UA24080U - Plant for the water filtration with the reverse osmosis - Google Patents

Abstract

A plant for the water filtration with the reverse osmosis contains reverse osmosis demineralizer connected consequently by water way after cartridge-typed mechanical purification filters mounted in addition after preceding purification filters. The plant is connected to a permeate distribution line and a concentrate-discharge line. Besides, the reverse osmosis filter elements of this plant having cylinder form of equal diameters and the same filter membrane surface between them are connected in parallel by water way and connected in separate connections. The parallel connections themselves of the filter elements are connected in parallel by water way and connected in separate blocks and the blocks are consequently connected between them by water way.

Description

Description of the invention

A useful model can be used in the food and chemical industry, in agriculture and 2 housing and communal services, as well as in the energy industry, in filtering and preparing water.

There is a well-known installation for obtaining clarified water using ultrafiltration, which contains an ultrafiltration installation connected after mesh prefilters with a pore size of 200 μm, and connected to a reverse osmosis installation for desalination |11).

The disadvantage of this installation is its high energy consumption, since the design of the installation is not optimized.

The closest is a plant for obtaining deeply desalinated water using reverse osmosis, which contains a reverse osmosis desalination plant connected in series with the water after the cartridge-type mechanical purification filters, additionally installed after the pre-treatment filters, and connected to the permeate delivery line and the concentrate withdrawal line (21.

This setup has the same drawback. 12 The useful model is based on the idea, by improving the design of the reverse osmosis plant, to reduce the energy consumption of the water filtration plant using reverse osmosis without deteriorating the quality of the filtered water (permeate). 1. The problem is solved by the fact that in a water filtration unit using reverse osmosis, which contains a reverse osmosis desalination unit, connected in series to the water after the cartridge-type mechanical cleaning filters, additionally installed after the pre-cleaning filters, and connected with a permeate delivery line and a concentrate outlet line, the new thing is that the filter elements of the reverse osmosis installation, which have a cylindrical shape of the same diameter, the same length and the same plane of the membrane filter surface, are connected to each other by water in parallel and connected in separate connection, and the parallel connections of the filter elements are connected to each other by water 29 in parallel and connected into separate blocks, and the blocks are connected to each other by water in series, and the number of parallel connected filter elements in the block, which is located at the water inlet to the reverse osmosis installation can be maximum, and the amount parallel to the number of combined filter elements in the unit located at the outlet of the reverse osmosis installation of the concentrate may be minimal, and the number of filter elements in the unit located at the water inlet of the reverse osmosis installation and is the inlet may not exceed 60, and the number of filter elements in the block, which is located at the outlet of the concentrate of the reverse osmosis installation and is the output, may not be more than 30, in addition, the number of parallel-connected filter elements in the blocks, which are connected by water between the input and output blocks and is average, can be the same as the number of filter elements of its input or output blocks, or can be less than the number of filter elements of the input block and 35 more than the number of filter elements of the output block, in addition, the number of filter elements in the middle blocks can be the same, and can decrease from block to block in the direction of their serial connection water flow from the input block to the output block. 2. What is new according to point 7 is also the fact that the filter elements of the reverse osmosis installation, which have a "cylindrical shape of different diameters and the same length, are connected to each other by water in parallel and connected in C 40 separate connections, and themselves parallel connections of filter elements are connected to each other by water c in parallel and connected into separate blocks, and the blocks are connected to each other by water in series, and the total amount c" of all the planes of the filter surfaces of the membranes of the filter elements in the block, which is located on of water entering the reverse osmosis unit can be maximum, and the total sum of all the planes of the filtering surfaces of the membranes of the filter elements in the block, which is located at the outlet 45 of the reverse osmosis unit of the concentrate, can be minimal, in addition, the total sum of all the planes and filtering surfaces of the filtering membranes of elements in the blocks that are connected by water between the input and "" output blocks and are average, can be the same as the total by the sum of all the planes of the filter surfaces of the membranes of the filter elements in the input or output units, and may be less than the total sum of all the planes of the filter surfaces of the membranes of the filter elements in the input block and

Ge | 20 greater than the total sum of all the planes of the filter surfaces of the membranes of the filter elements of the output unit, in addition, the total sum of all the planes of the filter surfaces of the membranes of the filter elements in the middle blocks can be the same, but can decrease from block to block in the direction of their serial connection by water from of the input unit to the output unit.

