A A P E G  Hydrozyclone



Hydrozyclon1 Hydrozyclon2 Hydrozyclon3 Hydrozyclon4
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deutscher Text


Hydrozyclon-Schema

HYDRO CYCLON HC, AERO CYCLON AEC

The separation of particles rests on the cyclon effect, at which strong centrifugal forces become free. The fluid or gas stream to be cleaned enters into the separation pipe tangentially. Passing the cylindrical and conical section the circulating energy grows enormously. Particles which are heavier than the bearer-medium, are centrifugated radial to the wall of the pipe. They settle and sink into the lower part and are rinsed through a rated nozzle APEX nozzle. The clarified phase is collected axial and excluded to the overflow, the Vortex-finder. From this a further compound can be separated , f.e. super light materials like free gases or foamed products, floating matters. Among the design the performance of the cyclon is dependent from the type of particles, solids or drops, density of the components, form, surface stability, abrasivity, corrosivity, size apportionment, viscosity, and concentration, hydraulic conditions, throughput and the pressure, temperature, pH-value of the suspension, the installation itself (flow sheet) and other parameters. The cyclon or the battery of cyclones is steered by the inlet pressure.


APPLICATION CYCLON HC

Separation, clarification, thickening, drainage or pretreatment of fluids, turbids, and suspensions as well as classification, fractionation or selection of ingredients like separatable minerals, organic or biological componets, unsoluted oil, and fat. Cuttings down to < 4 microns are reached.


APPLICATION AERO CYCLONES AC

are dust cleaners for exhaust and fresh air, or they work as gas washer, aerosol- or drop separator.


A A P E G   CYLONES

are configurated in a wide range of sizes, materials, executions, compositions, and pheriperal attachements.