JP4949658B2 - Dialysis water production apparatus and sterilization method thereof - Google Patents

Description

  The present invention relates to a dialysis water production apparatus used for artificial dialysis and a sterilization method thereof.

Conventionally, as a purification method for a dialysis water production apparatus, there is known a method in which purified water is sent back to a bypass pipe that temporarily sends pretreated water to a dialysis fluid supply device when the liquid feed pump stops abnormally, and the like. ing.
Japanese Patent Laid-Open No. 10-43758 JP 2004-49977 A JP-A-11-333266

  An object of the present invention is to provide a dialysis water production apparatus capable of efficiently sterilizing by a simpler apparatus and method and a sterilization method thereof.

As a means for solving the problems, the present invention provides a pretreatment unit for raw water, a reverse osmosis membrane module, a storage tank for treated water, and a pressure for sending treated water from the pretreatment unit to the reverse osmosis membrane module for filtration. A dialysis water production apparatus comprising a pump and a liquid feed pump for feeding purified water stored in a storage tank to the use side of dialysis water,
The outlet line of the liquid feed pump has a chemical solution injection part, and is branched into a line that returns to the treated water storage tank and a line that continues to the dialysis water use side,
A dialysis water production apparatus is provided in which a line connected to an inlet of the reverse osmosis membrane module is branched from a line following the dialysis water use side from the liquid feed pump.

  In the present invention, the outlet line of the liquid feed pump has a chemical solution injection part, and is branched into a line that returns to the treated water storage tank and a line that continues to the dialysis water use side. For this reason, a chemical solution can be poured into purified water as needed, and purified water or purified water into which a chemical solution has been poured is sent to the end. And since the line connected to the inlet of the reverse osmosis membrane module is branched from the line following the dialysis water use side from the liquid feed pump, the purified water or the purified water injected with the chemical solution is reverse osmosis It is sent to the membrane module.

Further, the present invention provides a raw water pretreatment unit, a reverse osmosis membrane module having a heating mechanism, a treated water storage tank, and a treated water from the pretreatment unit for sending the filtered water to the reverse osmosis membrane module as a means for solving the problems. It is equipped with a pressure pump and a liquid feed pump that sends purified water stored in the storage tank to the use side of dialysis water.
The outlet line of the liquid feed pump has a chemical solution injection part, and is branched into a line that returns to the treated water storage tank and a line that continues to the dialysis water use side,
A dialysis water production apparatus is provided in which a line connected to an inlet of the reverse osmosis membrane module is branched from a line following the dialysis water use side from the liquid feed pump.

  The reverse osmosis membrane module can have a heating mechanism. The structure of the heating mechanism, the heating method, and the like are not particularly limited, but as the structure, for example, a structure in which a heater is attached to the inside or outside of the reverse osmosis membrane module housing can be used. An electric heater, steam, or the like can be used.

  According to the present invention, as a means for solving the problem, in the above apparatus, a line connected to the inlet of the reverse osmosis membrane module is connected between the outlet side of the pressurizing pump and the inlet side of the reverse osmosis membrane module. An apparatus for producing dialysis water is provided.

  By such a structure, the effect that it can sterilize by heating a reverse osmosis membrane module efficiently is acquired.

  Further, according to the present invention, as a means for solving the problem, an ultrafiltration membrane module for further purifying purified water that has passed through the reverse osmosis membrane module is connected to a line that continues from the liquid feeding pump to the use side of dialysis water. An apparatus for producing dialysis water is provided.

  In order to remove viable bacteria, endotoxin and the like, the purified water that has passed through the reverse osmosis membrane module is further purified by an ultrafiltration membrane module.

  In addition, in the apparatus of the present invention, the line connected from the liquid feed pump to the inlet of the reverse osmosis membrane module is designed so that the liquid flows only in the direction from the liquid feed pump to the reverse osmosis membrane module in order to prevent back contamination. Is preferred.

