KR101709537B1 - Water treatment apparatus for sea water/freshwater - Google Patents

Abstract

The present invention relates to a water treatment apparatus for seawater and freshwater, and to a water treatment apparatus for seawater and freshwater, capable of filtering solidified foreign materials including microorganisms in a water treatment process of the seawater and the freshwater, and particularly suitable for water treatment of ballast water requiring massive water treatment per hour. According to the present invention, the apparatus comprises: a filtering means having a reception space; a filtering flow rate regulation means installed in the filtering means and regulating a flow rate of supplied processing water; a processing water supply member having a processing water inlet to supply the processing water to the filtering means; a back washing water discharge means including the processing water inlet of the processing water inlet member to be able to open/close and discharging back washing water supplied to the filtering means; and an operation means vertically operating the back washing water discharge means to control filtering and back washing operation of the filtering means.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water treatment apparatus for seawater and fresh water,

The present invention relates to a water treatment apparatus for seawater and fresh water, and more particularly to a water treatment apparatus for seawater and fresh water which can filter solidified foreign matter including microorganisms during a water treatment process of seawater and fresh water, The present invention relates to a water treatment apparatus suitable for seawater and fresh water.

With the development of shipbuilding technology, vessels are handling more than 90% of international trade volume by increasing ship size and speed. The increasing use of ship equilibrium water, which is used for safe voyage of ship, has been expanding the size of ship and increasing the number of ship.

Therefore, disturbance and destruction of marine ecosystem by ship equilibrium is becoming a serious problem in the world, and various environmental damages and economic damage caused by it are causing more than $ 50 million annually in damage in the United States, More than $ 1 billion in damage is occurring.

In order to solve these problems and to protect marine environment and ecosystem, International Maritime Organization (IMO) has defined vessel equilibrium as one of the four serious threats to the global marine environment, and the ecological / economic damage To prevent threats to human health, the "Convention on the Control and Management of Emissions from Ship Ballast and Sediments" was adopted in 2004 and requires the treatment of ship ballast water.

In accordance with these requirements, in order to treat ship equilibrium water according to international regulations, active research on ship equilibrium water treatment system is being carried out all over the world, and technologies of 53 companies have been developed all over the world. It has been approved by each government and has been competing in the rapidly growing ballast water treatment system (BWTS) market (as of 2013). According to the IMO Marine Environment Protection Committee's (MEPC) 61rd data standard, it is expected that marine equilibrium water treatment system should be applied to 38,970 vessels, and newbuilding vessels to 3,430 vessels in 2012, with a total of 40 trillion won .

Currently, most of the technology development trends for ballast water treatment technologies are filtration using filters, sterilization methods using ultraviolet rays, ozone, chlorine, etc. In addition, sterilization methods using suffocation and impact have been developed have. In the case of the ship ballast water treatment system, active research is now being carried out in the world.

On the other hand, a desalination apparatus for producing seawater as fresh water is provided with a filtration apparatus for filtering particulate matter (eg, waste contained in seawater, living organisms such as fish, shellfish, seaweed, etc.) contained in seawater in addition to a facility for removing salt . This is because if the foreign matter contained in the seawater adheres or dwells inside the facility, the seawater passage may be clogged.

Particularly, the seawater desalination apparatus according to the prior art includes a filter fixing plate for a filtration apparatus. Due to the nature of the desalination apparatus, the seawater is high in salinity and is filtered with a large water pressure so that the filter fixing plate applied to the desalination apparatus is not corroded by seawater And shall not be deformed by water pressure. Therefore, the filter fixing plate is made of SUS, duplex, or the like, which is excellent in corrosion prevention, and can not withstand a high water pressure with a normal steel plate thickness, so that it is formed thick. However, due to the nature of SUS and duplex materials, they may not be corroded by seawater, but they are expensive and very thick in thickness because they are expensive. SUS is a material other than duplex, and corrosion resistance Strong nickel can be plated, but it is unrealistic to make the filter fixing plate quickly corroded as the steel plate is exposed to the seawater so that the nickel plating layer is easily peeled off, and that the steel plate is made to have a thickness for adjusting the strength even if it is steel.

