SU680637A3 - Plant for processing multiphase industrial waste water - Google Patents

Description

movement inside the guide rods. The withdrawal unit of the separated easy phase is made in the form of a tilting chute.

Fig, 1 shows the proposed device in section; 2, the same top view; fig.Z - site collection and discharge of sediment; 4 is the same, section A-A in FIG. 3.

A device for treatment of multi-phase industrial wastewater contains a tank divided by partitions into process chambers 1.2 and 3. The first chamber along the flow of the treated liquid chamber 1 is equipped with a supply pipe 4, a perforated distribution partition 5, a heating element 6 with a thermostatic regulator 7 and a solid organic a partition 8 that does not reach the bottom. The temperature of the heating element should vary from 50 to 200 ° C to ensure the creation of convection currents in chamber 1, due to which x, the separation of the treated liquid is accelerated and subsequent rapid sedimentation and formation of the phases takes place: light 9, medium 10 and heavy 11. In the upper part of chamber 1 there is a unit for discharging the separated light fraction, made in the form of a swinging trench 12 with control means 13. Trench 12 is installed across the entire width of chamber 1 and has a branch pipe 14 tapping in communication with chamber 15. T of the desired phases 11 is collected in the hopper 16 and pumped out from there along the branch pipe 17. An average phase 10 from which about 99% of the material is removed in chamber 1 camera 2 in between Twomey siphon 18 fitted with a float valve at the inlet 19, entering predotvschayuschim light phase into the chamber 2. During the siphon baffle 20 is placed.

In chamber 2, the liquid again undergoes separation into three phases: light 21, medium 22 and heavy 23. Chamber 2 has a chute 24 with a lever 25 and a branch pipe 26. T he phase 23 accumulates in the bunker 27 and is discharged by any known ones. means (screw, scraper conveyor, suction device). Phase 22 of medium density is delivered by syphor 28 to chamber 3, from which it is withdrawn by pump 29 through filter 30.

In the chamber 3 there is a float level regulator 31, moving on the guide tube 32 and acting on the actuator 33 of the pump 29 which are located in the compartment 34 of the control. In the lower part of the compartment is a sump 35 with a pump 36.

The collection and discharge unit consists of several vertically

fittings of tubes .37 and guiding longitudinal rods 38 arranged parallel to the bottom of the tank around the perforated elastic pipe 39 and fastened with ring elements 40. The elastic pipe 39 is placed with the possibility of reciprocating motion. Such an embodiment of the collection and discharge unit of the sediment allows to exclude various mechanical sediment transporting means (scrapers, auger) and divert the sediment from the entire bottom to disrupt sludge process.

The device works as follows.

Industrial wastewater containing several phases is fed through pipe 4 to chamber 1 in front of the partition 5, which evenly distributes water in front of heating element 6. The corrugated surface of element b provides a large contact surface with liquid, i.e. good heat exchange. In the volume bounded by the baffles 5 and 8, the liquid is heated in the temperature range of 50-100 ° C, and convection currents are formed, which promote the separation of liquid into phases. The light phase through the tilting chute 12 through the nozzle 14 is directed into the chamber 15. The chute 12 is tilted from the control means 13, which can be manual or automatic. Separate light phase 9 can be re-processed if necessary.

The heavy phase 11 is aspirated and removed by means of a vacuum device connected to the free end of elastic pipes 39. The middle phase 10 is siphoned 18 through chamber 2. The siphon's operation is controlled by a float valve 19, which moves depending on the level of the light phase 9 and at lowering the level closes the siphon and prevents the light phase from entering the chamber 2. From the chamber 2 by means of the siphon 28 the middle phase is supplied to the guide tube 32 with the float 31 placed in the chamber 3. The float is actually a sensor The level from which the drive 33 of the pump 29 is controlled. When the float in the extreme upper position turns on the drive of the pump, the pump pumps out the liquid until the float drops to the lowest position.

Claims (2)

Q The proposed device makes it possible to improve the quality of wastewater treatment containing several phases, to separate and phase out the phases separately and to increase the productivity due to the heating element, which makes it possible to accelerate the process of liquid separation into phases. Claim 1. Device for treatment of multi-phase industrial wastewater, made in the form of a tank, equipped with a collection and discharge unit for sludge in the form of flexible pipes, a unit of separated phase water and treated water divided by partitions into process chambers, the first of which in the course of the fluid movement, a perforated distribution wall is not installed, the partition wall not reaching the bottom, characterized in that, in order to improve the performance of the device and the quality of wastewater treatment containing phases, different second density, the first in the course of movement of the treated liquid of the process chamber is provided with a vertically mounted heating element m, razmeschanN1LM for distribution baffle and continuous restrictive g of revenue to the bottom conductive wall. 2. A device according to claim 1, characterized in that the heating element is provided with a thermostatic regulator. 3. The device according to claim 1, about tl and the fact that the collection unit and in: the load of the sludge is equipped with guide longitudinal rods placed around elastic pipes, fastened with ring elements and installed parallel to the bottom of the tank. 4. The device according to claim 1, characterized in that the elastic pipes are installed with the possibility of backward and forward motion inside the guide rods. 5. The device according to claim 1, about t l and so that the node removal of the separated light phase is made in the form of a swinging chute. Sources of information taken into account in the examination 1.Certificate of certificate number 103635, cl. On 01 D 21/00, 1954. 2. The patent of Germany W 1442386, cl. 12 d 1/01, 1971. c. 6 and I Rig 7 f17 .lit sixteen ) M FIG d d i3 39