DE377196C - Device to prevent harmful gas flows which make it difficult to remove impurities by means of centrifugal force in rapidly rotating drums - Google Patents

Description

Device for preventing harmful gas flows, which the removal of impurities by means of centrifugal force in rapidly rotating Make drumming difficult.

Devices in which the gases to be cleaned by rapidly rotating Drums flow, with the impurities in a housing surrounding the drum are known to be thrown. However, these devices serve their purpose not to the extent that this could theoretically be expected. The reason is in it to seek that too many gases overflow from the impure zones into the cleaned zones through leaks between drum and housing, through cross flows and through Vortices so large in diameter that the vortex circles are both pure and penetrate impure gas zones. The advance of the invention is its elimination or reduction of the foregoing evils. as in the following exemplary embodiments will be shown.

The drum c rotates in the stationary housing h (Fig. I to 3) at great speed; the gas enters the drum c at a, flows through it it is essentially in the axial direction and exits again at b. When flowing through of the gas through the drum c takes the same except for the axial velocity nor the rotating Gcschssindigkeit the drum c, so that the contained in the gas serious impurities in a known way on the drum shell or in the housing h can be thrown.

The sealing of the rapidly rotating drum c from the housing h can be due to the high number of revolutions and the relatively large diameter Do not filter out with the known means without significant disadvantages (friction, exactly matching). But so that there is still no gas flow on the way from a through the gap t, the housing h and the gap t1 to the cleaned Gases at b, the two gaps t and i1 are designed so that the in gap t1 radial pressure generated by centrifugal force or deflection in the direction of the axis after the housing h is correspondingly larger than in the column t, so that a flow from a through h to 6 cannot occur. The ratio of Radial pressures generated in the columns t and tl can be achieved in a simple manner be adapted to the desired purpose that the drum flange at tl accordingly larger than the flange at t, or it could also be on the flanges at t, tl ode; appropriate blades are attached to the housing wall so that the Purpose would be achieved by deflecting the gases.

A major disadvantage so far has also been that in the housing h unavoidable eddies and currents through which to throw out the impurities Serving openings f (Fig. 2 to 5) to propagate inside the drum c. This can be avoided according to Fig. R simply by inserting into the drum shell small openings f can be made. The impurities that result from centrifugal force stick to the drum shell, are eliminated by the fact that the substantially perpendicular standing drum stops from time to time, so that the excreted impurities fall out downwards.

Fig. 4 shows an example in which the harmful currents between the inside of the drum and the housing ii are prevented by the openings f are closed in the drum shell by closures g.

From time to time the locks g are opened so that the im Drum shell accumulated impurities through the openings f into the Je'läuse h can be thrown.

Fig. 3 shows an example in which the propagation of Eddy quantities from the housing h to the interior of the drum c are prevented by that the channels located in the drum jacket f in relation to their passage cross-sectional dimensions one so great a radial length that there are substantial eddies cannot propagate from the housing h to the interior of the drum c.

Just as on the way from a through t, h, tl to b, it becomes impure Gases can admix, impure gases can also pass through the columns f (Fig. 3), which are closer to a, through the housing h and the columns f, which are closer to b, pass to the purified gases. This harmful flow is going along with the same As in columns t, tl. In Fig. 3 is the column for this purpose f at b in the radial direction larger than the column f in the vicinity at a, so that the greater pressure directed from the axis towards the housing h, which is in the columns occurs closer to b, prevents the occurrence of a harmful flow.

The described damaging currents can, according to the example in Fig. 2 can also be prevented that the housing h by partitions e, the run essentially transversely to the drum axis, in cells hl, h2 and so on divided so that the walls e a flow parallel to the drum axis does not come about let him come.

At last there can be eddies in the same direction inside the drum p in a plane transverse to the drum axis and in the direction q in a plane parallel occur to the drum axis (Fig. 5 and 6). To stop the vortex p is the Drum by walls d which are substantially parallel to the drum axis and radially stand, divided into correspondingly small fields, so that a vortex in the direction p is suppressed, but both the axial gas flow is possible and the migration of the impurities in the direction from the axis to the drum shell.

In order to suppress the eddies q, walls s are parallel to the drum axis and installed obliquely to the direction of the drum radius in such a way that it prevents the gas flow in the direction parallel to the drum axis and the migration of the substances to be separated from the drum axis to the circumference, but allow vortices q in a plane parallel to the drum axis and radially. Fig. 6 shows an example in which the planes s are attached to the walls d, Fig. 5 an example in which the Walls d are wave-shaped or zigzag-shaped, so that they are crooked Walls surrender by themselves.

PATENT CLAIMS: I. Device for Preventing Harmful Gas flows that cause impurities to be removed by means of centrifugal force aggravate in rapidly rotating drums, characterized in that the harmful Currents or eddies are suppressed by walls (d, e, g, s) as well as by Extension of the ejection slots (f).

Claims (1)

2. Apparatus according to claim 1, characterized in that the overflow impure gases from feed line (a) through gap (t), housing (h) and gap (tl) the clean gas discharge (b) is prevented by the fact that in the columns (t, tl) through corresponding shaping or dimensioning of the surfaces forming the gaps, the gas pressure by means of centrifugal force or deflection in the direction of the drum axis after the housing (h) is made larger in one gap (t) than in the other gap (t). 3. Apparatus according to claim 1, characterized in that at times Removal of the impurities from the drum (c) with slides (g) covered openings (f) are arranged in the drum shell. 4. Apparatus according to claim I, in which the openings (f) (Fig. 3) in relation to their cross-sectional dimensions of such great length in radial Direction is that disturbing eddies from the housing (h) to the inside of the drum cannot reproduce. 5. Apparatus according to claim 4, characterized in that the radial Extensions of the openings (f) in the vicinity of the gas outlet (b) are larger than near the gas supply line (a). 6. Apparatus according to claim 1, characterized in that the housing (h) is divided by walls (e) transversely to the drum axis. 7. Apparatus according to claim I, characterized in that in the clear drum cross-section walls (d) radially and parallel to the drum axis close to one another are built in. 8. Apparatus according to claim 1, characterized in that in the Drum walls (s) are built in, which are parallel to the drum axis and askew to the radii (r) penetrating the walls (s).