Process-Tech Heater & Magneto Coated Titanium Anode

Description

Process-Tech Electric Immersion Heaters - for Industrial Chemical and Water Applications


Process Technology electric immersion heaters are designed for a spectrum of industrial applications - from water to the demands of corrosive chemical heating, with a vast array of configurations available such as open tank, screw plug and flange. A wide variety of sheath materials ensure heater longevity regardless of the chemistry, including: fluoropolymer, quartz, titanium, 316 stainless steel, 304 stainless steel and plain steel. Immersion heater sizes range from as small as 100 watts for laboratory environments to as large as 54,000 watts (flange heaters up to 270,000 watts) for industrial applications. Many standard configurations are available from stock, and quick turnaround is offered for custom-configured heaters (manufacturing lead times can be as short as two or three days). Process Technology electric immersion heaters are cULus and CE listed.



Fluoropolymer (PTFE) Electric Immersion Heaters


Our fluoropolymer (PTFE) immersion heaters are compatible with virtually any chemistry and are available in sizes up to 18 kilowatts, single or three phase. We offer a large variety of standard and custom configurations for over-the-side and tank bottom installations, and low profile custom designs are also available. Rigid and flexible risers available. Our screw plug and flange heaters are manufactured in sizes from ½-inch screw plug (100 watt) to 6-inch flange (18 kW). Thermal overtemperature protection standard (except screw plug), and we offer rigid and flexible risers. The vast majority of our immersion heaters are cULus and CE.



Quartz Electric Immersion Heaters


Process Technology quartz heaters are ideal for most acidic chemistries and have metal grounded elements with quartz sheath. Up to 10 kW single tube or 30 kW triple tube available. Our polypropylene guards are standard, and fluoropolymer guards available. Tube assembly, metal element and guard sold separately, but all three must be used together. Thermal overtemperature protection standard. cULus certified and CE compliant.



Screw Plug & Flange Immersion Heaters


Process Technology develops a wide variety of heater types and features to fit virtually any application. Screw plug and flange heaters in titanium and 316 stainless, sizes from ½-inch screw plug (100 watt) to 6-inch flange (72 kW).


Metal Immersion Heaters


We offer a variety of materials to match your application - titanium, 316 and 304 stainless steel, and plain steel - in sizes up to 54 kW. Standard and custom configurations for over-the-side and bottom installations in open tanks. Thermal overtemperature protection standard (except screw plug), and our certifications include cULus and CE.


Quartz Infrared Radiant Heating Elements


Process Technology's quartz infrared radiant heating elements are designed for use in markets including but not limited to: painting, powder coating, corrosion control, organic finishing, metalworking and automotive metal finishing.

Ceramic insulators provide positive electrical insulation. The elements are used for curing, baking and drying applications and capable of reaching full heat in 40 to 65 seconds. Watt densities of 50 watts per square inch (8 w/cm2).

Special wattages and lengths are available to fit most ovens/panels. Also offered in 1/2-inch diameter tubes, three electrical terminal styles, and temperature controls are available to be sized to match the heater. These elements are intended for horizontal installation only.

The efficiency of these elements offers customers an economical alternative for replacement parts.

Magneto Coated Titanium Anode

Because of a very flexible production facility, we are able to manufacture anodes of all types: sheet, plate, mesh, wire, rod, tubular or combinations and/or assemblies of these materials. Their size and number vary from several cm2 to 2 m2 and from 1 to 10,000 pieces. The process in which the anodes are used determines size, shape and coating specification of an anode.

Important parameters determining the anode design are:

◆ The electrochemical cell or installation wherein the anodes are used

◆ The process conditions, such as electrolyte composition, temperature, current density, design life, etc.

◆ Mechanical load of the anode

◆ Capacity of electrical conductivity of the base material.

All anodes are produced according to customer specifications. When these specifications are not yet completely determined, our engineers are pleased to use their knowledge and experience to finalise the design together with the customer.


Main application areas

Anodes and coatings

Details


Cathodic Protection

KERAMOX® Titanium anode

Platinised Titanium



Anodes based on Niobium or Tantalum

All round applicable

At high current densities, for example in sea water

High voltages or strongly corrosive electrolytes




Seawater electrolysis

KERAMOX® Titanium anode

Titanium with a Ruthenium Mixed Metal Oxide coating

Titanium with a Platinum-Iridium Oxide coating



Depending on amongst others temperature and

salinity




Electroplating

Titanium with an Iridium Mixed Metal Oxide coating




Platinised Titanium

In highly acidic environments such as:

◆Electro galvanising (zinc plating)

◆Anodising of Aluminium

◆Chromium, Nickel,Tin, etc. plating

◆Precious metal plating

◆Reverse pulse Copper plating

Hard Chromium plating

Precious metal plating




Water treatment

Platinised Titanium

Titanium with an Iridium Mixed Metal Oxide coating



Boron-Doped-Diamond anodes

Electro dialysis with polarity reversal

Recovery of metals

Oxidation and break-down of organic contaminations

Higher overpotentials,amongst others for disinfection




Hypo chlorite & Disinfection

Titanium with a Ruthenium Mixed Metal Oxide coating

Titanium with an Iridium Mixed Metal Oxide coating

Titanium with a Platinum-Iridium Oxide coating





Depending on salinity, polarity reversal and current density






Synthesis reactions

Platinised Titanium

Titanium with an Iridium Mixed Metal Oxide coating

Boron-Doped-Diamond anodes

Depending on the particular reaction





At higher overpotentials




Hydrogen production

Nickel electrodes with a precious metal coating

Coating process by means of exchange plating

The purpose is to decrease the overpotentials



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