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Flexible Fused Silica Capillary Tubing
TSP: Characteristics
- Standard Polyimide Coating
- Synthetic Fused Silica
- 100% proof tested at 100kpsi**
- Operation up to 350°C
TSG: Characteristics
- High Temperature Polyimide Coating
- Synthetic Fused Silica
- 100% proof tested at 100kpsi**
- Operation up to 400°C
TSU: Characteristics
- UV Transparent Coating
- Synthetic Fused Silica
- Operation up to 160°C
** Tensile Strength
Custom Sizes & Coatings Available |
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Light Guiding Flexible Fused Silica Capillary Tubing
LTSP Characteristics
Standard polyimide coating
Synthetic fused silica
Doped silica cladding
100% proof tested at 100kpsi**
Operation up to 350°C
Custom sizes available
**Tensile Strength
Potential Applications
Unique sample detection & analysis
Increased path-length detection cells
Evanescent wave optics
Guide fluorescent emissions from capillary tip
Study capillary surface chemistries
Monitor emissions from ligands bound to capillary internal surface
UV transmission inside of capillary
Initiate light-activated chemistries
Cure UV adhesives
Detect light producing reactions
Chromatographic columns for ΅-LC
New technologies for improved column durability after frit formation
Windows like standard capillary for on-column detection methods
Optically monitor fluids
Before, during or after delivery/sampling |
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Square Flexible Fused Silica Capillary Tubing
WWP: Square ID / Square OD
WWP Characteristics
- Standard Polyimide Coating
- Synthetic Fused Silica
- High Strength
- Operation up to 350°C
- Intermittent up to 400°C
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Thick Wall Flexible Fused Silica Capillary Tubing
TSP Characteristics
Standard polyimide coating
Synthetic fused silica
100% proof tested at 100kpsi**
Operation up to 350°C
Advantages
Thick wall provides added mechanical strength during and after packing.
Exacting ID tolerances minimize column-to-column variations.
Durable polyimide provides good chemical and abrasion resistance.
Easily cleaved to the desired length
The initial product offering includes four standard sizes, all with a common OD of 665΅m. ID's vary from 150΅m up to 300΅m. Production of custom sizes to meet your exact product requirements are available upon request. |
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Precision Windowed Silica Capillary Tubing
Polymicro Technologies is your source for windowed capillary routinely used in CE and other analytical applications. Our non-abrasive laser technique provides strong, clean, durable windows. Whether your using our standard polyimide coated, synthetic fused silica capillary tubing, or a custom drawn capillary, let Polymicro do the windows.
Advantages
Offers an excellent window for CE applications
Extremely strong window and smooth coating transition areas
Excellent optical surface, without damage normally resulting from abrasion or acid etching
Easily cleaved to needed application length
Low background fluorescence |
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| The Inner-Lok connector is designed for quick, contamination-free coupling of Gas Chromatography (GC) columns and other polyimide coated fused silica tubing applications. It is a precision component which provides an excellent thermal and expansion match with Polymicro Technologies' most popular fused silica capillary tubings. |
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| These are custom produced to meet the customer's needs. Various connectors, junctures, end finishes, and protective jackets are available. As the world's leading experts in handling and understanding Capillary Tubing we can produce simple configurations to very complex arrays. |
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Pitot Tube - Series 160/166/167
Insertion Lengths from 6 to 216 Inches, Designed to Meet AMCA and ASHRAE Code
Ellipsoidal Tip Pitot Tube - Series 160E
Insertion Lengths from 0.2 to 1.52 Meters, Designed to Meet British Standard 1042.
"S" Type Stainless Steel Pitot Tube - Series 160S
Insertion Lengths from 18 to 72 Inches, Designed to Meet EPA Spec. 40 CFR (Ch. 1)
Telescoping Stainless Steel Pitot Tube - Model 166T
Adjustable Insertion Length from 11.5 to 36 Inches
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KIMO offers a wide range of high-quality and accurate Pitot tubes, as per the AFNOR NFX 10-112 and ISO 10780 norms.
Pitot tubes Type L
Accuracy : More than 1 %, for a ± 10 ° alignment to the fluid flow.
Pitot tube with ellipsoidal head. An intake for total pressure and 6 holes for static pressure. Body made of stainless steel.
Pitot tubes Type L with TCK
Accuracy : More than 1 %, for a ± 10 ° alignment to the fluid flow.
Pitot tube with ellipsoidal head. An intake for total pressure and 6 holes for static pressure. Sheated thermocouple K probe integrated, with connection cable length 1,5 m. Body made of stainless steel.
Pitot tubes type S with TCK
Accuracy : More than 4 %, for a ± 15 °alignment to the fluid flow.
