RU121500U1 - PLANT FOR PROCESSING INDUSTRIAL WASTE WATER AND PRODUCING A CONCENTRATED ALKALINE SOLUTION AND SOFT SALT SOLUTION - Google Patents

Abstract

An installation for processing industrial wastewater and obtaining a concentrated alkaline solution and softened saline solution, including a block for accumulation and preliminary treatment of processed wastewater located in the technological sequence, a unit for recirculation of working solutions, a block of multi-chamber electromembrane devices, while the block of multi-chamber electromembrane devices consists of a block of the first electromembrane treatment stages to separate the alkaline solution from the initial solution, as well as to obtain a softened saline solution, and a block of the second stage of electromembrane treatment to obtain a concentrated alkaline solution, the working solutions recirculation unit contains four tanks tied with pipelines made of chemically resistant material, and the first tank is installed with the possibility of filling with flushing solution, the second tank is installed with the possibility of filling with demineralized water, the third tank is installed with the possibility of accumulating alkaline p solution from the block of the first stage of electromembrane treatment, the fourth tank is installed with the possibility of filling with a purified alkaline-containing wastewater and is connected to the block for accumulation and preliminary treatment of processed wastewater, and the inputs of the block of the first stage of electromembrane treatment are connected respectively to the outputs of the first, second and fourth tanks of the recirculation unit , the outputs of the block of the first stage of electromembrane processing are connected, respectively, to the inputs of the first and third tanks of the recirculation unit of working solutions, and the inputs of the block of the second stage of electromembrane

Description

The utility model relates to the field of industrial waste recovery, in particular to the recovery of alkali from highly mineralized industrial wastewater (effluents), and can be used in enterprises with alkali-containing effluents.

The closest technical solution is the installation that implements a method of obtaining an aqueous solution of sodium alkali from alkaline effluents produced by caprolactam (SCHSPK) according to the patent of the Russian Federation No. 2066235, IPC B01D 61/44, 09/10/1996. In the known method, the preparation of aqueous solutions of sodium alkali from industrial alkali metal oxide is carried out by electrodialysis of aqueous alkali metal alkali chloride solutions in a three-chamber electrodialyzer with two cation-exchange membranes.

A disadvantage of the known installation is the low productivity of obtaining an aqueous solution of sodium alkali, due to the use of an electrodialyzer, consisting of only three chambers and the need to obtain an alkaline solution of the required quality, additional input of nonionic surfactant using additional equipment, as well as the impossibility of obtaining a softened saline solution.

The objective of the utility model is to increase the productivity of the process of obtaining an aqueous solution of sodium alkali through the use of electro-membrane devices with a large number of chambers, the possibility of obtaining a softened saline solution, and the ability to obtain an alkaline solution of the desired concentration through the use of two stages of electro-membrane treatment.

The technical result is achieved by the fact that the installation for processing industrial wastewater and obtaining a concentrated alkaline solution and softened saline solution includes, located in the technological sequence and connected by pipelines of chemically resistant material, an accumulation and preliminary treatment unit for the treated wastewater, a unit for recycling working solutions, a unit multi-chamber electro-membrane devices, while the block of multi-chamber electro-membrane devices consists of a block of first the first stage of the electro-membrane treatment to separate the alkaline solution from the initial solution, as well as to obtain a softened saline solution, and the second stage of the electro-membrane treatment to obtain a concentrated alkaline solution, the recirculation unit of the working solutions contains four tanks, the first tank being installed with the possibility of filling with a washing solution, the second the tank is installed with the possibility of filling with demineralized water, the third tank is installed with the possibility of accumulation of alkaline solution from the unit with as a result of electromembrane treatment, the fourth tank is installed with the possibility of filling with a cleaned alkali-containing effluent and connected to the accumulation and preliminary treatment unit of the treated wastewater, the inputs of the unit of the first stage of the electro-membrane treatment are connected respectively to the outputs of the first, second and fourth tanks of the working solution recirculation unit, the outputs of the first the stages of the electro-membrane treatment are connected respectively to the inputs of the first and third tanks of the recirculation unit of working solutions and the inputs of the block of the second stage of the electro-membrane processing are connected respectively to the outputs of the first, third and fourth tanks of the recirculation block of working solutions, the output of the block of the second stage of electro-membrane processing is connected to the input of the first tank of the block of recirculation of working solutions.

The essence of the utility model is illustrated by the drawing, which shows the technological block diagram of the proposed installation for processing industrial wastewater and obtaining a concentrated alkaline solution and softened saline solution.