Further, the present invention provides a raw water pretreatment unit, a reverse osmosis membrane module, a treated water storage tank, a pressurized pump for sending and filtering treated water from the pretreatment unit to the reverse osmosis membrane module, And a feed pump that feeds purified water stored in the storage tank to the use side of dialysis water,
The outlet line of the liquid feed pump has a chemical solution injection part, and is branched into a line that returns to the treated water storage tank and a line that continues to the dialysis water use side,
A sterilization method for a dialysis water production apparatus in which a line connected to the inlet of the reverse osmosis membrane module is branched from a line following the dialysis water use side from the liquid feed pump,
The reverse osmosis membrane module, the purified water line from the reverse osmosis membrane module, the storage tank, the liquid feed pump, and the circulation line formed from the liquid feed pump to the inlet of the reverse osmosis membrane module, Alternatively, the present invention provides a sterilization method for a dialysis water production apparatus, wherein purified water into which a chemical solution is injected is circulated and the circulation line is washed and sterilized.

  In the present invention, the sterilization cleaning in the circulation line is performed by circulating purified water or purified water injected with a chemical solution through the circulation line. The purified water used for washing is appropriately discharged out of the system using a concentrated water line of a reverse osmosis membrane module.

  As said chemical | medical solution, well-known chemical | medical agents for washing | cleaning, such as inorganic acids, such as a sulfuric acid and an oxalic acid, sodium hypochlorite aqueous solution, organic acid, hydrogen peroxide aqueous solution, can be used. Among these, it is preferable to use a hydrogen peroxide aqueous solution from the viewpoint of protecting the reverse osmosis membrane module and reducing environmental pollution by the residual cleaning liquid.

Further, the present invention provides a raw water pretreatment unit, a reverse osmosis membrane module having a heating mechanism, a treated water storage tank, and a treated water from the pretreatment unit for sending the filtered water to the reverse osmosis membrane module as a means for solving the problems. It is equipped with a pressure pump and a liquid feed pump that sends purified water stored in the storage tank to the use side of dialysis water.
The outlet line of the liquid feed pump has a chemical solution injection part, and is branched into a line that returns to the treated water storage tank and a line that continues to the dialysis water use side,
A sterilization method for a dialysis water production apparatus in which a line connected to the inlet of the reverse osmosis membrane module is branched from a line following the dialysis water use side from the liquid feed pump,
The circulation mechanism formed by the reverse osmosis membrane module, the purified water line from the reverse osmosis membrane module, the storage tank, the liquid feed pump, and the line connected from the liquid feed pump to the inlet of the reverse osmosis membrane module is Provided is a sterilization method for a dialysis water production apparatus for circulating purified water heated to 90 ° C. and sterilizing the circulation line.

  In the present invention, the circulating line and the reverse osmosis membrane module are sterilized by circulating purified water heated by the heating mechanism of the reverse osmosis membrane module through the circulation line.

  Purified water or the like used for washing can be appropriately discharged out of the system using a concentrated water line of a reverse osmosis membrane module. The heating temperature of purified water is preferably 45 to 90 ° C, more preferably 75 to 85 ° C. The sterilization time is preferably 10 to 60 minutes. Furthermore, it is preferable to circulate at 80 ° C. for 30 minutes.

  Sterilization of the line from the feed pump to the use side of the dialysis water or the ultrafiltration membrane module can be performed as follows.

  At the time of sterilization of the above circulation line, not only the circulation line but also the purified water containing chemical solution or heated purified water is sent to the subsequent use side of the dialysis water or the line following the ultrafiltration membrane module. Thus, the line connected to the ultrafiltration membrane module can be washed. At this time, it is possible to prevent the cleaning liquid from going to the reverse osmosis membrane module.

  Moreover, when parts other than a circulation line are not heat-resistant specification, it is necessary to prevent the heated purified water from going to the line.

  Alternatively, the washing of this line can be performed as a separate operation by causing the chemical solution to flow on the use side of the dialysis water or the line following the ultrafiltration membrane module using a liquid feed pump. As the chemical used at that time, known cleaning chemicals such as inorganic acids such as sulfuric acid and oxalic acid, sodium hypochlorite aqueous solution, organic acid, hydrogen peroxide aqueous solution and the like can be used. Among these, sodium hypochlorite and peracetic acid are preferable. A mixed solution of sodium hypochlorite and peracetic acid is more preferable.

