DE19732107C2 - Riser wind sifter with zigzag channel - Google Patents

Description

The invention relates to a riser wind sifter according to claim 1.

Such a zigzag sifter is known from the German patent DE PS 12 70 380 known and essentially uniform, d. H. the individual chambers of the channel all have the same Cross-section and have the same shape. With these classifiers uniform air zigzag, the inflowing air becomes little whirled so that the speed distribution over the Cross section of the viewing chamber is pretty even. The zigzag Canal is free of built-in components and only has bevels, which is a deposit of material in the corner zones of the lower channel walls should prevent.

From the further prior art according to GB 468,212 is a Zigzag classifier known, the internals above the lower one Has channel walls around the particles trickling down near the wall throw back into the center of the current.

The constructive design of such sifter channels is based on essentially on constant horizontal cross-sectional areas over the entire height of the classifier channel, especially when used many consecutive zigzag levels.

To make very fine separations with zigzag sifters the rate of climb of the classifier air must be very low can be set. Thereby occur at the transition points between two individual duct sections, the kinks, unequal Flow distributions that lead to unwanted streak formation to lead.  

On the one hand, the quality of the separation becomes worse and on the other others can only make very fine separations below 150 µm insufficiently executed.

The invention is therefore based on the object of a zigzag To improve classifiers of the type mentioned in such a way that Sharp sightings can also be made below 150 µm can.  

According to the invention, this object is achieved by the features of claim 1.

If the cross-sectional area of the duct is reduced, one results Canal narrowing in the transition area between two Channel sections for a local increase in speed of the Flow fluids leads.

Experiments have shown that with a zigzag sifter that has a channel shape according to FIG. 2, the fineness range in which the zigzag sifter can be used can be significantly expanded downwards.

If a zigzag classifier with a channel shape according to FIG. 3 is used, the fineness range of the classifier can be increased significantly.

Fig. 1 shows the geometry of the cross section of a conventional zigzag classifier with a square flow cross section of 40 mm edge length.

Fig. 2 shows the geometry of the cross section of a zigzag-sifter with the inventive narrowing of the flow cross-sections.

Fig. 3 shows the geometry of the cross section of a zigzag-sifter with the inventive narrowing of the flow cross-sections in even more pronounced form.

The constant test conditions were:
The basic sifter consisted of 17 duct sections with a square cross-section (40 mm × 40 mm). Each duct section had a height of 50 mm, which resulted in a total height of 850 mm. The end faces were vertical, the canal side faces were inclined at 30 ° to the vertical. The feed was abandoned in the upper third. The air entry was at the lowest section of the duct

The fines leave the classifier with the air upwards. The coarse good falls down due to gravity and is sealed off carried out.

The change in the channel shape in the transition areas of all 17 sections were made by gluing filler pieces over the entire depth of the canal was reached.

Feed material: coal with a solid density of 1500 kg / m ³ d ₉₇ <500 µm with d ₅₀ = 190 µm and d ₃₀ = 90 µm
Air volume flow: 3 m ³ / h
Results:

The 90% passage value of the fine material distribution (d ₉₀ ) and the slope value of the separation curve (κ) are used to assess the classification. The smaller the d ₉₀ , the finer the fine material. The larger the κ, the better the separation.

From the results it can be seen that relative optima apparently result for the cross-sectional narrowing. The channel of Fig. 3 appears to be the finest product, but at the expense of selectivity. The channel shape according to FIG. 2, on the other hand, has the best selectivity, but a not so fine fine grain size. In any case, the narrowing of the cross section compared to the original state according to FIG. 1 has a positive effect on the fineness.

Claims (3)

1. riser wind sifter with one or more zigzag channels, each zigzag channel smooth-walled and in its cross-section is rectangular and upward Airflow is flowing through, and a narrowing across the entire Channel depth in the transition area between the two zigzag Has channel sections, the respective inner kink of the Zigzag channel vertically below the outer one Break point. 2. riser wind sifter according to claim 1, characterized in that the area of the narrowest horizontal channel cross section between 50 and is 80% of the original channel cross-sectional area. 3. riser wind sifter according to claim 1 or 2, characterized in that the channel width is narrowed by wedge-shaped internals, that below the upper channel wall of the zigzag channel section are arranged.