In the drawing, the numbers indicate:

1 - block accumulation and preliminary treatment of recycled wastewater,

2 - block of the first stage of the electro-membrane treatment to separate the alkaline solution from the initial solution, as well as to obtain a softened saline solution,

3 - block of the second stage of the electro-membrane treatment to obtain a concentrated alkaline solution,

4 - the first tank unit recirculation of working solutions,

5 - the second tank of the recirculation block of working solutions,

6 - the third tank of the block recirculation of working solutions,

7 - the fourth tank of the recirculation block of working solutions.

A plant for processing industrial wastewater and producing a concentrated alkaline solution and softened saline solution includes, located in the technological sequence and connected by pipelines of chemically resistant material, a unit 1 for the accumulation and preliminary treatment of the treated wastewater, a unit for recirculating working solutions, a unit for multi-chamber electro-membrane devices.

Block 1 of the accumulation and preliminary treatment of the treated wastewater is designed to remove fine particles and suspensions from industrial wastewater (clarification), reduce the content of iron and manganese in water (reagentless iron removal), remove chlorine and chlorine-containing impurities and organic compounds from water (sorption).

The unit of multi-chamber electromembrane apparatus consists of unit 2 of the first stage of electro-membrane treatment for separating an alkaline solution from the initial solution, as well as obtaining a softened saline solution, and block 3 of the second stage of electro-membrane treatment to produce a concentrated alkaline solution.

The recirculation unit of working solutions contains four tanks tied with pipelines of chemically resistant material.

The first tank 4 is installed with the possibility of filling with a washing solution.

The second tank 5 is installed with the possibility of filling with demineralized water.

The third tank 6 is installed with the possibility of accumulation of alkaline solution from block 2 of the first stage of the electro-membrane treatment.

The fourth tank 7 is installed with the possibility of filling with a purified alkali-containing effluent and is connected to the accumulation and preliminary treatment unit 1 of the treated wastewater.

The inputs of block 2 of the first stage of the electro-membrane processing are connected respectively to the outputs of the first 4, second 5, and fourth 7 tanks of the working solution recirculation unit, and the outputs of block 2 of the first stage of the electro-membrane processing are connected to the inputs of the first 4 and third 6 tanks of the working solution recirculation block.

The inputs of the block 3 of the second stage of the electro-membrane processing are connected respectively to the outputs of the first 4, third 6 and fourth 7 tanks of the recirculation block of working solutions, and the output of the block 3 of the second stage of electro-membrane processing is connected to the input of the first 4 tanks of the recirculation block of working solutions.

Thus, the technological scheme of the proposed installation for the processing of industrial wastewater and obtaining concentrated alkaline and softened salt solutions consists of separate, compactly placed, technological units:

- block 1 pre-treatment and accumulation of recycled wastewater,

- block recirculation of working solutions,

- block multi-chamber electromembrane apparatus.

All parts, assemblies and parts in contact with working solutions of the proposed installation are made of chemically resistant materials.

The storage and pre-treatment unit 1 of the treated wastewater includes a storage tank with a volume of 4,500 l, which is designed to collect and store the treated water, as well as a water purification system (not shown conventionally in the drawing) for preliminary treatment of the treated wastewater.

The recirculation unit for working solutions includes four plastic tanks 4, 5, 6, 7, each with a working capacity of 750 liters, tied with pipes made of chemically resistant PVC. Tanks 4, 5, 6, 7 are equipped with appropriate pipe fittings, which are not conventionally shown in the drawing.

Tanks 4, 5, 6, 7 are made of polyethylene and are designed for stationary storage of working solutions, equipped with a removable lid with a breathing valve. The diameter of the lid allows the maintenance of containers inside.

Tanks 4, 5, 6, 7 are not designed to work under pressure. The working pressure inside these tanks is hydrostatic (liquid column pressure).

In the upper part of tanks 4, 5, 6, 7, fittings for supply and removal of working solutions are mounted. At the bottom there is a drain with a plug.

To control the level, tanks 4, 5, 6, 7 are equipped with level gauges.

The first tank 4 is filled with a washing solution, which is a 1% solution of alkali in water. The solution from this tank is used for continuous washing of the near-electrode chambers of multi-chamber electro-membrane devices of blocks 2 and 3 of the electro-membrane treatment.

The second tank 5 is initially filled with demineralized water, which is used in the block 2 of the first stage of the electro-membrane treatment to separate the alkaline solution from the initial solution, as well as to obtain a softened saline solution.

