RU33718U1 - DEVICE FOR LIGHTING WATER SYSTEMS - Google Patents

Description

DEVICE FOR LIGHTING WATER SYSTEMS

The utility model relates to the field of purification and clarification of water systems using chemical reagents and can be used in the construction of new and reconstruction of existing treatment facilities for natural and wastewater, in particular, for the treatment of turbid and colored water systems.

State of the art

A device for clarification of water systems is made in the form of a vertical sump containing a housing consisting of a cylindrical upper and conical lower parts, a conical wall expanding upward with a reflector, dividing the body cavity into a central clarification chamber and an external settling zone communicated through openings overflowing in the lower part of the wall above the reflector, and overflow windows with external fenders, above which in the central clarification chamber and external settling zones e placed conical shelf precipitators / Patent RU No. 2153384, B 01 D 21/08, 2000 /.

The disadvantage of this device is that it is not possible to control the mixing speed of the treated water system with the reagent.

The closest in technical essence to the proposed one is a device for clarification of water systems, comprising a housing, a flocculation chamber located coaxially in it, a settling chamber with thin-layer precipitating elements, and systems for supplying the initial water system, for removing the clarified water system, sediment, and pop-up impurities. The device is equipped with additional partitions forming the annular channel between themselves. / Patent RU No. 2182838, B 01 D 21 / 08,2002 g. /.

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200

 01 D 21/08

The disadvantages of the known device are unregulated mixing speed and low reliability of the device.

Utility Model Essence

The task to which the proposed utility model is directed is to create a compact and reliable device for clarification of water systems, which can be used, inter alia, for reconstruction and modernization of existing clarifiers with a layer of sediment in existing treatment facilities at minimal cost.

The technical result consists in increasing the efficiency of purification and clarification of the water system due to the intensification of the process of mixing the original water system with a reagent.

The problem is solved, and the technical result is achieved due to the fact that in the device for clarification of water systems, comprising a housing with a flocculation chamber and a settling zone with thin-layer precipitation elements, nodes for supplying the water system to clarify and drain the clarified water system and sediment, the casing is equipped with one or two vertical partitions, with overflow windows with fenders, located below the level of thin-layer precipitation elements of the settling zone, the camera lopeobrazovaniya provided with one or more mechanical agitators, sedimentation zone consists of one or two settling chambers with a pocket formed between the vertical partition and the flocculation chamber, the water system supplying unit for lighting an input device provided with a reagent and is connected to the lower part of the flocculation chamber. The housing of the device can be made rectangular or cylindrical, and the drainage unit of the clarified water system is located above

thin-layer precipitation elements of the zone of sedimentation and is made in the form of a system of receiving troughs connected to the drain pipe of the clarified water system.

The drawing schematically shows a vertical section of a device for clarification of water systems.

For greater clarity, the size ratio between the individual elements of the device is changed.

The device comprises a rectangular casing 1 with a flocculation chamber 2 and two settling chambers 3 with thin-layer precipitation elements 4 located in it. Vertical partitions 5 are located in the housing 1, equipped with overflow windows 6 with fenders 7, located below the level of thin-layer precipitation elements 4 of the settling zone. The settling zone contains sedimentation chambers 3 and pockets 8 formed between the vertical partitions 5 and the flocculation chamber 2. A mechanical stirrer 9 is located in the flocculation chamber 2. A water supply unit for clarification 10 is connected to the bottom of the flocculation chamber 2, equipped with a reagent 11 input device. the clarification chambers 3 Bbmie level of thin-layer sedimentation elements 4 is a site drainage clarified water system, made in the form of a system of receiving troughs 12 connected to the pipeline yes clarified water system (not shown). In the lower part of the settling chambers there is a sediment removal unit 13.

Information confirming the possibility of implementing a utility model.

A device for clarification of water systems works as follows.

The source water system and the reagent, for example a coagulant supplied through the reagent input device 11, are fed to the flocculation chamber 2 of the housing 1 through the supply unit of the water system to the clarification 10. In the flocculation chamber 2 s

using a mechanical stirrer 9, the reagent is slowly mixed with the treated water system. From the flocculation chamber 2, the water system overflows into the pocket 8 of the settling zone, formed by a vertical partition 5 and the flocculation chamber 2, from where it passes under the bottom level of the thin-layer sedimentation elements 4 into the settling chambers 3 through the overflow windows 6 with the baffle plates 3. The baffle plates 7 allow even distribution the flow of the water system in the suspended sediment layer in the settling chamber. This direction of movement of the water system to the least extent prevents the formation of sediment flakes on the current-layer elements 4. The clarified water system after passing the thin-layer elements is collected in the receiving chutes 12 and removed from the device through a pipeline for further processing. Suspension under the influence of gravity settles in the lower part of the sedimentation chambers. The precipitate collected in the lower part of the sedimentation chambers 3, through the node discharge sediment 13 is also removed from the device.

Due to the change in the rotation speed of the mechanical mixer 9 located in the flocculation chamber 2, it is possible to control the mixing speed of the treated water system with the reagent, which allows the clarification process to be carried out in optimal conditions. The number of mechanical mixers can be one or more, depending on the geometric dimensions of the flocculation chamber 2 and the quality of the water system supplied for clarification.

If the casing of the device is cylindrical, then the flocculation chamber is located coaxially to the casing, and the vertical partition is also made coaxial, while the clarification zone is circular and can be equipped with two additional blind vertical partitions that divide the clarification zone into two settling chambers with pockets.

The number of settling chambers also depends on the quality of the water system supplied for clarification.

Industrial applicability.

The device is simple and reliable in operation, has a low energy intensity and can be manufactured in the conditions of existing structures during their reconstruction.

The proposed utility model is a compact device for cleaning and clarifying the treated water system using reagents.

Claims (3)

1. A device for clarification of water systems, comprising a housing with a flocculation chamber and a settling zone with thin-layer precipitation elements, nodes for supplying a water system for clarification and removal of a clarified water system and sediment, characterized in that the housing is equipped with one or two vertical partitions, with overflow windows with chipping visors located below the level of thin-layer precipitation elements of the settling zone, the flocculation chamber is equipped with one or more mechanical stirrers The settling zone consists of one or two settling chambers with a pocket formed between the vertical partition and the flocculation chamber, the water supply system for clarification is equipped with a reagent input device and connected to the bottom of the flocculation chamber. 2. The device according to claim 1, characterized in that the casing is made rectangular or cylindrical. 3. The device according to claim 1 or 2, characterized in that the drainage unit of the clarified water system is located above the thin-layer precipitation elements of the settling zone and is made in the form of a system of receiving troughs connected to the discharge pipe of the clarified water system.