Q. What is new according to clauses 1-2 is also that the filter elements of each connection, which have a cylindrical shape of the same diameter, the same length and the same plane of the filtering surface of the membrane, can be connected to each other not only in parallel, but and in series, and each parallel connection constitutes a separate assembly, which is connected in series with another parallel assembly, and the number of parallel-connected filter elements in the assembly, which is located at the water inlet to the connection, can be maximum, and the number of parallel of connected filter elements in the assembly, which is located at the outlet of the connection because of the concentrate, may be minimal, in addition, the number of filter elements in the assembly, which is located at the water inlet of the connection and is the inlet, may not be more than 60 , and the number of filter elements in the assembly, which is located at the outlet of the concentrate from the connection, and is the outlet, may not be more than 30, in addition to this, the number of parallel-connected filter valves of elements in assemblies that are connected by water between the input and output assemblies and which are average, may be equal to the number of filter elements of the input or output assemblies, or may be less than the number of filter elements of the input assembly and greater than the number of filter elements of the output assembly , in addition, the number of filter elements in the middle assemblies may be the same, or may decrease from assembly to assembly in the direction of their serial connection by water from the input assembly to the output assembly. 4. What is new according to clauses 1-3 is also the fact that the filter elements of each connection, which have a cylindrical shape of different diameters and the same length, can be connected to each other not only in parallel, but also in series, and each parallel the connection constitutes a separate assembly, which is connected in series with another parallel assembly, and the total sum of all the planes of the filtering surfaces of the membranes of the filter elements connected in parallel in the assembly, which is located at the water inlet to the connection, can be maximum, and /o the total sum of all the planes of the filtering surfaces of the membranes of filter elements connected in parallel in the assembly, which is located at the outlet of the concentrate from the connection, can be minimal, in addition, the total sum of all the planes of the filtering surfaces of the membranes of the filter elements in the assemblies that are connected by water between the input and output assemblies and which are average, can be equal to the total sum of all the planes of the filter surfaces of the membrane elements of the input or original assemblies, but may be less than /5 of the total sum of all the planes of the filter surfaces of the membranes of the filter elements of the input assembly and greater than the total sum of all the planes of the filter surfaces of the membranes of the filter elements of the original assembly, in addition, the total sum of all the planes of the filter surfaces of the membranes of the filter elements in medium assemblies may be the same, or may decrease from assembly to assembly in the direction of their serial connection by water from the input assembly to the output assembly. 5. What is new according to points 1-4 is that the filter membranes of the filter elements can have pores of different sizes, but each individual membrane has pores of the same size, and the filter elements, when connected in series through the water, are installed so that on a filter element with the maximum pore size of the filter membrane is located at the water inlet, and a filter element with the minimum filter membrane pore size is located at the concentrate outlet.

Figure 1 schematically shows a device for filtering water using reverse osmosis.

Fig. 2 schematically shows a reverse osmosis installation, which contains filter elements o, of the same diameter and and of the same length I. The connections of the filter elements are circled with a dotted line, and the blocks that form the filter elements are circled with a solid line.

Fig. 3 schematically shows a reverse osmosis installation, which contains filter elements of different diameters 41, 42, aZ and the same length GI. The connections of the filter elements are circled with a dotted line, and the blocks that form the filter elements are circled with a solid line. co

Figure 4 schematically shows the connection of the reverse osmosis installation, which contains filtering elements of the same diameter 4 and the same length of HER. Connections of filter elements are circled with a dashed line, and assemblies of filter elements that contain a connection are circled with a solid line. -

Fig. 5 schematically shows the connection of the reverse osmosis installation, which contains filter elements with different diameters a1, 42, az and the same length I. The connection of filter elements is circled with a dotted line, and the assembly of filter elements, which contains the connection, surrounded by a solid line.

Fig. 6 schematically shows the filter element of the reverse osmosis installation in an unwound form. "

The installation for filtering water using reverse osmosis consists of pre-cleaning filters 1, cartridge-type mechanical cleaning filters 2 and reverse osmosis installation 3, connected to each other by water in series (Fig. 1). The reverse osmosis installation C, in turn, contains filter elements;" 4, which have a cylindrical shape and are connected to each other by water in connection 5. Connection 5, in turn, are connected by water in blocks 6 (Fig. 2, 3). Each connection 5 may contain separate assemblies of filter elements 45007 (Fig. 4, 5). Each filter element 4 consists in its turn of a membrane 8 and a gasket 9, which are wound around a plastic tube along the permeate outlet 10 (Fig.b).