Pitot tubes with TIG welding and protective tube made of stainless steel. Sheated thermocouple K probe integrated, with connection cable length 1,5 m. Body made of stainless steel. |
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The deltaflow pitot is the portable counterpart of the deltaflow DF 25. It is the ideal sampling instrument for performing integrated measurements according to DIN 2640 standards. It possesses the same highly precise profile as the deltaflow DF25 and is used to verify and calibrate existing measurements. The deltaflow pitot is currently in use, for example, in power plants, by measurement teams, and-in the heating and air conditioning industry-to test airflow efficiency, air intake and exhaust, or to test the efficiency of ventilators.
Because the deltaflow pitot can be disassembled, it can be comfortably transported in a carrying case. Its straight construction design allows it to be easily inserted into the sampling cross-section through previously-existing apertures. The sampling profile is extremely impervious to pollution or to the accumulation of condensation. The highly durable stainless steel and the non-sealed design resist temperatures of 1040°C in constant application and can withstand temperatures of up to 1200°C for temporary measurements.
Media: Gasses
Conduit / Channel Diameter: 100..8500mm
Process Requirements: -250..1200 °C / 0..6 bar
ultra-pure through highly polluted, aggressive gasses
Tests / Certifications:
Calibrated at the Department of Flow Technology at the University of Erlangen |
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Single point Pitot Static Tube
FCO65 FCO65
* Classic Prandtl design for most duct sizes.
* Stainless steel construction
* Suitable for temperatures up to 500 degrees C.
* Optional thermocouple for temperature correction
* Versions for installation or hand-held use
Classical precision design pitot static tube for calibrated air flow measurement in various diameters from 2.1mm to 25mm, and custom built in various lengths to suit your application. |
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CHARACTERISTICS
Calibrated insertion diaphragm (concentric orifice) with
identification tag for mounting between flanges with
smooth waterproof surfaces.
The upper face of the entrance orifice plate is square
edged.
The pressure measurement taps are on flange or pipe.
Diaphragm with flanges assembly designed to be
welded to pipe.
APPLICATIONS
Gases, vapours, corrosive and non corrosive fluids.
SPECIFICATIONS
Maximum working pressure: Limited to
the flange rating.
Maximum working temperature: Depends on material
and application.
Range of Pipeline:
Nominal Diameter: DIN or ASA
Rating: DIN or ASA
Pressure taps: BSP, NPT, METRIC, etc
Flange standard: DIN or ASA.
Flange and accessories material: Depends on pipe.
Diaphragm material: See 5.1 ORIFICE PLATE &
RESTRICTION ORIFICE.
Calculations: BS EN ISO 5167-1, 2003, ASME, API, R W MILLER, L W SPINK. |
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Pitot tubes Type L : pitot tube with ellipsoidal head. An intake for total pressure and 6 holes for static pressure. Body made of stainless steel.
Pitot tubes Type L with TCK : pitot tube with ellipsoidal head. An intake for total pressure and 6 holes for static pressure. Sheated thermocouple K probe integrated, with connection cable length 1,5 m. Body made of stainless steel.
Pitot tubes type S with TCK : pitot tubes with TIG welding and protective tube made of stainless steel. Sheated thermocouple K probe integrated, with connection cable length 1,5 m. Body made of stainless steel.
Air Flow Measuring blades DEBIMO : simple and cost effective method of providing permanent air flow measurement in rectangular or circular ducts. When used with a KIMO differential pressure device (pressure, transmitter, electronic micromanometer, liquid column manometer, differential pressure switch, ...).
DEBIMO air flow measuring blades ensure accurate indication, control or recording of air flow velocity and volume. Permit velocity measurements from 3 to 100 m/s (9 Pa to 10000 Pa). |
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| Sandvik Materials Technology is a world leading supplier of seamless heat exchanger tubing in stainless steels and special metals. For critical equipment such as heat exchangers, a high operational reliability is crucial. Our heat exchanger tubes are used in various processing industries, operating under most severe conditions. |
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Optima FKM, FKN, FKH
Multitube condenser using medium and high-capacity halogen refrigerants or ammonia and a liquid. For use in residential buildings, businesses, industry and healthcare facilities.
Eight diameters and five lengths available
- FKN: for halogen refrigerants
- FKH: for ammonia
- FKM: for halgoen refrigerants cooled by seawater or highly corrosive fluids
Capacity: 50 to 7000 kW |
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| Frick Shell and Tube Condensers are available with a refrigeration capacity range from 10 tons to over 1000 tons. With the proper material selection, they can be applied to a multiplicity of refrigerants including R-717, R-22, and R-134a. Shell diameters start at 8 and go to 48 inches and larger. Bonnets ranging from single pass to 10 pass provide maximum selection flexibility. Multiple shell arrangements can be utilized to match large refrigeration systems. |
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Vortex Tubes With Metal Generators, Stainless Steel Body:
Vortex Tubes are devices that work on a standard compressed air supply. Air enters the vortex tube and literally splits the air flow into two parts - cold air at one end, and hot air at the other - all without any moving parts.