Conventionally, facilities for water treatment of seawater and fresh water are mostly combined with filtration using filters and sterilization methods using ultraviolet rays, ozone, chlorine, etc., and sterilization methods using suffocation and impact have been developed . Especially, analysis of the technologies of the 53 companies that have been developed by the main sterilization technology after filtration due to the pretreatment of seawater ballast water utilization, accounted for the largest proportion with 25 (47.2%) using electrolysis method . Next, there are 14 (26.4%) ultraviolet (UV) systems, 5 (9.4%) ozone systems and 9 chemical systems (17%). Therefore, it is time to complete the development of disinfection technology for marine life in marine equilibrium water treatment system with customized technology for each company. Filtration is one of the most representative physical treatment technologies and it is the most environmentally friendly with low power consumption. However, there are clogging issues due to the environment of raw water containing many suspended substances, Methods and techniques for cleaning techniques are needed.

The ship ballast water treatment technology that is currently being developed is USCG Phase II, a type approval standard for ship ballast water treatment facilities in the United States, which is 1,000 times stronger than the IMO D-2 standard under various water environmental conditions, There is a problem that can not be satisfied. In addition, due to the limitations and problems of the ship ballast water treatment technology, it is difficult to construct a stable facility such as a land treatment facility due to the nature of the internal structure of the vessel, which has a problem in that the installation area is large and uneconomical.

In addition, conventional seawater and fresh water water treatment apparatuses employ a metal sieve type filtration apparatus, and even in the case of automatic backwashing, filtration performance is improved due to clogging issue due to solidified foreign matter (including microorganisms) And has a problem in continuous operation due to deterioration.

Therefore, it is essential to develop optimization considering diversity of biological and solid materials and ship's operating conditions for various water environments. Considering the removal efficiency, economical efficiency, operational stability, simplicity and installation area by combining unit technology rather than single technology It is necessary to develop optimized products.

(Document 1) Korean Patent Registration No. 10-1149523 (May 17, 2012) (Document 2) Korean Patent Laid-Open Publication No. 10-2013-0055171 (May 31, 2013)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above problems, and it is therefore an object of the present invention to provide a water treatment apparatus and a water treatment method for seawater and fresh water which are suitable for water treatment of ship ballast water requiring a large- .

Specifically, the present invention meets international ship equilibrium water treatment standards and enables environmentally friendly treatment with automatic backwash function for stable removal of particulate matter and phytoplankton in seawater for improving the water treatment performance of seawater and fresh water , And to provide a water treatment device for seawater and fresh water that can solve the problem of deterioration due to long-term operation of water treatment by maximizing backwashing efficiency by eliminating the problem of clogging by expanding pores in the filtration part during backwashing have.

According to the seawater and fresh water water treatment apparatus of the present invention, in the seawater and fresh water water treatment apparatus, the filtration means having the accommodation space; A filtration flow rate equalizing means provided in the filtration means for equalizing the flow rate of the incoming process water; A process water inflow member provided with a process water inlet to provide the process water with the filtration means; Water withdrawing means provided in the process water inflow member so as to be capable of opening and closing the process water inlet and discharging the backwash water flowing into the filtration means; And drive means configured to drive the backwash water discharge means up and down to control filtration and backwashing operation of the filtration means.

In the present invention, the filtration means may include: a laminated disc member having a plurality of discs stacked, A pressing plate provided on an upper surface of the laminated disk member; An elastic member for applying a pressing force to the compression plate to press the laminated disk member; And a fixing plate fixed to the lower surface of the laminated disc member so as to communicate with the treated water inflow member.

In the present invention, it is preferable that the laminated disk member is composed of a plurality of disks, and the edge of the disk has a sawtooth pattern.

In the present invention, it is preferable that the laminated disc member is formed of a plurality of discs and is formed to have an arc-shaped cross section when viewed from the front surface before being pressed by the compression plate.

In the present invention, it is preferable that the filtration flow rate equalizing means includes a shaft, and a vortex flow forming member formed on an outer surface of the shaft to form a flow of the fluid into a vortex flow.

In the present invention, the shaft is formed in a shape of a truncated cone, a cone, or a cylinder, and is integrally formed with a drive shaft of a drive shaft of the drive means, and a recessed groove is formed on an upper side, And the vortex flow forming member is formed in the form of a spiral screw, and the vortex flow forming member is formed to have a width decreasing from one side to the other side.

In the present invention, the shaft is formed in a shape of a truncated cone, a cone, or a cylinder, and is integrally formed with a drive shaft of a drive shaft of the drive means, and a recessed groove is formed on an upper side, And the vortex flow forming member is formed as a protruding piece formed on the outer surface of the shaft at intervals in the up and down and circumferential directions, wherein the protruding piece is formed such that the free end thereof is inclined upward, The inflow member is preferably formed of a cylindrical member in the form of a mesh.

