RU94481U1 - REVERSE OSMOSIS DESCRIPTION MODULE (OPTIONS) - Google Patents

Abstract

 1. Desalination reverse osmosis module, characterized in that it consists of four sequentially connected blocks: hydraulic drive block, filter block, hydraulic block and membrane element block, while the hydraulic block is made with a casing and three main channels located inside the casing: for supplying salt water low pressure, drainage of brine under low pressure and drainage of desalinated water; a channel for supplying a high-pressure salt water membrane element block in transit through the filter block from the hydraulic drive block; a channel for diverting from the block of the membrane element of the high-pressure brine in transit through the filter block to the hydraulic drive unit; a supply channel to the low-salt water filter unit from the main channel, filtered in the filter unit before being fed to the hydraulic unit; the low-pressure brine removal channel from the hydraulic drive unit and the filtered particles from the filter unit to the main channel, and the desalinated water removal channel from the membrane element block to the main channel. ! 2. Desalination module according to claim 1, characterized in that the filter unit is self-cleaning and is additionally equipped with a channel for removal of particles delayed by the filter connected to the channel for removal of low-pressure brine. ! 3. Desalination module according to claim 1, characterized in that the channels of the hydraulic wiring unit and the channels of the filter units and the membrane element at the points of their connection are equipped with hydraulic quick disconnect connections with a locking element. ! 4. Desalination reverse osmosis module, characterized in that it consists of four blocks: filter unit

Description

Technical field

The claimed utility model relates to desalination plants for reverse osmosis for the purification and desalination of sea water.

State of the art

Known module desalination plant reverse osmosis described in patent document ES 2226537, published March 16, 2005.

A disadvantage of the module of the known desalination plant is that the modular construction is carried out only in relation to the membrane element. This saves a large number of pipelines connecting the modules to the pumps and their common lines, which complicates the assembly of the desalination plant, its maintenance and repair. In addition, due to the presence of a larger number of pipelines, the known desalination plant reverse osmosis occupies a significant amount. The disadvantage is the lack of filtration of water entering the membrane element.

Utility Model Disclosure

The technical result achieved in the claimed utility model is the autonomy of the desalination reverse osmosis module (desalination plant module), which consists in the fact that it can be used alone and desalinate sea water or together with other modules. At the same time, the desalination plant is compact with several modules. In addition, the desalination plant module itself has a modular design and, as a result, increased maintainability and reliability.

The technical results are also the inclusion in the module of the desalination plant of the filter for the purification of low-pressure salt water entering the hydraulic drive unit, and the modular implementation of this filter.

The indicated technical results are achieved in a desalination reverse osmosis module, consisting of four sequentially connected blocks: a hydraulic drive unit, a filter unit, a hydraulic wiring unit and a membrane element block, while the hydraulic wiring unit is made with a housing providing for matching with the housing a hydraulic wiring unit of a neighboring desalination reverse osmosis module, and three main channels located inside the casing: for supplying low-salt water, low-pressure brine outlet and twater desalinated water; a channel for supplying a block of the salt water membrane element under high pressure in transit through the filter unit from the hydraulic drive unit; a channel for diverting from the block of the membrane element of the high-pressure brine in transit through the filter block to the hydraulic drive unit; the supply channel to the low-salt water filter unit from the corresponding main channel, filtered in the filter unit before being fed to the hydraulic drive unit; a low-pressure brine discharge channel from the hydraulic drive unit and filtered particles from the filter unit to the corresponding main channel; and a channel for the removal of desalinated water from the block of the membrane element into the corresponding main channel.

The filter unit can be self-cleaning, and is additionally equipped with a channel for the removal of particles delayed by the filter connected to the channel for removal of the low-pressure brine.

The channels of the hydraulic wiring block and the channels of the filter blocks and the membrane element at the points of their connection can be equipped with hydraulic quick disconnect connections with a locking element.

The indicated technical results are achieved in a desalination reverse osmosis module, consisting of four blocks: a filter unit, and sequentially connected: a hydraulic drive unit, a hydraulic distribution unit and a membrane element block, while the hydraulic distribution unit is made with a housing providing for coupling with the housing of a hydraulic distribution unit of a neighboring desalination reverse module osmosis, and three main channels located inside the housing: for supplying low-pressure salt water, low-pressure brine removal and drainage of desalinated water; high pressure salt water supply channels from the hydraulic unit to the membrane unit and high-pressure brine from the membrane unit to the hydraulic unit; a low pressure salt water supply channel to the filter unit from the corresponding main channel and a low pressure brine removal channel from the hydraulic drive unit; and a channel for discharging desalinated water from the membrane element unit to the corresponding main channel, and the filter unit is made in a housing mounted on the housing of the hydraulic drive unit or on the housing of the hydraulic distribution unit, and low-pressure saline water channels are connected to the filter and exhaust from it inside the housing, docked with the corresponding channel of the hydraulic block through a quick coupler, and the corresponding channel of the hydraulic block.

