Home           Products           Company           Contact us     
> Fundamentals of Control Engineering
> Components and Calibration
> Simple Process Engineering Control Systems
> Complex Process Engineering Control Systems
> Fundamentals of Process Engineering
> Mechanical Process Engineering
> Thermal Process Engineering
> Chemical Process Engineering
> Biological Process Engineering
> Water Treatment
Products  |  Process Engineering  |  Mechanical Process Engineering  |  CE 225
CE 225 Hydrocyclone Show data sheet (pdf file) Print page
CE 225 - A product from the GUNT 2E range
Technical Description

  Hydrocyclones can be used to separate solids suspended in liquids. In CE 225, the suspension is prepared in a tank. A pump delivers the suspension into the tangential inlet of the cyclone. In the cyclone a downward primary vortex is created. The downward taper causes the vortex to reverse. In the middle it moves as a secondary vortex back up towards the immersion tube, where the suspension emerges from the cyclone, having lost the coarse material in it. Inside the cyclone an air core is formed. The centrifugal forces cause the coarser solid particles in the primary vortex to be enriched. They are discharged with the bottom flow at the apex nozzle. It is mainly the fine material that is discharged from the top.

  The flow rate in the inlet is adjusted by a valve in a bypass and measured with a magneto-inductive flow meter. Sampling points are installed at the bottom and top flow. The flow rates in them can be determined by means of a bucket and a stopwatch. To determine the solid concentration, a balance and a drying chamber are recommended. Using a suitable analysis device (such as a diffraction spectrometer), a separation function can be produced and the separation size determined. Quartz powder and diatomite are recommended for use as the solid.

  The trainer was developed in cooperation with the Department of Mechanical Process Engineering at Anhalt University of Applied Sciences.

  The well-structured instructional material sets out the fundamentals and provides a step-by-step guide through the experiments.

  

Learning Objectives / Experiments

- fundamental principle and the method of operation

  of a hydrocyclone
- solid mass flow rate in feed, top and bottom flow
- liquid mass flow rate in feed, top and bottom flow
- characteristic values for sharpness of separation
- pressure loss at the cyclone dependent on the

  feed flow rate
- influence of solids density on characteristic values

  and pressure loss

Features

* Solid separation with a hydrocyclone1

* Optimum observation of processes through

  transparent materials1
* Practical experiments on a laboratory scale

Specification

[1] solid separation from liquids with a hydrocyclone
[2] hydrocyclone with tangential inlet
[3] stirred tank for preparation of suspensions

[4] centrifugal pump to deliver the suspension
[5] adjustment of flow rate by valve in bypass
[6] magneto-inductive flow meter at inlet
[7] sampling points on the top and bottom flow to determine the flow rates and solid concentrations
[8] 1 manometer to determine the pressure loss at the cyclone
 

Technical Data

Cyclone
- height: 710mm
- diameter: 114mm
- immersion tube diameter: 40mm
Stirred tank
- volume: 200L
- material: stainless steel

Top flow tank
- volume: 5L
- material: PMMA

Pump
- max. head: 30m
- max. flow rate: 400L/min
 

Measuring ranges
- pressure: 0...4bar
- flow rate: 0...200L/min

 

Dimensions and Weight
LxWxH: 1.500x1.000x2.050mm
Weight: approx. 390kg
Required for Operation
230V, 60Hz, 3 phases or 400V, 50/60Hz, 3 phases
Scope of Delivery

1 trainer

7 apex nozzles

1 hose

2 buckets

1 measuring cup

1 stopwatch

1 set of tools

1 packing unit of quartz powder

1 packing unit of diatomite

1 set of instructional material

Order Details
083.22500  CE 225  Hydrocyclone
Print
© 2005 G.U.N.T. Gerätebau GmbH