According to the present invention, the backwash water discharging means includes an external opening / closing valve having a mesh-shaped cylindrical member slidably movable, and a reverse water discharge port formed on a lower surface thereof; An internal opening / closing valve movably provided on the external opening / closing valve and opening / closing the counterflow water outlet; And an elastic member elastically supporting the internal opening / closing valve in the external opening / closing valve.

The driving means may include a driving shaft having one end connected to the internal opening / closing valve, an intermediate portion passing through the external opening / closing valve, the filtering flow rate equalizing means and the compression plate, and the other end exposed to the outside of the filtering means. An actuator provided at the other end of the drive shaft to drive the drive shaft; And a lift member provided on a drive shaft at a lower side of the compression plate to lift up the compression plate when the drive shaft is driven up.

The water treatment apparatus for seawater and fresh water of the present invention has the following effects.

First, the present invention has an effect that a solidified foreign matter (including microorganisms) is pretreated by filtration in a water treatment process of seawater and fresh water, and can be applied in large capacity and general use.

Second, the present invention has an effect of stably solving the clogging occurring in the filtration layer during filtration by various kinds of biological species and suspended matters in seawater through automatic backwashing.

Third, the present invention is effective in the ballast water treatment process requiring a large amount of clogging and a large amount of water treatment per hour because the filtration flow rate according to the height can be controlled and maintained in order to secure the filter performance at the time of filtration.

1 is a sectional view schematically showing the configuration of a water treatment apparatus for seawater and fresh water according to the present invention;
2 is a plan view showing a laminated disc member constituting filtration means included in a water treatment apparatus for seawater and fresh water according to the present invention;
Fig. 3 is a front view showing the laminated disc member of Fig. 2 (A) showing a state before press bonding (filtration action); Fig. 3 (B) is a front view showing a pressed state (backwash state);
FIG. 4 is a view showing an embodiment of a filtration flow rate equalizing means constituting a water treatment apparatus for seawater and fresh water according to the present invention; FIG.
5 is a diagram showing another embodiment of filtration flow rate equalizing means constituting a water treatment apparatus for seawater and fresh water according to the present invention;
6 is a cross-sectional view showing a configuration of a reverse water discharge means constituting a water treatment apparatus for seawater and fresh water according to the present invention;
7 is a plan view showing a configuration of a reverse water discharge means constituting a water treatment apparatus for seawater and fresh water according to the present invention; And
FIGS. 8 to 10 illustrate operations of a water treatment apparatus for seawater and fresh water according to the present invention, wherein FIG. 8 is a filtration operation state, FIG. 9 is an initial backwash state, and FIG. 10 is an operation diagram showing a backwash state.

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate preferred embodiments of the present invention.

The water treatment apparatus for seawater and fresh water according to the present invention is generalized to the water treatment process of large capacity seawater and fresh water by pretreatment technique in the equipments for ballast water, wastewater, It can be applied immediately and can play an important role in development of disc filter technology for seawater and fresh water treatment and can be applied as an anti-fouling technology of marine growth preventing system (MGPS) for seawater desalination and marine . The water treatment device of seawater and fresh water of the present invention is a water treatment device for minimizing the load on the sterilizing device which is the core part of the ship water treatment device and maintaining the stable performance and eliminating the clogging phenomenon caused by floating substances and phytoplankton, , It is possible to secure the optimum performance that satisfies USCG Phase Ⅱ and stability for long-term operation. Also, by replacing the pre-treatment equipment of conventional products with this device, Thereby improving the usability of existing facilities.

The water treatment apparatus for seawater and fresh water according to the present invention will be described with reference to the accompanying drawings. 1 is a cross-sectional view schematically showing a configuration of a water treatment apparatus for seawater and fresh water according to the present invention.

As shown in FIG. 1, the water treatment apparatus for seawater and fresh water according to the present invention comprises filtration means 100 for filtering treated water (raw water), having a large receiving space and being able to circulate the treated water; A filtration flow rate equalizing means (200) provided in a receiving space of the filtration means (100) for equalizing the flow rate of the introduced process water (raw water); A process water inflow member (300) provided with a process water inlet (310) through which the process water is introduced to supply the process water to the filtration means (100); A reverse water discharge means 400 provided in the inlet port 310 of the process water inlet member 300 to discharge the backwash water flowing into the filtration means 100; And driving means for controlling the filtration and backwashing action of the filtration means 100 by slidably driving the backwash water discharge means 400 up and down.

