SU1740325A1 - Method of treating sewage from heavy metal ions, and device thereof - Google Patents

Abstract

The invention relates to chemical technology and can be used for the treatment of wastewater from the circulating water supply system of an electroplating industry. The aim of the invention is to increase the efficiency of the method of treating wastewater from heavy metal ions, which means that they are subsequently subjected to electrocoagulation, flotation, filtration, alkalized with return to flotation, acidified and diverted to discharge, part of the water after filtration, it is saturated with carbon dioxide and directed to mixing with the source water. The device for carrying out this method contains sequentially installed wastewater sources, an electrocoagulator, a flotation cell, a filter, an electrolyzer with cathode and anodic chambers, the cathode chamber is connected to the flotation cell and the anodic chamber is connected to discharge Me, a metering pump with a water metering device is installed at the filter and electrolyzer, the filter is connected to the wastewater source by a pipeline in which the gas saturation unit is installed. 2 sp f-ly. 1 il.

Description

The invention relates to chemical technology and can be used for the treatment of wastewater from the circulating water supply system of an electroplating industry.

A known method for treating wastewater from heavy metal ions is that the waters are successively subjected to electrocoagulation of flotation, filtration, alkalization with return to flotation, acidified, and diverted to discharge.

A device for carrying out this method is known, comprising a sequentially installed wastewater source, an electrocoagulator, a flotation cell, a filter, an electrolyzer with a cathode and anode chamber, the cathode chamber connected to the flotation cell, and the anodic chamber with a discharge to discharge

The disadvantages of the known technical solution are the contamination of the treated water by the products of destruction of the anode material and the passivation of electrodes of the electrocoagulant at high pH of the waste water, and the treatment efficiency is insufficient.

The purpose of the invention is to increase efficiency.

The goal is achieved by the fact that, after filtration, some of the water is saturated with carbon dioxide and sent for mixing with the source water, for which purpose a metering pump with a water meter W is installed in the device between the filter and the electrolyzer.

and the filter is connected to the wastewater source by a pipeline in which the gas saturation unit is installed.

The drawing shows a diagram of the device.

The plant contains sequentially installed wastewater source 1, pump 2, electrocoagulant 3, flotation device 4, filter 5, electrolyzer 6 with cathode 7 and anode 8 cameras, with the cathode chamber 7 connected to the flotation cell 4, and anode 8 to the outlet for discharge to settling tank 9. Between the filter 5 and the electrolyzer b, a metering pump 10 is installed with a water metering device 11. Filter 5 is connected to the wastewater source 1 by a pipeline 12, in which the gas saturation unit 13 is installed.

Sewage water containing heavy metal ions enters the wastewater source 1, from where it is pumped to the electrocoagulator 3 for purification 3. flotation cell 4 and filter 5. Then part of the water (15-20%) through the metering pump 10 and the water metering device 11 enters the electrolyzer 6 with the cathode 7 and the anodic 8 chambers, and the remaining part of the water enters the gas saturation unit 13 and the source 1 of the wastewater.

In the cathode chamber 7 of the electrolytic cell 6, the water is alkalinized to a pH of 11.5-12.5 and. entering the flotation cell4, increases the pH to 9.5 to 10 of the water to be purified. As a result, heavy metal ions are transferred to insoluble compounds in the form of hydroxyls, which are removed from the water successively in the flotation cell 4 and filter 5. the water contaminated with the products of anode destruction and anions due to their migration through the diaphragm enters the settling tank 9. This acid water is neutralized by alkaline sediments from the bottom of the flotation cell 4 and after washing the filter 5 with water, settles with or reuse. The precipitate is utilized. The shortage of water in circulation is replaced by tap water.

In node 13 of gas saturation, where the main part of the water comes alkaline (pH 9.5 - 10), acidification occurs with carbon dioxide.

Claims (2)

1. A method for treating wastewater from heavy metal ions, which consists in that they are sequentially subjected to electrocoagulation, flotation, filtration, alkalized with a return to flotation, acidified / - and diverted to discharge, characterized in that, in order to increase After filtration, some of the water after filtration is saturated with carbon dioxide and sent for mixing with the source water. 2. A device for treating waste water from heavy metal ions containing a sequentially installed source of waste water. electrocoagulant, flotation device, filter, electrolyzer with cathode and anode chambers, with the cathode chamber connected to the flotation cell and the anodic chamber with A tap for discharge, characterized in that a metering pump with a water metering device is installed between the filter and the electrolyzer, and the filter is connected to the wastewater source by a pipeline in which the gas saturation unit is installed