DE3607615A1 - Waste water (effluent) treatment plant - Google Patents

Abstract

Published without abstract.

Description

The invention relates to a wastewater treatment plant according to the preamble of claim 1.

Due to the Water Resources Act, the thresholds values and minimum requirements for the approval requirement the introduction of water-polluting substances into the collection sewage system imposed considerable requirements, which depend on Art depend on the respective wastewater. It happens e.g. thereon to purify waste water so that the pH of the cleaned Water is changed to a value at which water in the Sewer transferred or continued in some other way can be used. Especially the cleaning process with dirty water or waste water for metal parts a high proportion of oils, metal salts, phosphates etc. as well as with high pH values make a specially adapted Waste water treatment required.

The object of the invention is to provide a compact, simple, effective and versatile wastewater treatment plant create with a continuous or discontinuous Treatment of dirt accumulated in industrial companies or wastewater is possible.

According to the invention, this is done with the characteristics of the indicator chens of claim 1 achieved. Further refinements of the Invention are the subject of the dependent claims.

The plant according to the invention is particularly for the treatment dirt from the cleaning of metal parts water with a relatively high oil, metal salt, phosphate Proportion and suitable with a high pH value. Here, the Methods of neutralization, precipitation and flaking of Metal salts and organic contamination, flotation and the emulsion splitting and phase separation used. For the treatment measures are available for special products  Available, which are adapted to the respective requirements and suitable for achieving the legal minimum values are.

The invention in connection with the drawing voltage explained using an exemplary embodiment. It shows:

Fig. 1 is a schematic representation of an embodiment of a waste water treatment plant,

Fig. 2 shows an embodiment of a reaction tower, and

Fig. 3 shows an embodiment of an injector for dosing.

The entire wastewater treatment plant consists essentially from the following devices:

The double or multi-chamber container 1 contains two or more vertical, juxtaposed and adjacent containers 2 , 3 , which are closed on their upper side 4 and which preferably consist of transparent plastic material. The containers 2 and 3 have sedimentation funnels 5 , 6 in the lower region and each have an outlet 7 , 8 at the lower end, each of which has a shut-off valve at 9, 10 and can be removed via the deposited substances.

In a preferred embodiment of the invention, the reaction tower 11 has two helical reaction risers 12 and 13 connected in series with one another, each with an injector 14 , 15 , in the embodiment shown the two reaction risers being arranged one above the other and the lower one arranged at the inlet Line 12 has a much smaller diameter than the upper line 13 . An injector 14 is switched on at the inlet-side section of the line 12 into the cable line and the injection cone widens outwards in the direction of flow. The injector 15 is switched on at the transition from the lower line 12 to the upper line 13 and also has an injection cone that widens outwards in the direction of flow. The two injectors 14 and 15 each have a metering valve 16 , 17 with which the amount of the treatment agent required is metered in.

A metering pump A consists of several metering sections A , B , C , D for the metering of different treatment agents. Section A is connected via a feed line 19 to an inlet 20 of the container 3 , section B via line 21 to the reaction tower 11 , section C via line 22 to the reaction tower 11 and via a pH probe 23 to the inlet 24 , and section D via line 25 and via a metering valve 26 and a shut-off valve 27 to an inlet 28 .

The dirty water feed pump 29 receives dirty or waste water from a container 30 which contains, for example, the water in which metal parts have been cleaned and which contains harmful substances such as oils, metal salts, phosphates and the like, as well as a high level has pH.

In the bypass, an electronic pH value measuring and metering device 31 is switched on, which indicates the pH value of the liquid in the container 3 displayed on the pH value probe 23 and introduces the necessary treatment agents via the metering pump.

A switch box 32 receives a pH value controller, which compares the actual pH value with the desired pH value in container 3 and gives the command to introduce treatment agent into the container 3 until the actual value and the desired value of the pH value together to match.

The above devices are housed in a housing 33 with a supporting structure, which is preferably designed to be mobile. The housing 33 itself can also be made of transparent material.

If necessary, a band filter 34 is provided below the outlets 7 and 8 of the containers 2 and 3 , with the aid of which the pollutants removed from the containers 2 and 3 are removed. Instead of such a band filter 34, filter bags can also be used to remove these pollutants. Furthermore, the wastewater pump 29 can be followed by a stainless steel sintered metal membrane 36 or an ultrafiltration device in order to additionally remove pollutants.