The filtration means 100 will be described in detail with reference to FIGS. 2 and 3. FIG. FIG. 2 is a plan view showing a laminated disc member constituting filtration means included in a seawater and fresh water water treatment apparatus according to the present invention, FIG. 3 is a sectional view of the laminated disc member of FIG. 2, (B) is a front view showing a compressed state (a state at the time of back washing); Fig.

The filtration means 100 includes a laminated disc member 110 in which a plurality of discs are laminated, the laminated disc member 110 is capable of flowing process water and is maintained in a laminated state by a laminated state holding member (not shown) An elastic member 130 for applying a pressing force to the pressing plate to press the laminated disk member 110 and a pressing member 120 provided on a lower surface of the laminated disk member 110, And a fixing plate 140 fixed to communicate with the water inlet member 300. Reference numeral 141 denotes a communication hole formed in the fixed plate 140 and communicating with the process water inflow member 300.

Each disk constituting the laminated disk member 110 has a tooth-like pattern at its edges as shown in Fig. The laminated disk member 110 having the sawtooth pattern can suppress the clogging due to the floating material during filtration and maximize the backwashing efficiency.

3, each of the disks constituting the laminated disk member 110 is in a state before being compressed (a backwash of the filtration means 100) as shown in FIG. 3 (A) (Or a crescent shape) when viewed from the front, and has a predetermined height h. Then, in a state for filtration of the filtration means 100, it is compressed in a plate shape as shown in FIG. 3 (B).

As described above, the disk of the laminated disk member 110 has a tooth-like pattern at its edges and is formed in an arc shape (crescent shape) before being compressed, thereby preventing clogging due to floating substances at the time of filtration, It is possible to maximize the backwashing efficiency by inducing a quick synergy effect in washing.

Next, the filtration flow velocity equalizing means 200 will be described in detail with reference to Figs. 4 and 5. Fig. FIG. 4 is a configuration diagram showing one embodiment of the filtration flow rate equalizing means constituting the water treatment apparatus for seawater and fresh water according to the present invention, FIG. 5 is a view for showing the filtration flow rate uniformizing means constituting the water treatment apparatus for seawater and fresh water, Fig. 8 is a configuration diagram showing another embodiment of the means.

The filtration flow rate equalizing means 200 includes a shaft 210 and a vortex flow forming member 220 formed on the outer surface of the shaft 220 and forming a vortex flow in the treated water (raw water) .

The shaft 210 of the filtration flow velocity equalizing means 200 may be formed in various shapes including a conical shape, a conical shape, or a cylindrical shape, and may be formed as a part of a drive shaft of a drive means described later or formed integrally with a drive shaft .

Here, the shaft 210 is formed with a depression groove 211 in which the upper side is recessed inwardly, and the depression groove 211 is formed with a communication hole 212 communicating with the outside (the inside of the lamination disk member) . When the shaft 210 is configured as described above, a backwash flow is formed in the shaft 210 for backwashing the filtration means 100 as shown in FIG. 9 to be described later.

The vortex flow forming member 220 of the filtration flow rate equalizing means 200 may be formed in the form of a spiral screw as shown in FIG. At this time, the spiral flow forming member 220 in the form of a spiral screw is formed to have a reduced width from one side to the other (that is, from the upper side to the lower side).

5, the vortex flow forming member 220 of the filtration flow velocity equalizing means 200 is formed as a protruding piece 220 formed on the outer surface of the shaft 210 at intervals in the vertical and peripheral directions do. At this time, it is preferable that the protruding piece 220 is formed to be inclined upward from the proximal end toward the distal end.

Next, the process water inflow member 300 is formed of a mesh-shaped cylindrical member having a process water inlet port 310, and is fixed to the filtration means 100 as described above. Here, the treated water inflow member 300 is located on the raw water inflow passage side where the raw water flows as shown in FIG.

Next, the reverse water discharge means 400 will be described with reference to Figs. 6 and 7. Fig. FIG. 6 is a cross-sectional view showing the configuration of the reverse water discharge means constituting the water treatment apparatus for seawater and fresh water according to the present invention, and FIG. 7 is a view showing the configuration of the reverse water discharge means constituting the water treatment apparatus for seawater and fresh water according to the present invention Fig.

