New Products From Tech Sales

It is a safe non-toxic, biodegradable chemical to be used on the waterside of heat transfer equipment. You do not have to heat it.

Dynamic Descaler™ is safer for the employees to use than other acid products. Your equipment will be cleaned in only hours without disassembling any part of the equipment. Equipment can also be cleaned without any down time (cleaning on the run). Cleans down to the original surface without pitting. Dynamic Descaler™ is safe on copper, copper-nickel, bronze, brass, iron and rubber.

The New Gold Standard In Air Knife Curtain Blow-Off Technology

• Air Knife X-Stream™ is easy to mount and maintain and reduces both compressed air consumption and noise levels. it is the most efficient design yet achieved for air knife curtain blow-off technology for reducing noise levels yet providing the optimum in blow-off energy.
  
  
• Air Knife X-Stream™ produces a “laminar” flow of air along its length using the ”Coanda” effect which “entrains” a large volume of air from the surrounding area along with the small amount of compressed air from the X-Stream Air-Blade™ to produce an output flow up to 40 times.
  
  
• System payback on compressed air savings can be as soon as a few weeks in some applications.
  
  
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Mist elimination or demisting can be defined as the mechanical separation of liquids from gases. The first and most widely used separators were comprised of impaction devices in packed columns, such as packing and perforated plates. Cyclonic separators were later developed to lower the height of the packed columns. Then wire mesh mist eliminators were invented to lower the pressure drop of the cyclonic separators and improve the collection efficiency of smaller droplets.

The wire mist eliminators, commonly referred to as knitted mesh mist eliminators, collect droplets by the inertial impaction and interception mechanisms of collection. The wire mesh separators are commonly used to collect droplets above 5 microns in diameter. However, when the separation of droplets in the 1-3 µm is required, these wire mist eliminators are largely ineffective because of the mesh’s random structure, irregular density, and coarse fiber diameters.

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