RU1704389C - Water purifying apparatus - Google Patents

Abstract

FIELD: chemical engineering. SUBSTANCE: water clarification apparatus incorporates thin-layer sedimentation tank, flocculating chamber, sediment-receiving section, filter charged with granular filtering material, and pipes to supply and discharge starting, purified and wash waters. Flocculation chamber is provided with thin-layer members, mixing hydroejector and ejection device to admit wash water, which communicates with wash water discharge pipe by virtue of suction pipe and filter. Ejection device is shaped as Venturi nozzle and its working liquid supply pipe communicates with starting water supply pipe. EFFECT: higher degree of water purification and efficiency. 2 cl, 2 dwg

Description

 The invention relates to devices for separating heterogeneous liquid systems, namely for the purification of natural waters from suspended solids, colloidal contaminants and dissolved impurities, and can be used in drinking water supply mainly in factory-made plants.

 The purpose of the invention is to increase the degree of purification and increase the productivity of the installation.

 In FIG. 1 shows a water treatment plant, cross section; in FIG. 2 - same, plan view.

 The installation contains a thin-layer sump 1 with sedimentation section 2 and a filter 3. The sump consists of a flocculation chamber 4 with thin-layer elements 5 and a hydrojector 6 and clarification thin-layer inclined modules 7. In addition, the sump is equipped with pipelines for supplying raw water 8, sediment discharge 9 and sediment-taking windows 10 for the removal of excess suspended matter in sedimentation section 2. In the upper part of the sump and sedimentation section, a system for collecting clarified unregulated water in the form of gutters 11 and adjustable type in the form of a perforated pipe 12. The sedimentation section is equipped with thin-layer elements 5 and the discharge pipe 13. The filter is equipped with a filter granular load 14, pipelines for the supply of washing water 15, the discharge of purified 16 and washing water 17. In addition, the installation is equipped with an ejection device 18 for introducing the washing water, which can be used as a venturi nozzle.

 Installation works as follows. The source water through a pipe 8 is led to a hydroejector 6. A coagulant is introduced into a source water pipe 8 and a flocculant into a cylindrical mixing chamber of a hydroejector 6. A flocculent, but not yet compacted sediment is sucked from the flocculation chamber 4. The ejection device 18 to The hydroejector is also supplied, as a clouding agent, with a portion of the washing flow from the filter, where structure-forming particles are separated and mixed with the source water. After the hydrojector, water enters the flocculation chamber and, having passed it and divided into two streams, enters the clarification thin-layer modules 7. After clarification in the modules, water is diverted through the windows 10 and the groove 11 to the filter 3 for final cleaning. Purified water is piped 16 to the consumer. Flushing the installation is carried out by a reverse flow of water through a pipe 15.

 Filter wash water in an amount of 4-8% is introduced into the flocculation chamber through an external ejection device 18, the suction pipe of which is connected to the wash water discharge pipe 17. At the same time, a Venturi nozzle is used as an external ejection device, the working fluid supply pipe of which is connected to the supply pipe source water.

 Suspended flakes with sand particles trapped in the thin-layer elements 5, precipitating, fall into the hydroejector 6 and again participate in the process of mixing the source water with the incoming wash sediment and, as crystallization centers, in the process of flocculation. Excess flakes suspended from the flocculation chamber enter the sedimentation section through the precipitation windows. Sediment from thin-layer clarification modules enters the same section.

 Due to the periodic removal of sediment from the sedimentation section through the pipeline 12, excessive accumulation of suspended matter under the clarification thin-layer modules (from the conditions of its natural deposition in them) does not occur. This allows you to increase the inter-purge cycle of the installation, to improve the quality of purified water and reduce its non-production losses.

Claims (2)

 1. INSTALLATION FOR WATER CLEANING, including a thin-layer sump with a flocculation chamber and a sedimentation section, a filter with granular loading, pipelines for supplying and discharging the source, purified and washing water, characterized in that, in order to increase the degree of purification and increase the productivity of the installation, the flocculation chamber equipped with thin-layer elements, a mixing hydraulic ejector and an ejection device for introducing washing water, connected by a suction pipe to the pipe for draining the washing water from the filter .  2. Installation according to claim 1, characterized in that the ejection device is made in the form of a Venturi nozzle, the working fluid supply pipe of which is connected to the source water supply pipe.

Images