An external open / close valve 410 having a reverse water discharge outlet 411 formed on the bottom surface of the backwash water discharging means 400 so as to be slidable in the mesh-shaped cylindrical member to open and close the reverse water wash water; An internal opening / closing valve 420 which is movably provided in the external opening / closing valve 410 and opens / closes the reverse water discharge opening 411 of the external opening / closing valve; And an elastic member 430 elastically supporting the internal opening / closing valve 420 in the external opening / closing valve.

The outer opening / closing valve 410 and the inner opening / closing valve 420 are preferably formed in a cylindrical shape, and a cross section of the inner opening / closing valve 420 is formed in a cross-sectional shape of the reverse water discharge opening 411 of the outer opening / closing valve 410 And is formed in a corresponding form.

Here, the backwater discharge means 400 is located on the backwater discharge passage side where the backwash water is discharged as shown in FIG.

Next, the driving means will be described again with reference to Figs. 1 to 6. Fig.

One end of the driving means is connected to the inner opening / closing valve 420 of the backwash water discharging means 400 and the middle portion passes through the outer opening / closing valve 410, the filtration flow rate equalizing means 200 and the compression plate 120 An actuator 520 provided at the other end of the driving shaft 510 to drive the driving shaft 510 and a driving shaft 510 provided at the other end of the driving shaft 510, And a lift member 530 provided on the lower driving shaft 510 of the driving shaft 510 to lift the pressing plate 120 to lift the pressing force of the laminated disk member.

The operation of the water treatment apparatus for seawater and fresh water according to the present invention will be described with reference to FIGS. 8 to 10. FIG. FIGS. 8 to 10 illustrate operations of a water treatment apparatus for seawater and fresh water according to the present invention, wherein FIG. 8 is a filtration operation state, FIG. 9 is an initial backwash state, and FIG. 10 is an operation diagram showing a backwash state.

8, the internal opening / closing valve 420 of the driving means closes the reverse water discharge outlet 411 of the external opening / closing valve 410, and the external opening / closing valve 410 closes the reverse water discharge opening 411 of the processing water inflow member 300, The raw wastewater flowing into the raw wastewater flowing into the raw wastewater flowing into the raw wastewater flows into the filtration means 100 as shown by arrow a, And is discharged to the outside of the laminated disk member as shown by an arrow (b).

At this time, the treated water (raw water) flowing into and discharged from the filtration means 100 is guided to the vortex flow by the vortex formation flow member 220 of the filtration flow velocity equalization means 200 to have a uniform filtration flow velocity distribution.

9, when the driving shaft 510 is driven to be driven upward by the operation of the actuator 520, the internal on-off valve 420 is operated to return the external water of the external on- The discharge port 411 is opened and at the same time the external open / close valve 410 is also moved upward to close the process water inlet 310 of the process water inflow member 300.

In addition, the lifting member 530 provided on the driving shaft 410 lifts the pressing plate 120 according to the upward movement of the driving shaft 510. At this time, the laminated disk member 110 released from the compressed state by the compression plate 120 is switched from the state of (B) to the state of (A) as shown in Fig. 3, And the whole disk is in the state of (B), and finally the state is as shown in Fig.

The washing water outside the filtration means for washing the filtration means 100 flows into the laminated disk member 110 and the shaft 210 as shown by the arrow c and the washing water flowing into the filtration means 100 is opened The treated water discharged and backwashed as shown by the arrow d through the reverse water discharge outlet 411 of the external opening / closing valve 410 is discharged to the outside through the reverse water discharge passage.

Here, the treated water (raw water) flowing into the filtration means 100 is guided to the vortex flow by the vortex formation flow member 220 of the filtration flow velocity equalization means 200, so that the uniform filtration flow velocity distribution .

When the backwashing operation of the filtration means is completed, the operation returns to the initial state (filtering operation state: Fig. 8), and the backwash operation is performed periodically or at the operator's choice.

The above-described water treatment apparatus for seawater and fresh water according to the present invention can be widely used for water treatment of large-capacity seawater and fresh water by pretreatment techniques for ballast water, wastewater, It can be applied immediately on site and can play an important role in the development of disc filter technology for seawater and fresh water treatment. It can be applied with anti-fouling technology of marine growth preventing system (MGPS) for marine desalination and marine use. can do.