The third tank 6 is used to accumulate an alkaline solution coming from block 2 of the first stage of the electro-membrane treatment, and then obtain a concentrated alkaline solution in block 3 of the second stage of the electro-membrane treatment.

The fourth tank 7 is filled with a pre-purified alkali-containing drain from the storage tank of the storage and pre-treatment unit 1 of the treated wastewater.

The installation for processing industrial wastewater and obtaining concentrated alkaline solution and softened saline solution includes the stages of preliminary treatment and electro-membrane treatment.

The electro-membrane treatment of pre-treated industrial wastewater includes the stage of separation of the alkaline solution from the initial solution, as well as obtaining a softened saline solution in block 2 and the stage of concentration of the obtained alkaline solution in block 3.

On the multi-chamber electromembrane apparatus of the block 2 of the first stage, alkaline and softened saline solutions are obtained. The softened solution is a diluted solution of the starting salts and the remaining alkali.

The alkaline solution from the multi-chamber electro-membrane apparatus of the block 2 of the first stage of the electro-membrane treatment is sent to concentration in the multi-chamber electro-membrane apparatus of the block 3 of the second stage of the electro-membrane treatment.

The unit operates in a circulating mode. In the process, the pressure at the inlet and outlet of the multi-chamber electromembrane apparatus, the flow rate of solutions for each path are controlled. To control the efficiency and degree of completion of the process, sampling of working solutions for chemical analysis is provided.

The installation is equipped with pumps (not shown conditionally in the drawing) for supplying working solutions and washing water to electromembrane processing units 3 and 4. Working solutions during circulation are cleaned of mechanical impurities by filtration through cartridge filters (not shown conditionally in the drawing).

The electric power source of multi-chamber electromembrane apparatuses of units 2 and 3 of the electromembrane processing, installed separately, provides direct current power to each multi-chamber electromembrane apparatus with continuously adjustable output voltage.

The voltage regulation range is 0-100 V, the maximum current is 15 A.

The total electricity consumption by two multi-chamber electro-membrane devices of blocks 2 and 3 of the electro-membrane treatment is 13 kWh per 1 ton of the treated solution. Processing products in this case are 0.1 tons of alkaline solution (4% alkali, 2% salts) and 1 ton of saline solution (2.5% of the initial salts), which are used later in the process.

In the process of processing industrial wastewater and obtaining a concentrated alkaline solution and softened saline solution, no additional input of chemicals is required.

The presence in the proposed installation of blocks 2 and 3 of the electro-membrane treatment allows you to bring the concentration of the resulting alkaline solution to the concentration required for its reuse in the production cycle.

A distinctive feature of the proposed installation for the processing of industrial wastewater and obtaining concentrated alkaline and softened salt solutions is the use of electro-membrane devices with a large number of chambers, as well as the use of two stages of processing, which allows to increase the productivity of the installation and to obtain an alkaline solution of the required concentration.

Claims (1)

A plant for processing industrial wastewater and producing a concentrated alkaline solution and softened saline solution, including the accumulation and pretreatment unit for recycled wastewater located in the technological sequence, a unit for recycling working solutions, a unit for multi-chamber electro-membrane devices, and the unit for multi-chamber electro-membrane devices consists of the first unit electro-membrane treatment steps for separating the alkaline solution from the initial solution, as well as f receiving a softened saline solution, and a block of the second stage of the electro-membrane treatment to obtain a concentrated alkaline solution, the recirculation block of working solutions contains four tanks, tied with pipelines of chemically resistant material, the first tank is installed with the possibility of filling with a washing solution, the second tank is installed with the possibility of filling with demineralized water, the third tank is installed with the possibility of accumulation of alkaline solution from the block of the first stage of the electro-membrane treatment, the second tank is installed with the possibility of filling with a cleaned alkali-containing drain and connected to the accumulation and preliminary treatment unit of the treated wastewater, the inputs of the unit of the first stage of the electro-membrane processing are connected respectively to the outputs of the first, second and fourth tanks of the recirculation unit of the working solutions, the outputs of the block of the first stage of the electro-membrane treatment are connected respectively, with the inputs of the first and third tanks of the recirculation block of working solutions, and the inputs of the block of the second stage electromemb wound treatment are connected respectively to the outputs of the first, third and fourth tanks of the recirculation block of working solutions, the output of the block of the second stage of the electro-membrane treatment is connected to the inlet of the first tank of the recirculation block of working solutions.