
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