RU56374U1 - MEMBRANE INSTALLATION FOR PREPARATION OF DEEP DESAINED WATER - Google Patents

Abstract

The utility model relates to water purification technology, specifically to the preparation of deeply desalted water using a complex of membrane units for purification of various contaminants, and can be used to purify natural water, suspensions, organic substances, heavy metal ions, hardness salts, radionuclides in water treatment for nutrition power plants, chemical, nuclear industry, metal processing and other industries. The task to which the proposed utility model is directed is to increase the efficiency of the installation by using a concentrate of the second stage of reverse osmosis, the composition of which corresponds to the required concentrate for the operation of the electrodeionization module and return the spent concentrate from this module to the input of the first stage of reverse osmosis. To solve this problem, the membrane installation for the preparation of deeply desalted water consists of a preliminary preparation unit for purified water, for example, ultrafiltration, two serially connected reverse osmosis modules and an electrodeionization module connected in such a way that the purified water supply pipe is connected to the inlet pipe of the pump supplying the purified water to site for preliminary treatment of purified water, the outlet pipe of the purified water of which is connected to a high pressure pump, the output of which is The uniform module to the inlet of the first reverse osmosis stage permeate withdrawal nipple which is connected to the high pressure pump inlet, and

module of the second stage of reverse osmosis, and the outlet pipe of the concentrate of the module of the second stage of reverse osmosis is connected to the inlet of the pump supplying purified water to the module of the first stage of reverse osmosis, and the output pipe of the module of the second stage of reverse osmosis is connected to the inlet of the pump supplying permeate to the electrodeionization module moreover, the outlet pipe of the concentrate of the electrodeionization module is connected to the inlet of the pump supplying purified water to the module of the first stage of reverse osmosis, and the pipe ok output of the concentrate of the module of the second stage of reverse osmosis is connected via a pipeline with a control valve installed on it with the inlet pipe of the concentrate circulation pump of the electrodeionization module. 4 C.p. f-ls, 1 ill.

Description

The utility model relates to water purification technology, specifically to the preparation of deeply desalted water using a complex of membrane units for purification of various contaminants, and can be used to purify natural water, suspensions, organic substances, heavy metal ions, hardness salts, radionuclides in water treatment for nutrition power plants, chemical, nuclear industry, metal processing and other industries.

Known installations for water purification using membrane methods, consisting of series-connected plants for pre-treatment of water, such as ultrafiltration, reverse osmosis and deep desalination on ion-exchange filters (M. Tanabe, S. Kaneko, US Pat. 5833846, 10.11.98, B. N. Fedorenko et al., Critical Technologies, Membranes, 2004, No. 4, pp. 5-8). Such installations provide the specified quality of purified water.

The disadvantage of such installations is their great complexity and the need to use additional reagents — acid and alkali — in the process.

The closest technical solution selected for the prototype is the installation for the preparation of deeply desalted water, consisting of a preliminary water treatment unit, for example, ultrafiltration, two serially connected reverse osmosis modules and an electrodeionization module, connected so that the pipeline for supplying purified water is connected to the inlet pipe

a pump supplying water to the preliminary water treatment unit, the outlet of the purified water outlet of which is connected to a high pressure pump, the outlet of which is connected to the inlet of the first reverse osmosis module, the outlet of the outlet of purified water of which is connected to the high pressure pump and the inlet of the second reverse osmosis module. The outlet port of the concentrate of the second reverse osmosis module is connected to the inlet of the pump supplying water to the first reverse osmosis module, and the outlet of purified water of the second reverse osmosis module is connected to the inlet of the pump supplying water to the electrodeionization module (T. Prato, CJGallagher, International water conference, IWC-00-47 Report, p. 3). Such an installation provides the specified quality of purified water.

The disadvantage of this installation is the low efficiency of its operation, the need to add salt of special quality to the circulation loop of the electrodeionization module and the discharge of additional salts from this module.

The task to which the proposed utility model is directed is to increase the efficiency of the installation by using a concentrate of the second stage of reverse osmosis, the composition of which corresponds to the required concentrate for the operation of the electrodeionization module and return the spent concentrate from this module to the input of the first stage of reverse osmosis.

