DE2041643C3 - Device for the controllable removal of flowable sewage sludge or the like. Suspensions from a pressure system - Google Patents

Description

The invention relates to a device for the controllable removal of flowable sewage sludge or similar suspensions from a pressure system, in particular from a pressure system for thermal conditioning. with one arranged at the outlet cable end of the printing system Intermediate container, one upstream from the intermediate container and one from the intermediate container downstream shut-off device and a control device to open and close the shut-off devices for wcchsclwciscn.

In the thermal conditioning of sewage sludge this is under a pressure of clwa 15 Treated to 20 atü by heating and, if necessary, steam supply in order to. its drainability to improve. The removal of the sludge from the pressure system must be done in a metered manner. and preferably in automatic control depending on the conditions prevailing in the printing system (e.g. filling country) and / or depending on external Conditions (e.g. incoming or required quantity of the goods).

There are (for example from British patent specification 909 872) ■ withdrawal systems known which work with throttle valves. Such a system allows any amount of sludge to be removed. !..!. However, the Drosselspaiien are relatively small, and (contained in the sludge mining easily lead to blockages and thus au malfunctions In addition, perform the abrasive substances contained in the sludge, for [sand, he: prevailing in the narrow throttle gap high flow rates to rapid wear of the gap and thus to disturbed operating conditions due to the changed gap conditions.

It is also possible to work with a gate valve that is dependent on a level control is opened or closed in the printing system. In which accordingly the level fluctuations periodically repeating closing of the slide, the flow of the guies becomes abrupt interrupted and the extraction system abruptly hit the pressure in the pressure system. This leads to undesirable pressure peaks in the system. In addition, this control system is complicated, because the gas extraction must also be controlled from the level in the pressure system.

It is also generally known for the removal of flowable material from Drucksv systems, this one To use the discharge vessel, upstream and downstream of the shut-off devices that can be opened alternately are. Such is a device intended in particular for the treatment of food under pressure with the features mentioned at the beginning:

(German Offenlegiingsschrift 1 802417). in the an intermediate container is after a pressure cooker. which through a lockable vent line can be vented. When the vent line is closed, the intermediate container mii connected to the pressure cooker to pick up the goods: then it is separated from the pressure star and depressurized by opening the vent line so that the material can then be removed can. When using such a device for the removal of flowable sewage sludge From a condensing system those adhering to a withdrawal system with throttle valves became Let the deficiency be avoided, but here too there is the problem that because of the very high Pressure when closing the shut-off devices against this pressure exposed to a very strong shock load are. In addition, the known device is not more arbitrary for precisely metered removal Sludge volumes are suitable because the intermediate container is very high under the high pressures that prevail would be filled in a short time. During this short period of time there is a precise regulation of the withdrawal amount not possible.

The invention is therefore based on the object a specially designed for the dosed removal of Alnvasserkliir.schkimni from a pressure system To create device that largely stoßiincl works wear-free and allows an arbitrary regulation of the dosage within wide limits.

According to the invention, an apparatus is that initially described said type characterized in that the intermediate container is designed as a pressure air vessel and with acting on the control device, depending on the operating state of the pressure Windkessel operated switching devices is provided.

This has the advantage that the building up when the intermediate container is filled Pressurized gas cushion creates a back pressure that is in the

Cirenzfall the pressure prevailing in the printing system reached, so that the shut-off element upstream of the> pressure vessel is then ground can occur without pressure peaks. When the goods are emptied from the pressure air tank, this is the case Pruckgaspolcter supports the evacuation Promotional effect. The pressure drops to atmospheric pressure, so that then the pressure air vessel downstream shut-off device can be closed again without pressure surge.

The switching element is preferably a pressure switch for actuating the one connected upstream of the pressure air vessel Shut-off device formed. You can thereby achieve that this shut-off device exactly is then closed when the pressure in the pressure system and in the pressure air tank are the same. Included can advantageously the sound pressure of the pressure switch to regulate the withdrawal amount from the Drucksvstem be adjustable.

On the other hand, it is possible to design the device so that the control device for closing of the shut-off device upstream of the pressure vessel by the pressure switch and the control device for the remaining work cycles of the shut-off device can be actuated by the time switch are. In this way, a completely automatically repeating removal cycle can be achieved in an advantageous manner with the possibility of an arbitrary adjustment of the intake.

Embodiments of the invention are set forth below explained on the basis of the drawings.

F i g. 1 shows a schematic flow diagram of a thermal one provided with the extraction device Sludge conditioning plant;

F i g. 2 schematically shows a modified embodiment of the removal device.

