Product category:
Process Hardware (Pipes, Nozzles, Heaters, etc)
News Release from: Bete | Subject: TurboMix
Edited by the Engineeringtalk Editorial
Team on 05 October 2007
Mixing nozzle design receives upgrade
The TurboMix now features three legs instead of four, resulting in an increased induction area and improved performance.
Bete has enhanced the design and manufacturing process of its TurboMix metal eductor mixing nozzles The sprayer is now available in a new range of materials together with an updated design
This article was originally published on Engineeringtalk on 14 Nov 2000 at 8.00am (UK)
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Efficient alternative to mechanical mixing
An innovative, effective and economical way to circulate and mix liquids in closed or open tanks, the TurboMix eductor, is now available from Bete
Quick-change nozzles designed to save time
A range of quick-change connection nozzles, specifically designed to reduce time and increase the versatility of spraying applications, has been introduced by Bete
Nozzle cuts typical replacement times by 80%-90%
A product specifically designed to cut the cost and time traditionally associated with the maintenance of nozzles used for spray drying applications is available for the first time in the UK
It delivers improved results that are suited to the food and drink, agricultural, chemical, paint and phosphating industries.
With lead times reduced to one week for standard materials and three weeks for specials, the TurboMix now features three legs instead of four, resulting in an increased induction area and improved performance.
An improved casting process enables a smoother, more consistent finish while more materials are now available.
The TurboMix contains no moving parts and provides an effective and economical way to circulate and mix liquids in closed or open tanks It reduces energy use and saves money, while being inherently clog resistant and requiring minimal maintenance.
It agitates liquids, or liquids with suspended solids, to improve circulation, maintain uniform liquid characteristics, mix chemicals, or move solids along the bottom of a tank.
Depending on the model and operating pressure, the volume of liquid discharged from the TurboMix will be three to five times greater than the volume of motive fluid pumped through the system.
The TurboMix is submerged inside a tank while motive liquid is pumped, under pressure, through the discharge orifice.
The jet of motive liquid enters the venturi section, drawing additional liquid from the tank, and out through the venturi.
A discharge plume of combined motive and drawn liquids exits the venturi and continues the mixing and agitating action for a substantial distance.
The operation of the TurboMix creates a multiplying effect on fluid flow.
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