To solve this problem, the membrane installation for the preparation of deeply desalted water consists of a preliminary preparation unit for purified water, for example, ultrafiltration, two serially connected reverse osmosis modules and an electrodeionization module connected so that the piped water supply is connected to the pump inlet

the water to be purified into the preliminary water treatment preparation unit, the outlet of the purified water outlet of which is connected to a high pressure pump, the outlet of which is connected to the inlet of the module of the first stage of reverse osmosis, the outlet of permeate of which is connected to the high pressure pump and the inlet of the module of the second reverse osmosis stage, moreover, the outlet pipe of the concentrate of the module of the second stage of reverse osmosis is connected to the inlet pipe of the pump supplying the purified water to the module of the first stage of reverse osmosis a, and the outlet pipe of the module of the second stage of reverse osmosis is connected to the inlet of the pump supplying permeate to the electrodeionization module, the outlet pipe of the concentrate of the electrodeionization module is connected to the inlet of the pump supplying purified water to the module of the first stage of reverse osmosis, and the outlet pipe of the concentrate of the module of the second the reverse osmosis stage is connected by means of a pipeline with a control valve installed on it with the inlet pipe of the concentrate circulation pump of the electrodeionisation module nation.

In a particular embodiment, a salimeter connected to the control line with a control valve is installed on the pipeline connecting the outlet pipe of the concentrate of the electrodeionization module to the pump inlet of the pump of the first stage of reverse osmosis system.

In another particular embodiment, an additional control softener is installed on the pipeline connecting the concentrate outlet pipe of the second stage reverse osmosis module to the electrodeionization module.

In another particular embodiment, on the pipeline connecting the outlet pipe of the concentrate module of the first stage of reverse osmosis with a high pressure pump and the inlet pipe of the second module

reverse osmosis stages installed membrane degassification system.

In another particular embodiment, an ultrafiltration module is used as a preliminary preparation unit for the water to be treated.

The Figure shows a diagram of a membrane installation for the preparation of deeply desalted water, where: 1 - ultrafiltration module; 2 - module of the first stage of reverse osmosis; 3 - module of the second stage of reverse osmosis; 4 - electrodeionization module; 5 - control softener; 6, 7, 8, 9, 10 - pumps; 11 - membrane degassification system; 12, 13, 14 - valves; 15 - control valve; 16 - concentration meter; 17, 20, 23, 26 - inlet nozzles; 18, 21, 25 - outlet pipes of the concentrate; 19, 22, 24 - permeate outlet pipes; 27 - pipe outlet deep desalted water; 28 - pipeline supply of concentrate to the electrodeionization module; 29 is a pipeline for returning the concentrate of the electrodeionization module to tertiary treatment.

Membrane installation works as follows.

Pump 6 serves the purified feed water to ultrafiltration module 1, where it is divided into a concentrate containing mechanical (suspended matter), organic and microbiological contaminants that are discharged into the drain, and purified filtrate (permeate) entering the inlet of the high pressure pump 7 of the first module reverse osmosis stages 2. In the specified module, the main mass of salts is released, which in the form of concentrate is discharged through valve 12 into the drainage, and in the form of partially desalted permeate, which is fed to the pump inlet pressure module 8 of the second stage reverse osmosis 3. The valve 13 regulate the pressure and the module performance. At the second stage of reverse osmosis, a deep desalination of the permeate occurs, which is fed to the input of the pump 9 of the electrodeionization module 4.