The water treatment apparatus for seawater and fresh water according to the present invention is a water treatment apparatus for minimizing the load on the sterilizing apparatus, which is a core part of the ship water treatment apparatus, and maintaining stable performance, and is capable of preventing clogging by floating substances and phytoplankton It is possible to secure the optimum performance that satisfies USCG Phase Ⅱ and stability for long-term operation by constructing a compact device that can be applied to a large-capacity general purpose by replacing the pre-treatment equipment of a conventional product, Thereby improving the performance and improving the usability of existing facilities.

As described above, the water treatment apparatus for seawater and fresh water according to the present invention has been described with reference to the drawings. However, the present invention is not limited to the embodiments and drawings described above, It will be understood by those skilled in the art that various changes and modifications may be made.

100: filtration means
110: laminated disc member
120: compression plate
130: elastic member
140: Fixing plate
141:
200: Filtration flow velocity equalizing means
210: shaft
211: recessed groove
212: communication hole
220: vortex flow forming member
300: treated water inflow member
310: treated water inlet
400: Stationary waste water discharge means
410: External open / close valve
411: Station water outlet
420: Inner opening / closing valve
430: elastic member
510: drive shaft
520: Actuator
530: Lift member

Claims (9)

In a water treatment apparatus for seawater and fresh water,
A filtering means having a receiving space;
A filtration flow rate equalizing means provided in the filtration means for equalizing the flow rate of the incoming process water;
A process water inflow member having a process water inlet to provide process water with the filtration means;
Water withdrawing means provided in the process water inflow member so as to be capable of opening and closing the process water inlet and discharging the backwash water flowing into the filtration means; And
And drive means configured to drive the backwash water discharge means up and down to control filtration and backwashing operation of the filtration means
Water treatment system for seawater and fresh water.
The method according to claim 1,
The filtration means
A laminated disk member in which a process water is flowable and a plurality of disks are laminated;
A pressing plate provided on an upper surface of the laminated disk member;
An elastic member for applying a pressing force to the compression plate to press the laminated disk member; And
And a fixing plate fixed to the lower surface of the laminated disk member so as to communicate with the process water inflow member
Water treatment system for seawater and fresh water.
The method of claim 2,
The laminated disc member
And a plurality of discs, wherein the edge of the disc is configured to have a saw-tooth pattern
Water treatment system for seawater and fresh water.
The method according to claim 2 or 3,
Wherein the laminated disc member is formed of a plurality of discs and has an arc-shaped cross section when viewed from the front surface before being pressed by the compression plate
Water treatment system for seawater and fresh water.
The method according to claim 1,
The filtration flow rate equalization means
A shaft, and a vortex flow forming member formed on an outer surface of the shaft for forming a flow of the fluid into a vortex flow
Water treatment system for seawater and fresh water.
The method of claim 5,
The shaft is formed in a shape of a truncated cone, a cone, or a cylinder. The shaft is integrally formed with a driving shaft of a driving shaft of the driving means. A recessed groove is formed on an upper side of the shaft. ,
The vortex flow forming member is formed in a spiral screw shape and has a width decreasing from one side to the other side
Water treatment system for seawater and fresh water.
The method of claim 5,
The shaft is formed in a shape of a truncated cone, a cone, or a cylinder, and is integrally formed with a driving shaft of a driving shaft of the driving means, and a recessed groove is formed on an upper side of the shaft. ,
Wherein the vortex flow forming member is formed as a protruding piece formed on the outer surface of the shaft at intervals in the up and down and circumferential directions, the protruding piece having a free end inclined upward,
The process water inflow member is formed of a mesh-shaped cylindrical member
Water treatment system for seawater and fresh water.
The method of claim 7,
The backwash water discharge means
An external open / close valve slidably movable in the mesh-shaped cylindrical member and having a reverse water discharge port formed on a lower surface thereof;
An internal opening / closing valve movably provided on the external opening / closing valve and opening / closing the counterflow water outlet; And
And an elastic member elastically supporting the internal opening / closing valve in the external opening / closing valve
Water treatment system for seawater and fresh water.
The method of claim 8,
The driving means
A drive shaft having one end connected to the internal on / off valve, the intermediate portion passing through the external on / off valve, the filtrate flow rate equalizing means and the compression plate, and the other end exposed to the outside of the filtration means;
An actuator provided at the other end of the drive shaft to drive the drive shaft; And
And a lift member provided on a drive shaft at a lower side of the compression plate to raise the compression plate when the drive shaft is driven up
Water treatment system for seawater and fresh water.

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