The filter unit can be made in the form of a replaceable module.

The filter unit can be self-cleaning and additionally equipped with a channel for removal of particles delayed by the filter connected to the channel for removal of brine. In this case, the brine outlet channel can be located in the hydraulic drive unit or in the hydraulic wiring unit. Alternatively, the filter unit may be further provided with a low-pressure brine discharge channel connected to respective channels of the hydraulic drive and hydraulic wiring units.

The channels of the hydraulic wiring unit and the channels of the blocks of the membrane element and the hydraulic actuator in the places of their connection can be equipped with hydraulic quick disconnect connections with a locking element.

The indicated technical results are achieved in the desalination reverse osmosis module, which consists of three sequentially connected blocks: a hydraulic drive unit with a filter for low-pressure salt water entering the hydraulic drive unit, the hydraulic control unit, and the membrane element block, while the hydraulic control unit is made with a housing providing for coupling with the casing of the hydraulic wiring block of the neighboring desalination reverse osmosis module, and the three main channels located inside the casing: for supplying saline water to odes of low pressure, drainage of brine under low pressure and drainage of desalinated water; supply channels to the block of the salt water membrane element under high pressure from the hydraulic drive unit and to the high pressure brine hydraulic drive unit from the membrane element block; channels connecting the hydraulic unit to the main channels in the hydraulic unit: supply of low-salt water and low-pressure brine; and a channel for the removal of desalinated water from the block of the membrane element into the corresponding main channel.

The low-pressure salt water filter of the hydraulic drive unit can be made in the form of a replaceable module with a housing installed on the housing of the remaining part of the hydraulic drive unit and channels for supplying and filtering low-pressure salt water from the filter to the filter and connected to the corresponding channel of the hydraulic connection unit through the housing quick disconnect connection with a locking element, and the corresponding channel of the rest of the hydraulic unit.

The low-pressure salt water filter of the hydraulic drive unit can be self-cleaning, and is additionally equipped with a channel for the removal of particles delayed by the filter, connected to the channel for the removal of low-pressure brine from the hydraulic drive.

The channels of the hydraulic wiring unit in the places of their connection with the hydraulic drive units and the membrane element can be equipped with hydraulic quick disconnect connections with a locking element.

The indicated technical results are achieved in a desalination reverse osmosis module, consisting of three sequentially connected blocks: a hydraulic drive unit, a hydraulic control unit with a low-pressure salt water filter entering the hydraulic drive unit, and a membrane element block, while the hydraulic control unit is made with a housing providing for matching with the casing of the hydraulic wiring block of the neighboring desalination reverse osmosis module, and three main channels located inside the casing: for supplying saline ode low pressure brine discharge under low pressure and discharging desalinated water; supply channels to the block of the salt water membrane element under high pressure from the hydraulic drive unit and to the high pressure brine hydraulic drive unit from the membrane element block; the channels connecting the hydraulic drive unit to the main channels in the hydraulic wiring unit: supply of low-pressure salt water, including a filter for low-pressure salt water, and discharge of the low-pressure brine; and a channel for the removal of desalinated water from the block of the membrane element into the corresponding main channel.

The low-pressure salt water filter of the hydraulic wiring unit can be made in the form of a replaceable module with a housing installed on the housing of the remaining part of the hydraulic wiring unit, and channels for supplying and removing low-pressure salt water from the filter located inside the housing and connected to the corresponding channel of the hydraulic drive unit through quick connection with a locking element, and the corresponding channel of the rest of the hydraulic wiring unit.

The low-pressure salt water filter of the hydraulic wiring unit can be self-cleaning, and is additionally equipped with a channel for the removal of particles delayed by the filter connected to the low-pressure brine exhaust pipe.

The channels of the hydraulic wiring unit in the places of their connection with the hydraulic drive units and the membrane element can be equipped with hydraulic quick disconnect connections with a locking element.

In all variants of the utility model, the hydraulic drive unit may include an electric motor, a booster pump and a recuperator combined with an axial plunger high pressure pump.

Also, in all variants of the utility model, a power supply unit and an electronic control unit can be installed on the hydraulic wiring unit. This ensures the complete autonomy of the desalination module reverse osmosis.