The concentrate, which contains mainly sodium salts, in an amount less than in the initial purified water, is returned to the inlet of the pump 7 of the first stage reverse osmosis unit 2 for purification. Valve 13 controls the pressure and performance of the module. In the electrodeionization module 4, when water is passed through a layer of a mixture of ion exchangers continuously regenerated by an electric current, the trace amounts of contaminants remaining after reverse osmosis are removed. For the effective operation of the electrodeionization module 4 in the concentrate chambers, the specified salt content is maintained and the concentrate is circulated by the pump 10. To feed the circulation circuit of the electrodeionization module 4, the inlet port of the concentrate circulation pump is connected via a pipe 28 with an adjustment valve 14 installed on it with a concentrate outlet 25 of the second stage module reverse osmosis 2. To guarantee the prevention of hardness salts from entering the circulation circuit into the specified pipe 28 additional control softener is installed 5. To maintain salinity in the circulation circuit of the concentrate of the electrodeionization module on the pipe 29 connecting the outlet pipe of the concentrate of the electrodeionization module to the inlet of the pump 7 of the module of the first stage of reverse osmosis 2, a salimeter 16 is installed, connected by a control line to the control valve 15. For The system of membrane degassification 11 was used to remove carbon dioxide and oxygen dissolved in the source purified water.

Example.

A membrane unit for the preparation of deeply desalted water was used, consisting of a preliminary water treatment unit containing a hydranautics hollow fiber ultrafiltration module with a capacity of 3 m ³ / h,

providing purification of natural water from suspensions, organic matter and iron with a conversion of 95%, the first reverse osmosis module on roll elements of the 8040 Filmtec type with a productivity of 2.7 m ³ / h, providing purification of water from hardness salts, heavy metal ions and organic pollution, the second reverse osmosis module on roll elements of the 8040 Filmtec type with a capacity of 2.0 m ³ / h, which provides additional water treatment and an Ionpure electrodeionization module with a demineralized water capacity of 1.9 m ³ / h. Reverse osmosis modules operate at a pressure of 0.12-0.16 MPa. An additional control solution softener with a cation exchanger volume of 50 l ensures the guaranteed quality of the solution electrodeionization supply module for at least a year. The membrane degassification system ensures the removal of carbon dioxide and oxygen dissolved in water. The use of a complex of membrane installations provides the resistance of purified water to 15-18 Mom / cm. The amount of low-concentration waste water, the discharge of which into the industrial sewage system is allowed, is 0.6 m ³ / h.

Claims (5)

1. Membrane installation for the preparation of deeply desalted water, consisting of a preliminary preparation unit for purified water, for example, ultrafiltration, two serially connected reverse osmosis modules and an electrodeionization module connected in such a way that the purified water supply pipe is connected to the inlet pipe of the pump supplying the purified water to the unit preliminary preparation of the purified water, the outlet pipe of the purified water of which is connected to the high pressure pump, the outlet of which is connected to the inlet pipe a module of the first stage of reverse osmosis, the outlet pipe of the permeate of which is connected to the high pressure pump and the inlet pipe of the module of the second stage of the reverse osmosis, and the pipe of the output of the concentrate of the module of the second stage of reverse osmosis is connected to the inlet of the pump that supplies the purified water to the module of the first stage of reverse osmosis, and the outlet pipe of the module of the second stage of reverse osmosis is connected to the inlet of the pump supplying permeate to the electrodeionization module, characterized in that the outlet pipe of the concentrate the waste of the electrodeionization module is connected to the inlet pipe of the pump supplying purified water to the module of the first stage of reverse osmosis, and the outlet pipe of the concentrate of the module of the second stage of reverse osmosis is connected via a pipe with a control valve installed on it with the inlet pipe of the pump for circulating the concentrate of the electrodeionization module. 2. The membrane installation according to claim 1, characterized in that on the pipeline connecting the outlet pipe of the concentrate of the electrodeionization module to the inlet pipe of the pump of the module of the first stage of reverse osmosis, there is a salimeter connected by a control line to the control valve. 3. The membrane installation according to claim 1, characterized in that an additional control softener is installed on the pipeline connecting the outlet pipe of the concentrate module of the second reverse osmosis stage to the electrodeionization module. 4. The membrane installation according to claim 1, characterized in that a membrane degassification system is installed on the pipeline connecting the concentrate output module of the first stage of reverse osmosis with a high pressure pump and the inlet pipe of the module of the second stage of reverse osmosis. 5. The membrane installation according to claim 1, characterized in that the ultrafiltration module is used as a unit for preliminary preparation of the water to be purified.