The filter elements 4 of the reverse osmosis unit 3, which is shown in Fig. 2, have a cylindrical o shape of the same diameter a, the same length Y and the same plane of the filtering surface of the membrane, o are connected to each other by water in parallel and connected in separate connections 5, and the parallel connections 5 of the filter elements 4 are connected to each other by water in parallel and connected into separate blocks 6, and the blocks are connected to each other by water in series, and the number of parallel-connected filter elements in the o block 6.1, which is located at the water inlet to the reverse osmosis unit C is the maximum and is equal to nine, and the number of parallel-connected filter elements in block 6.3, which is located at the outlet of the reverse osmosis unit C of the concentrate, is the minimum and is equal to three. In addition, the number of parallel-connected filter elements in unit 6.2, which is connected by water between the input and output units and is the average, is less than the number of filter elements 4 of the input unit 6.1 and greater than the number of filter elements 4 of the output unit 6.3 and is equal to six , in addition, the number of filter elements in the middle blocks may be the same, or may decrease from block to block in the direction of their serial connection by water from the input block to the output block. The filter elements 4 of the reverse osmosis unit 3, which is shown in Fig. 3, also have a cylindrical shape, but of different diameters 41, 42, az, the same length and different plane of the filtering surface of the membranes 8, connected to each other by water in parallel and with are connected in separate connections 5, and the parallel connections 5 of filter elements 4 are connected to each other by water in parallel and connected in separate blocks 6, and the blocks are connected to each other by water in series. The total sum of all planes of the filter surfaces of 65 membranes of 8 filter elements 4 in unit 6.1, which is located at the water inlet to the reverse osmosis unit C is the maximum in this case, and the total sum of all planes of the filter surfaces of membranes 8 filter elements 4 in unit 6.3, which located at the outlet of the reverse osmosis unit of the concentrate is minimal, in addition, the total sum of all the planes of the filter surfaces of the membranes 8 of the filter elements 4 in the block 6.2, which is connected by water between the input and output blocks and is heavy, is less than the total sum of all of the planes of the filter surfaces of the membranes 8 of the filter elements 4 in the input unit 6.1 and greater than the total sum of all the planes of the filter surfaces of the membranes 8 of the filter elements 4 of the output unit 6.3, in addition, the total sum of all the planes of the filter surfaces of the membranes 8 of the filter elements 4 in the middle units can be the same , and can decrease from block to approx eye in the direction of their serial connection by water from the input unit to the 70 output unit.

The filter elements 4 of the connection 5, which is separately indicated in Fig. 4, also have a cylindrical shape of the same diameter a, the same length I! and the same plane of the filtering surface of each membrane 8.

In Fig. 4, the filter elements 4 are connected to each other not only in parallel, but also in series, and each parallel connection is a separate assembly 7, which is connected in series by water with another parallel assembly 7/5 7, and the number in parallel with of connected filter elements 4 in the assembly 7.1, which is located at the water inlet to the connection 5, can be the maximum and equal to three, and the number of parallel filter elements 4 in the assembly 7.3, which is located at the outlet from the connection 5 of the concentrate, is the minimum and is equal to one. In addition, the number of parallel-connected filter elements 4 in the assembly 7.2, which is connected by water between the input 7.1 and output 7.2 assemblies and which is average, is less than the number of filter elements 4 of the input assembly 7.1 and greater than the number of filter elements 4 of the output assembly 7.3 and is equal to two, in addition, the number of filter elements 4 in the middle assemblies may be the same, or may decrease from assembly to assembly in the direction of their serial connection by water from the input assembly to the output assembly.

The filter elements 4 of the connection 5, which is separately indicated in Fig. 5, also have a cylindrical shape of different diameters 41, 42, 83 and the same length of GI, as well as the same plane of the filter surface of each membrane 8. In Fig. 5, the filter elements 4 with are connected to each other not only in parallel, but also in series, and each parallel connection is a separate assembly 7, which is connected in series by water with another parallel assembly o, 7. In addition, the total sum of all the planes of the filter surfaces of the membranes 8 of the filter elements 4, connected in parallel in the assembly 7.1, which is located at the water inlet to the connection 5, can be the maximum, and the total sum of all the planes of the filter surfaces of the membranes 8 of the filter elements 4, connected in parallel in the assembly 7.3, which is located at the outlet of the concentrate from the connection, can be minimal, in addition, the total sum of all the planes of the filter surfaces of the membranes 8 of the filter elements 4 in the assembly 7.2, which is connected by water between the inlet and output assemblies and which is the average, is less than the total sum of all filter surfaces of membranes 8 filter elements 4 of input assembly 7.1 and greater than the total sum of all planes of filter surfaces of membranes 8 filter elements 4 of output assembly -

According to 7.3, in addition, the total sum of all the planes of the filtering surfaces of the filter element membranes in the medium assemblies may be the same, or may decrease from assembly to assembly in the direction of their serial connection by water from the input assembly to the output assembly.