Brief Description of the Drawings

Figure 1 presents a schematic diagram of the proposed autonomous desalination module reverse osmosis in accordance with the first embodiment of the utility model.

Figure 2 presents a schematic diagram of the proposed autonomous desalination module reverse osmosis in accordance with the second variant of the utility model.

Figure 3 presents a schematic diagram of the proposed autonomous desalination module reverse osmosis in accordance with the third variant of the utility model.

Figure 4 presents a schematic diagram of the proposed autonomous desalination module reverse osmosis in accordance with the fourth embodiment of the utility model.

Figure 5 presents a General view of the desalination plant reverse osmosis using several stand-alone desalination modules.

Utility Model Implementation

The reverse osmosis desalination plant module, as shown in FIG. 1, includes a hydraulic wiring unit 1 to which an automatic self-cleaning fine filter unit 2 and a hydraulic drive unit 3 are connected on one side, and a reverse osmosis membrane element unit 4 is attached on the opposite side.

The hydraulic block 1 is made with three main channels, connected in series in the reverse osmosis unit with the main channels of the hydraulic block of the neighboring stand-alone desalination reverse osmosis module: channel 5 for supplying salt water under a pressure of 3-5 atm, channel 6 of brine outlet under a pressure of 3-5 atm ( into the drain) and channel 7 for the removal of desalinated water. In addition, it contains a separate channel 8 for supplying salt water under a pressure of 59-60 atm from the hydraulic drive unit 3 through a block of automatic self-cleaning fine filter 2 to the block of the reverse osmosis membrane element 4; channel 9 for supplying brine under a pressure of 58-59 atm from the reverse osmosis membrane element block 4 to the hydraulic drive unit 3 through the automatic self-cleaning fine filter 2; as well as the channels connecting the hydraulic drive unit 3 with the main channels in the hydraulic unit 1 through the automatic self-cleaning fine filter 2.

The hydraulic wiring unit 1 is designed to connect the corresponding channels between the units of the autonomous desalination reverse osmosis module and between adjacent modules in the reverse osmosis desalination plant, and it also carries out the supporting function when connecting the module units and when connecting the independent desalination reverse osmosis desalination units in the reverse osmosis desalination plant.

The hydraulic drive unit 3 consists of an electric motor and an axial-plunger high-pressure pump, a recuperator, a booster pump, made structurally in one unit. The hydraulic drive unit 3 is designed to: create high salt water pressure necessary for the reverse osmosis process, reuse the brine energy removed from the reverse osmosis membrane element block 4.

Block automatic self-cleaning fine filter 2 consists of a housing in which the filter element 10 with a self-cleaning mechanism. The channels are located in the body of this block: the supply of salt water under a pressure of 3-5 atm from the hydraulic wiring unit 1 to the filtering element section, and then, after the filtration process, to the hydraulic drive unit 3; supply of brine under a pressure of 58-59 atm from the hydraulic wiring unit 1 to the hydraulic drive unit 3; tap brine under a pressure of 3-5 atm from the hydraulic drive unit 3 to the hydraulic control unit 1; as well as a channel for supplying salt water at a pressure of 59-60 atm from the hydraulic drive unit 3 to the hydraulic wiring unit 1 and a channel 11 for removing particles suspended on the filtering element 10, connecting the self-cleaning section of the filtering element 10 with a channel for removing brine under a pressure of 3-5 atm from the block hydraulic actuator 3 to the hydraulic control unit 1, to remove particles trapped on the filter element 10 into the brine outlet channel under a pressure of 3-5 atm (into the drain), and then discharged from the module.

The automatic self-cleaning fine filter unit 2 is designed to filter the salt water supplied to the hydraulic drive unit 3, and then to the membrane unit of the reverse osmosis 4, from external sources.

The block of the reverse osmosis membrane element 4 consists of a housing for accommodating the reverse osmosis membrane element 12 and a separate channel 8 for supplying salt water under a pressure of 59-60 atm to the reverse osmosis membrane element 12.

The block of the reverse osmosis membrane element 4 is intended for the implementation of the reverse osmosis process of desalination of sea water.

All channels of the hydraulic wiring block 1, the reverse osmosis membrane element block 4, the automatic fine-cleaning fine filter block 2, the hydraulic actuator block 3 at the points of their connection to each other have hydraulic quick disconnect connections with a locking element 13.

