DE928821C - Method for operating a device for floating and sinking separation of solids - Google Patents

Description

Method for operating a device for swimming and sinking separation of solids The invention provides an improvement and further development of the invention according to patent 742 64o.

According to the invention the method of operating the device according to claim 3, 4 or 5 of the patent 742 64o improved in that the weight the additional liquid fed in at the bottom of the shaft is chosen so high that that the weight of the entire sludge rising in the shaft is equal to the weight of the bottom Coincides with the cloudy layer that flows into the shaft. Through this improvement wind achieved that the amount of turbidity required to drive up the floating products is required in the shafts, can decrease.

The drawing shows an embodiment of the invention again, and although it represents a central longitudinal section through the cutting device. In addition it shows some of the essential devices in the overall system.

The ones from discharge chutes 2 and 3 and from the chute-like one Part of the sludge flowing off runs through the chute 4 to a sieve 20. From there She reaches a _luffanghehälters 5 and the Tiber Pipe 6 into a septic tank 7th. From this', in various 1l (* ilicnlage) different weights old drawn and through the pipeline part 8, 9 and io the inlet openings i t, t 2 and 1.5 de; \\ 'ashes are fed. In addition, turbidity becomes higher out of your septic tank through the pipes 14, 15 and t0 as with 6, 9 and to deducted. As can be seen from the drawing, these lines open into the horizontal distribution pipes 17 provided with a loan of outlet openings, iS and ig. The distribution pipes are expediently at the top at the entry point of the shafts appropriate. This achieves good mixing of the sludge in the (lein shaft.

For explanation, consider matt first (Ren process that results, if you (never cause turbidity in the shaft according to the main patent (A11. 2) became.

In this figure, as is known, pipes 38 are shown which open into the shafts at the bottom. The horizontal conveying streams which flow from the washing tank to the shafts r, 2 and 3 (according to the drawing of this additional patent) each consist of a layered packet, the density of which increases from top to bottom. For the sake of simplicity, one assumes a constant weight increase across the depth of the bath, such that at point A there is a weight of 1.40, at point B one of 1.5o, at C one of i.6o and one at D results in those of r.70, then the average weight in shaft 3 would be 1.65. The flow velocities in this shaft would have to be so great that average goods with a specific weight of 1.70 would still be carried along = according to Newton-Rittinger's law of falling velocity , which is approximately valid here, is the current speed in centiineters per second Here d = grain size in centimeters. s, y, = weight of the material and sf: = weight of the turbidity (see Eucken and Jakob, "Der Chemieingenieur", Vol. I, Part Two 1933, p. 119).

The required upflow velocity for the above case is and. for a grain size of 15 cm A shaft with a cross-section of i - 0.2 m would therefore require a sludge circulation of i - 0.2 - 0.37 36oo = 266 m3 per hour. According to the invention, zero is added through the distribution pipes 17, 18 and ig pulp with a higher density than is present in the lowest layers 13, C and D , so that the density in (Ren layers 1, 2 and 3 the dyke "Has a value than the prevailing horizontal outlet stream in the bottom layer of the pulp. So the pulp added through the distributor pipe 19 must be so heavy and added in such a quantity that the average weight of the pulp rising in shaft 3 is equal to 1 , 70. If after shaft 3, for example, 50 m3 of sludge per hour would be called, an addition of 25 11i3 sludge per hour of the weight i; So, which is fed through (the pipe ig, would be around the Bring the weight in shaft 3 to 1.70.

: On (giant \. \ 'You can achieve a very strong reduction (los Umlaufes for (Never additional turbidity. The invention brings about great then alone Useful when nian either has to process relatively coarse-grained goods or if there is a greater difference in weight (1 - between the upper and lower layers (Loose horizontal output routines prevail.

In many cases, the pulp, which is fed into a distribution pipe 17 , can be taken directly from the pipe 6, which results in a reduction in the dimensions of the clarification tank 7.

One can also, if one counts the number of special deductions from the septic tank for the sake of simplicity, want to reduce the amount of turbidity that is additionally passed through introduces the distribution pipes 17, 18 and ig. all (lein the lowest drain of the septic tank remove. However, you then have to make the container larger than it is in the Arrangement according to the drawing (Res embodiment is selected.

Claims (2)

PATENT CLAIMS: i. Method of operating a device according to patent 742 6d.o, thereby cichnet, (leave the weights of the additional, below in the The liquid supplied to the shaft is chosen so high that (never the weight of the entire The turbidity rising up in the shaft corresponds to the specific gravity of the lowest tri-layer. which flows towards the shaft. 2. The method according to claim i, characterized in that that the additional pulp finitely higher density through a pipe (i7 or 1.81 or ig), which is at the top of the entry point (los Schachtes (i or 2 or 3).