In all of these cases, the membranes 8 of the filter elements 4 have the same pore size.

In addition, filter membranes 8 of filter elements 4 can have pores of different sizes, however "

Each individual membrane 8 has pores of the same size, and the filter elements 4, when connected in series by water, are installed so that the filter element z is located at the water inlet. with the maximum pore size of the filter membrane, and the filter element with the minimum pore size of the filter membrane is located at the outlet of the concentrate.

Installation for filtering water using reverse osmosis works as follows. The incoming water is fed to the pre-cleaning filters 1 and then to the cartridge-type mechanical cleaning filters 2. With the help of these filters, the incoming water is cleaned of coarse contamination by particles of various origins. After filters 1 and 2, the incoming water is fed to the input of the reverse osmosis unit Z (Fig. 1). With the help of o reverse osmosis installation C, the incoming water is desalinated, thereby obtaining purified water (permeate) and o the remains of incoming water (concentrate). Purified water (permeate) is collected using a plastic tube 10 (Fig. 6). Water desalination is carried out by passing the incoming water through the membranes of 8 filtering elements 4. o Energy costs for water desalination are mainly determined by the water pressure at the entrance to the reverse osmosis unit З and the volume of water passed through the reverse osmosis unit. In that case, if all filter elements 4 of the reverse osmosis unit C were connected by water in parallel, the energy costs would be unreasonably high due to the large volume of water pumped through the reverse osmosis unit. In that case, if all the filter elements 4 of the reverse osmosis unit C were connected by water in series, it would be impossible to obtain high-quality purified water (permeate) in the required volume. The location of the filter elements 4 in the reverse osmosis plant C indicated in the application is optimal in adapting to the needs of clean water at each specific enterprise (its volume and quality), because and also taking into account the designs of the filter elements 4 themselves.

The number of filter elements 4 at the water inlet should not exceed 60, and the number of filter elements at the concentrate outlet should not exceed 30, because in this case the cost of the reverse osmosis installation will be unreasonably high.

When placing the filter element 4 with the maximum pore size of the filter membrane 65 at the water inlet, and the filter element with the minimum pore size of the filter membrane at the outlet, energy consumption is also optimized, as it makes it possible to extract more clean water from the output concentrate or to increase the quality of that volume water taken from a reverse osmosis installation, which contains filter elements with the same pore size. | it also makes it possible to obtain more clean water from the input filter elements, at the input of which no concentrate enters.

Thus, energy consumption for water desalination (energy consumption of a water filtration unit using reverse osmosis), without deteriorating its quality, can be reduced not due to the design of the filter elements, but due to their optimal location and water connection in the reverse osmosis unit.

Sources of information: 70 1. Patent of Ukraine for utility model Mo7744), СО9Е 1/44, bull. Mo7, 2005 2. Patent of Ukraine for utility model Mob546), СО9Е 1/44, bull. Mo5, 2005

Claims (2)