Hydraulic quick disconnect connections with a locking element 13 are designed to shut off fluid flows in the channels when the hydraulic drive unit 3 and the automatic fine filter block 2 are separated from the hydraulic wiring unit 1 and to remove the reverse osmosis membrane element 12 from the reverse osmosis membrane element block 4 during maintenance and repair. It should be specially noted that these operations can be carried out when the reverse osmosis desalination plant, consisting of several desalination modules, is in operation, which means that the process of desalination of sea water does not stop.

The reverse osmosis desalination plant module, as shown in FIG. 2, also includes a hydraulic wiring unit 1, to which an automatic self-cleaning fine filter unit 2 and a hydraulic actuator unit 3 are attached on one side, and a reverse osmosis membrane element unit 4 is attached on the opposite side. The difference between the second version of the utility model in the implementation of the block automatic self-cleaning fine filter 2 without transit channels, respectively, it is installed on the hydraulic block 1, with which van salt water channel for supplying pressure of 3-5 atm and a particle discharge duct 11 detained on the filter element 10. In this case unit 2 is docked salt water channel for supplying pressure of 3-5 atm and 1 unit gidrorazvodki.

In Fig. 3, the reverse osmosis desalination module includes three blocks: a hydraulic block 1, a hydraulic actuator 3, and a reverse osmosis membrane element block. At the same time, the self-cleaning fine filter block 2 is part of the hydraulic drive unit 3.

In Fig. 4, the reverse osmosis desalination plant module also includes three blocks: a hydraulic block 1, a hydraulic actuator block 3, and a reverse osmosis membrane element block, but the self-cleaning fine filter block 2 is included in the hydraulic block 1.

Desalination plant, as shown in figure 5, includes several stand-alone desalination reverse osmosis modules of one of the embodiments described above. The modules are installed in parallel, which ensures the compactness of the installation as a whole, simplifies the operation of the installation, and increases its maintainability. In addition, it is planned to jointly install several “stacks” of parallel modules, while the modules of adjacent “stacks” are connected thanks to the dovetail grooves made on the side surfaces of the body of the hydraulic wiring block of each module. At the last module (the upper module, as shown in Fig. 5) or, if the module is used independently, the lines passing in the hydraulic wiring block of this module are closed with plugs.

An individual power supply and electronic control system is provided for any of the desalination module versions described above and consists of an electric motor control controller and a power supply unit with electrical connectors. It is intended for connecting neighboring autonomous desalination reverse osmosis modules in a reverse osmosis desalination plant and supplying electric power to them, and directly for supplying electric power to the electric motor of hydraulic drive unit 3 via the electric motor control controller via the power bus and supplying control signals and receiving controlled data via the digital bus. The individual power supply and electronic control system has moisture-proof electrical connectors for connecting the motor and the motor control controller to the power supply. Electrical connectors allow you to disconnect the motor from the mains when removing the hydraulic actuator 3 for repair or maintenance. Individual power supply and electronic control of the desalination module allows controlling the reverse osmosis desalination plant, consisting of several autonomous desalination reverse osmosis modules, using remote access to the module or installation, for example, via the Internet.

Claims (15)