Vortex Tubes have an adjustable valve at the "hot" end controls the volume of the air flow, and the temperature exiting at the cold end. By adjusting the valve, you control the "cold fraction" which is the percentage of total input compressed air the exits the cold end of the vortex tube.
Inside is the interchangeable brass "generator" which can alter the air used in the vortex tube, and control the temperature ranges you wish to have at the cold and hot ends. There are several ranges of generators for compressed air capacity. There are also two basic types of generators - one to produce the extreme cold temperatures (maximum cold temperature out called the C generator) and one type to produce the maximum amount of cooling (maximum refrigeration called the H generator).
WHY USE Frigid-X Vortex Tubes over others?
Vortex Tubes - Frigid-X are constructed of stainless steel and use a generator and valve made of brass and sealed with viton o-rings to allow their use in the widest range of environments. Others use plastic generators and standard Buna N O-Rings and charge extra for brass and viton. The unique design and quality of materials used in Frigid-XT products will deliver years of maintenance-free operation.
Frigid-X Vortex Tubes Advantages:
- No moving parts, reliable, maintenance free
- No coolant
- Compact and lightweight
- Low cost application
- Maintenance free units
- Instant cold air in environmental chambers
- No spark or explosion hazard
- Interchangeable generators |
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Adjustable Spot Cooler - Frigid-X is a low cost and maintenance free Adjustable Spot Cooler system which utilizes a vortex tube to produce cold air at one end.
Adjustable Spot Cooler - Frigid-X temperature can be adjusted using a knob at the hot end to set the temperature precisely to your requirements. Temperatures range from approximately minus 30ΊF to room temperature and can be easily set with a thermometer.
Adjustable Spot Cooler - Frigid-X comes with three brass generators for flow rate adjustment - 15 SCFM (425 SLPM), 25 SCFM (708 SLPM) and 30 SCFM ( 850 SLPM) providing refrigeration up to 2100 BTU/hr (615 Watts).
Features:
- No moving parts or electricity
- Compact and lightweight
- Low cost
- Maintenance free
- Instant cold air
- Quiet
- Magnetic base
- Interchangeable generators |
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Sub-Zero Temperatures From Compressed Air
Using only factory compressed air, ITW Vortec's Vortex Tubes generate temperatures down to
-30°F for spot cooling in a wide variety of industrial applications and processes. A Vortex Tube separates compressed air into hot and cold air streams, lowering the supplied air temperature by as much as 100F and delivering refrigeration up to 6000 BTUH. With no moving parts to break or wear out, Vortex Tubes offer reliable, maintenance-free operation and easy installation. Various models are available for specific cooling requirements and, at only 6" to 13" long, they serve as a very compact, cooling component on machinery and equipment.
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Cabinet Coolers - Frigid-X series for electronic control panels provide a low cost method of both purging and cooling electrical and electronic control panels by using a stainless steel vortex tube to create cold air from ordinary compressed air.
Cabinet Coolers - Frigid-X series are compact and can be installed in minutes through a standard electrical knockout. There are virtually no moving parts.
Cabinet Coolers - Frigid-X series are ideal for all NEMA 12 and NEMA 4 rated panels.
Advantages:
- Low in cost
- Compact
- No CFC's
- Fast installation
- Stabilize enclosure temperature and humidity
- Virtually maintenance free (No Moving Parts)
- Mounts in a standard electrical knockout
- Stops heat damage and nuisance tripping
- Eliminates fans and filters
- Prevents dirt contamination by keeping enclosure at positive pressure
- Units applicable to all environments including high temperature to 200ΊF |
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| Vortex CoolersTM from ITW Vortec keep electrical cabinets and control panels cool, clean and protected. An affordable, maintenance-free alternative to air conditioners, the easy-to-install Coolers have no moving parts to wear out. Vortex Coolers incorporate vortex tube technology that uses filtered compressed air to produce a refrigerated air stream distributed throughout the enclosure. Unlike fans that pull in hot, dirty air, the enclosure Coolers maintain a light positive pressure inside the cabinet to effectively seal out the surrounding contamination, heat and humidity that can wreak havoc on sensitive electronic controls. Refrigerated air produced by the vortex tube enters the cabinet while hot air is expelled through a relief valve. Models are available to deliver up to 5000 BTUH of refrigeration. The UL-listed enclosure cooler systems are thermostatically controlled and are available in NEMA 12, 4 and 4X rated models. |
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