In the case of the in FIG. 1 for! Hermischen Sludge conditioning, the sludge is pre-concentrated in a thickener tank 1 by removing water. A pressure pump 2 then promotes the sludge at a pressure of, for example 15 to 25 aiii in the sludge pressure vessel 5. In the heat exchanger 3, the sludge is usually heated to 140 to IHO C. By supplying steam through the steam line 13 'is before the entry the sludge temperature in the sludge pressure vessel 5 so increased that they are usually IW) to 220 C. As a result of the process, a gas cushion 4 forms above the sludge level.

The retention of the sludge in the sludge pressure vessel 5 results from the ratio between the sludge volume in the sludge pressure vessel 5 and the Feed rate per unit of time. The now conditioned sludge then flows from the sludge pressure vessel S under the .System pressure back into the heat exchanger 3 and is here in countercurrent Most of its heat content is transferred to the inflowing sludge.

The sludge is then extracted from the pressure system by the extraction device, which essentially consists of the two shut-off devices 6 and 9 and the one in between as a metering sluice

15th

30th

40

45

55 disordered pressure air vessel 7 consists. To control the shut-off devices, a pressure switch II responding to the pressure in the pressure vessel 7 and a time switching device 12 are provided. The device works as follows:

At the beginning of the withdrawal, the shut-off element " closed, and the shut-off device 6 is opened by the switching device 12. The mud ! reads from the printing system into the printing widget 7. Here, with increasing filling level, there is a corresponding increase in pressure, up to the limit the system pressure has been reached. Because of this increase in pressure in the pressure air vessel 7, the flow velocity in the system decreased and gradually aiii zero braked. Then the shut-off device 6 closed again. This shooting process could can also be controlled by the time switch device 12; control by means of it is also more precise the pressure switch 11. The '-dm closer of the locking device 6 Occurring stupid pressure exposure is very low because of the back pressure prevailing in the pressure vessel 7 and is not applicable if Jer pressure in the pressure vessel 7 is equal to the Svsiem-

Gl 1 is lick.

After the shut-off device is closed, it will Open shut-off device 9 and the pressure air vessel 7 emptied into the collecting basin 10. This emptying can be intensified by an air suction valve 8 or by compressed air ventilation. At l'unklioiisgereehter However, this is not necessary in the training of deep pressure winds.

The primary control variable for the dispensing dosage is the time interval /. between two <> opening precaution.: en of the shut-off device 6. which by the time switch 12 is adjustable. By changing the pressure threshold set on the pressure switch II can the filling film of the pressure air tank * 7 can be changed accordingly and a further controlled variable can be activated as a result.

With larger systems and especially when a more even extraction device is desired. the device according to FIG. 2 can be used in which two removal devices are connected in parallel. In this figure, the two pressure air vessels 7, 7 'and the collecting basin are shown diagrammatically as circles in a drift view. Here, the two Entnahmesv be stars out of phase, namely in push-controlled, ie 7 during filling de * Drin.kwindkess.els (open Absperrortian sixth shut-off device 9 is closed), the pressure surge tank T emptied (shut-off device (V closed. Obturator ') ' open / and vice versa.

From the shut-off device 9 b.w. 9 'emerging sludge flows into the catch basin 10. which in der Rege 'is a thickening tank for further dehydration. The shut-off device 9 (or 9 ') is expediently also closed by the Zcitschaltverk. The subsequent opening of the shut-off device 6 by the time switch device 12 can be made dependent on the fact that beforehand, for example cir. Limit switch reported a perfect closed position of the shut-off device 9 (or 9 ') has.

1 sheet of drawings

Claims (4)

Patent claims: 1. Device for controllable removal of flowable sewage sludge or the like Suspensions from a pressure system, in particular from a pressure system for thermal Lamb conditioning. with one arranged at the lower end of the printing system Intermediate container, one upstream from the intermediate container and one from the intermediate container downstream shut-off device and with a control device to open alternately and closing the shut-off devices, characterized in that the intermediate container designed as a pressure air vessel (7) and with acting on the control device, depending on the operating state of the pressure air tank (7) actuated switching elements is provided. 2. Device according to claim 1, characterized in that that the switching element as a pressure switch (11) for actuating the pressure air vessel (7) upstream shut-off device (6) is formed. 3. Device according to claim 2, characterized in that that the switching pressure of the pressure switch (Ii) to regulate the withdrawal cmcngc is adjustable in the printing system. 4. Apparatus according to claim 2 or 3 with a time switch device. characterized, that the control device for closing the upstream of the pressure air vessel (7) Shut-off device (6) through the pressure switch (11) and the control device for the rest Work cycles of the shut-off devices (6, 9) can be actuated by the Zoitschallvorrichlung (12).