1. Desalination reverse osmosis module, characterized in that it consists of four sequentially connected blocks: hydraulic drive block, filter block, hydraulic block and membrane element block, while the hydraulic block is made with a casing and three main channels located inside the casing: for supplying salt water low pressure, drainage of brine under low pressure and drainage of desalinated water; a channel for supplying a high-pressure salt water membrane element block in transit through the filter block from the hydraulic drive block; a channel for diverting from the block of the membrane element of the high-pressure brine in transit through the filter block to the hydraulic drive unit; a supply channel to the low-salt water filter unit from the main channel, filtered in the filter unit before being fed to the hydraulic unit; the low-pressure brine removal channel from the hydraulic drive unit and the filtered particles from the filter unit to the main channel, and the desalinated water removal channel from the membrane element block to the main channel. 2. Desalination module according to claim 1, characterized in that the filter unit is self-cleaning and is additionally equipped with a channel for removal of particles delayed by the filter connected to the channel for removal of low-pressure brine. 3. Desalination module according to claim 1, characterized in that the channels of the hydraulic wiring unit and the channels of the filter units and the membrane element at the points of their connection are equipped with hydraulic quick disconnect connections with a locking element. 4. Desalination reverse osmosis module, characterized in that it consists of four blocks: a filter block and a sequentially connected hydraulic actuator block, a hydraulic block and a membrane element block, while the hydraulic block is made with a housing providing for matching with the body of a hydraulic block of a neighboring desalination reverse osmosis module , and three main channels located inside the housing: for supplying low-pressure salt water, low-pressure brine outlet and desalinated water; high pressure salt water supply channels from the hydraulic unit to the membrane unit and high-pressure brine from the membrane unit to the hydraulic unit; a low-pressure salt water supply channel to the filter unit and a low-pressure brine discharge channel from the hydraulic drive unit; and a channel for draining desalinated water from the membrane element block to the corresponding main channel, and the filter block is made in a housing mounted on a hydraulic drive unit or on a hydraulic wiring block located within the housing of the low-pressure salt water supply and drain channels connected to the corresponding channel the hydraulic control unit through a quick disconnect connection and the corresponding channel of the hydraulic drive unit. 5. Desalination module according to claim 4, characterized in that the filter unit is made in the form of a replaceable module. 6. Desalination module according to claim 4, characterized in that the filter unit is self-cleaning and is additionally equipped with a channel for removing particles detained by the filter connected to the channel for removing the low-pressure brine. 7. Desalination module according to claim 4, characterized in that the channels of the hydraulic wiring unit and the channels of the blocks of the membrane element and the hydraulic actuator at the points of their connection are equipped with hydraulic quick disconnect connections with a locking element. 8. Desalination reverse osmosis module, characterized in that it consists of three sequentially connected blocks: a hydraulic actuator block with a low-salt water filter, a hydraulic wiring block and a membrane element block, while the hydraulic wiring block is made with a housing providing for docking with the housing of the adjacent hydraulic wiring block desalination module of reverse osmosis, and three main channels located inside the housing: for supplying low-salt water, low-pressure brine removal and twater desalinated water; supply channels to the block of the salt water membrane element under high pressure from the hydraulic drive unit and to the hydraulic drive unit of the high pressure brine from the membrane element block; the channels connecting the hydraulic drive unit with the main channels in the hydraulic wiring unit: supply of low-salt water and low-pressure brine; and a channel for the removal of desalinated water from the block of the membrane element into the corresponding main channel. 9. Desalination module according to claim 8, characterized in that the low-pressure salt water filter of the hydraulic drive unit is made in the form of a replaceable module with a housing mounted on the housing of the remaining part of the hydraulic drive unit and channels for supplying and filtering salt from the filter inside the housing low-pressure water docked to the corresponding channel of the hydraulic wiring unit through a quick disconnect connection with a locking element and the corresponding channel of the rest of the hydraulic unit. 10. Desalination module according to claim 9, characterized in that the low-pressure salt water filter of the hydraulic drive unit is self-cleaning and is further provided with a channel for removing particles held up by the filter connected to the channel for removal from the low-pressure brine hydraulic drive. 11. Desalination module according to claim 10, characterized in that the channels of the hydraulic wiring unit at the points of their connection with the hydraulic drive units and the membrane element are equipped with hydraulic quick disconnect connections with a locking element. 12. Desalination reverse osmosis module, characterized in that it consists of three sequentially connected blocks: a hydraulic drive unit, a hydraulic distribution unit with a low-salt water filter and a membrane element unit, while the hydraulic installation unit is made with a housing providing for docking with the housing of the adjacent hydraulic installation unit desalination module of reverse osmosis, and three main channels located inside the housing: for supplying low-pressure salt water, low-pressure brine removal and drainage of desalinated water; supply channels to the block of the salt water membrane element under high pressure from the hydraulic drive unit and to the hydraulic drive unit of the high pressure brine from the membrane element block; the channels connecting the hydraulic drive unit to the main channels in the hydraulic wiring unit: supply of low-pressure salt water, including a filter for low-pressure salt water and discharge of a low-pressure brine; and a channel for the removal of desalinated water from the block of the membrane element into the corresponding main channel. 13. Desalination module according to claim 12, characterized in that the low-pressure salt water filter of the hydraulic wiring unit is made in the form of a replaceable module with a housing installed on the housing of the remaining part of the hydraulic wiring unit and channels for supplying and filtering salt from the filter inside the housing low-pressure water docked to the corresponding channel of the hydraulic unit through a quick disconnect connection with the locking element and the corresponding channel of the rest of the hydraulic unit. 14. The desalination module according to claim 13, wherein the low-pressure salt water filter of the hydraulic wiring unit is self-cleaning and is further provided with a channel for removing particles held up by the filter connected to the low-pressure brine exhaust pipe. 15. Desalination module according to claim 12, characterized in that the channels of the hydraulic wiring unit at the points of their connection with the hydraulic drive units and the membrane element are equipped with hydraulic quick disconnect connections with a locking element.