The functional sequence of the wastewater treatment plant after the Invention is as follows:

The dirty water 30 to be treated is conveyed via the dirty water pump 29 into the container 3 of the double-chamber container 2 , 3 . After changing the control valves, the dirty water in the chamber 3 is conveyed in the circuit, a pH value measurement and a correction (in the bypass) being carried out at the same time in accordance with the requirements of the dirty water to be treated. After the pH value has been set, the dirty water is conveyed through the reaction tower 11 by switching the control valves. In this reaction tower takes place via the injectors 14 , 15 for optimal metering and mixing of the flocculation aids, and correspondingly dimensioned in length and cross-section, spirally increasing lines 12 , 13 for optimal flocculation and enlargement of the flocs. The flocculated dirty water coming from the reaction tower 11 enters the second chamber 2 of the double-chamber container 2 , 3 , where the flakes settle in the sedimentation funnel 5 . The sludge deposited in the sedimentation funnel can be drained downwards and further dewatered via filter bags or a belt filter 34. Depending on the pH value, the purified water can either be drained off or conveyed again into container 3 for a pH value correction.

Claims (11)

1. Wastewater treatment plant for industrial wastewater, which contains, for example, oils, metal salts, phosphates, high pH values and the like, characterized by

• a) a double or multi-chamber container ( 2 , 3 ) consisting of two or more vertical containers ( 2 , 3 ) arranged next to one another and connected to one another, each with a funnel-shaped lower end with an outlet ( 5-10 ),
• b) a reaction tower ( 11 ) with at least two reaction risers ( 12 , 13 ) connected in series with one another and injectors ( 14 , 15 ) switched on in the course of the lines, each of which has a metering valve ( 16 , 17 ) for introducing the treatment agent or agents exhibit,
• c) a metering pump ( 18 ) with several sections ( A - D ), from which the respective treatment agents are introduced into the reaction tower ( 11 ) or the chamber container,
• d) a dirty water feed pump ( 29 ), which removes the industrial waste water or waste water from the collecting container ( 30 ) and leads through the system and conveys it,
• e) an electronic pH measuring and metering device ( 31 ) in the bypass, which detects, depending on the measured pH in the water to be treated or treated, and adds appropriate metering agents,
• f) a control box ( 32 ) with built-in pH controller, which carries out the setpoint-actual value comparison in the chamber container ( 3 ), and
• g) a supporting housing ( 33 ) which receives and includes the individual devices a) -f).

2. Waste water treatment plant according to claim 1, characterized in that the housing ( 33 ) is mobile. 3. Wastewater treatment plant according to claim 1, characterized in that in the inlet ( 24 ) to the container ( 3 ) a pH value probe ( 23 ) is switched on to the metering pump ( 18 -C) and the reaction tower ( 11th ) connected. 4. Wastewater treatment plant according to claim 1 and 3, characterized in that in a further inlet ( 28 ) to the container ( 3 ) a metering valve ( 26 ) in series with the metering pump ( 18- D) is switched on. 5. wastewater treatment plant according to one of claims 1-4, characterized in that below the Trichterauslau fes ( 5 , 6 ) of the container ( 2 , 3 ) a belt filter (34) is arranged, which from the containers ( 2 , 3rd ) emitted pollutant removed. 6. Wastewater treatment plant according to one of claims 1-5, characterized in that a stainless steel sintered metal membrane ( 36 ) is provided for pollutant separation in the train of the line ( 35 ) downstream of the feed pump ( 29 ). 7. Wastewater treatment plant according to claim 1, characterized in that the reaction tower ( 11 ) has a, for example lower, reaction riser ( 12 ) smaller diameter and an, for example upper, subsequent reaction riser line ( 13 ) larger diameter. 8. Wastewater treatment plant according to claim 7, characterized in that the reaction risers ( 12 , 13 ) pipes are made of transparent plastic in a spiral shape. 9. Wastewater treatment plant according to claim 7 or 8, characterized in that an injector ( 14 ) at the inlet of a reaction riser ( 12 ) and another injector ( 15 ) at the transition from this into the other reaction riser ( 13 ) is switched on. 10. Wastewater treatment plant according to one of claims 7-9, characterized in that the diameter of the two Reaction risers has a ratio of about 1: 2. 11. Wastewater treatment plant according to claim 1, characterized characterized in that the pH controller has a digital display of the Has actual value of the pH value.