The formula of the invention, etc 1. Installation for filtering water using reverse osmosis, which contains a reverse osmosis desalination unit, connected in series with the water after the cartridge-type mechanical cleaning filters, additionally installed after the pre-cleaning filters, and connected to the permeate delivery line and the drain line concentrate, which differs in that the filter elements of the reverse osmosis installation, which have a cylindrical shape of the same diameter, the same length and the same plane of the filtering surface of the membrane, are connected to each other by water in parallel and connected in separate connections, and are parallel the connections of the filter elements are connected to each other by water in parallel and connected into separate blocks, and the blocks are connected to each other by water in series, and the number of parallel-connected filter elements in the block, which is located at the water inlet to the reverse osmosis installation, can be maximum, and the number of filter elements connected in parallel units in the unit located at the outlet of the reverse osmosis unit of the concentrate can be minimal, and the number of filter elements in the unit, which is located at the water inlet to the reverse osmosis unit and is the inlet, can be no more than 60, and the number of filter elements in the block, which is located at the outlet of the concentrate of the reverse osmosis installation and is the output, there can be no more than 80, in addition, the number of parallel-connected filter elements in the ozo blocks, which are connected by water between the input and output blocks and are average, can be the same as the number of filter elements of the input or output blocks, and may be less than the number of filter elements of the input block and greater than the number of filter elements of the output block, in addition, the number of filter elements in the middle blocks may be the same, or may decrease from the block to the block in the direction of their serial connection by water from the input block to you walkable "35 2. Installation for filtering water using reverse osmosis according to claim 1, which differs in that the filter elements of the reverse osmosis installation, which have a cylindrical shape of different diameters and the same length, are connected to each other by water in parallel and connected in separate connection, and the parallel connections of the filter elements are connected to each other by water in parallel and connected into separate blocks, and the blocks are connected to each other by water in series, and the total sum of all the planes of the filter surfaces of the membranes of the filter elements in the block, which is located at the water inlet to the reverse osmosis installation, 7 s can be the maximum, and the total sum of all the planes of the filtering surfaces of the filtering membranes. of elements in the block, which is located at the outlet of the reverse osmosis unit of the concentrate, can be a minimum, in addition, the total sum of all the planes of the filter surfaces of the membranes of the filter elements in the blocks, which are connected by water between the input and output blocks and are average, can be equal to the total sum of all the planes of the filtering surfaces of the membranes of the filter elements in the input or output units, and may be less than the total sum of all the planes of the filtering surfaces of the membranes of the filtering elements in the input block and greater than the total sum of all the filtering planes and the surfaces of the membranes of the filtering elements of the output block, up to also, the total sum of all planes o filtering surfaces of filter element membranes in the middle blocks may be the same, or may decrease from block to block in the direction of their serial connection by water from the input block to the output block. o C. Installation for filtering water using reverse osmosis according to claims 1, 2, which is characterized by the fact that the filter elements of each connection, which have a cylindrical shape of the same diameter, the same length and the same plane of the filtering surface of the membrane, can be connected between each other not only in parallel, but also in series, and each parallel connection is a separate assembly, which is connected in series with another parallel assembly, and the number of parallel-connected filter elements in the c assembly, which is located at the water inlet in connection, can be the maximum, and the number of parallel connected filter elements in the assembly, which is located at the outlet of the concentrate connection, can be minimum, in addition, the number of filter elements in the assembly, which is located at the water inlet of the connection and is the input, can be no more than 60, and the number of filter elements in the assembly, which is located at the outlet of the concentrate from the connection and is the output , can be no more than 30, in addition, the number of parallel-connected filter elements in the assemblies, which are connected by water between the input and output assemblies and which are average, can be the same as the number of filter elements of the input or output assemblies, or can be less than number of filter elements of the input assembly and more than the number of 65 filter elements of the output assembly, moreover, the number of filter elements in the middle assemblies may be the same, or may decrease from assembly to assembly in the direction of their serial connection by water from the input assembly to the output assembly. 4. Installation for filtering water using reverse osmosis according to claims 1-3, which is characterized by the fact that the filter elements of each connection, which have a cylindrical shape of different diameters and the same length, can be connected to each other not only in parallel, but and in series, and each parallel connection constitutes a separate assembly, which is connected in series with another parallel assembly, and the total sum of all the planes of the filtering surfaces of the membranes of the filter elements, connected in parallel in the assembly, which is located at the water inlet to the connection , can be the maximum, and the total sum of all the planes of the filter surfaces of the membranes of the filter elements, connected in parallel in the assembly, which 7/0 is located at the outlet of the concentrate from the connection, can be the minimum, in addition, the total sum of all the planes of the filter surfaces of the membranes of the filter elements of elements in assemblies which are connected by water between the input and output assemblies and which are average, can be equal to the total sum of all the planes of the filter surfaces of the membranes of the input or output assemblies, and may be less than the total sum of all the planes of the filter surfaces of the membranes of the filter elements of the input assembly and greater than the total sum of all 7/5 of the planes of the filter surfaces of the membranes of the filter elements of the output assembly, in addition the total sum of all the planes of the filtering surfaces of the filter element membranes in the middle assemblies may be the same, or may decrease from assembly to assembly in the direction of their serial connection by water from the input assembly to the output assembly. 5. Installation for filtering water using reverse osmosis according to claims 1-4, which is characterized by the fact that the filter membranes of the filter elements can have pores of different sizes, but each individual membrane has pores of the same size, and the filter elements, when connected in series through the water , set so that the filter element with the maximum pore size of the filter membrane is located at the water inlet, and the filter element with the minimum pore size of the filter membrane is located at the concentrate outlet. with o "c) (ee) "c) " p - I.Y and? name) sh" («c) (ee) (42) 60 b5