  In the dialysis water production apparatus of the present invention, bypass pipes are provided on the inlet side of the pressurizing pump and on the path from the liquid feed pump to the outlet side of the dialysis water or the ultrafiltration membrane module. This is for urgently sending the pretreated raw water to the dialyzer when the pressurization pump or the liquid feed pump stops operating during dialysis.

  Since this pipe is not used during normal operation, raw water may stay and bacteria and the like may be generated. Therefore, it is necessary to discharge the staying water out of the system. Therefore, in the apparatus of the present invention, the raw water that has passed through the pretreatment section is directly flowed into the bypass pipe, and discharged from the end of the bypass pipe, so that bacteria that may be generated in the staying water are contained in the dialysis water. Try not to mix.

  The dialysis water production apparatus of the present invention can perform efficient washing with a simple structure.

  Hereinafter, an embodiment of the dialysis water production apparatus of the present invention will be described with reference to FIG. FIG. 1 is a schematic diagram of a dialysis water production apparatus. Each part is connected by a line (pipe). Hereinafter, it demonstrates along the order of a flow.

  First, a raw water pretreatment unit including a prefilter, a water softener, and an activated carbon tower is provided. As these, known ones can be used.

  Next, a pressure pump (P) for sending the treated water from the pretreatment unit to the reverse osmosis membrane (RO membrane) module for filtration after the pretreatment unit is connected. As a reverse osmosis membrane module, a well-known thing, for example, a spiral type thing, can be used.

  The permeate side outlet of the reverse osmosis membrane module is connected to a purified water storage tank (treated water tank) by a line 6 (L6). On the other hand, the concentration side of the reverse osmosis membrane module is connected between the activated carbon tower and the pressure pump by a line 5 (L5). Further, a drain line for discharging the concentrated water of the reverse osmosis membrane module is branched from the line 5 (L5).

  The treated water tank (purified water storage tank) to which L6 is connected is equipped with a UV sterilization lamp, and purified water can be sterilized by irradiating the UV lamp. A liquid feed pump (P) for feeding purified water to a subsequent line is connected to the treated water tank.

  And the outlet line of a liquid feeding pump is branched into two, line 1 (L1) which returns to a treated water tank, and line 3 (L3) connected to an ultrafiltration membrane (UF membrane) module. A chemical tank (chemical solution injection part) is provided in the middle of L1. A hydrogen peroxide aqueous solution is used as the chemical solution. Further, a line 2 (L2) from L3 to the reverse osmosis membrane module is branched.

  Furthermore, in this embodiment, as a heating mechanism (not shown), a sheath heater and a band heater are provided around the module case of the reverse osmosis membrane module so that the treated water can be heated.

  Moreover, L4 connected to L3 is branched from the inlet side of the pressure pump. This functions as a bypass line for sending the treated water treated in the pretreatment section to the ultrafiltration membrane module when the pressurization pump or the liquid feed pump is abnormally stopped.

  An ultrafiltration membrane module is connected to L3, and the permeation side of the ultrafiltration membrane module is connected to a purified water supply section (water supply in the figure) to the dialysis machine.

  During normal operation of the dialysis water production apparatus of the present embodiment, the pretreated raw water is sent to the reverse osmosis membrane module by a pressure pump, and the liquid that does not permeate the membrane passes through L5 as concentrated water and passes through the pressure pump. It is circulated by. Thereafter, the concentrated water is drained from the drainage line.

  The permeated water (RO water, purified water) that has passed through the membrane passes through L6, is stored in the treated water tank, and is sterilized using a UV germicidal lamp as necessary.

  Thereafter, the permeated water is sent to the UF membrane (ultrafiltration membrane) module through the liquid feed pump L3 and processed, and the permeated water having a higher degree of purification is supplied to the dialyzer. During normal operation, no chemicals are injected into purified water.

  Next, the sterilization method for the dialysis water production apparatus of the present invention will be described.

  As a first sterilization method, when the normal operation is stopped, the reverse osmosis membrane module, L6, the treated water tank, the feed pump, and the circulation line formed by L2 are used in the purified water in the treated water storage tank or L1. The reverse osmosis membrane modules L6 and L2 are washed and sterilized by circulating purified water injected with hydrogen peroxide water.

  A part of purified water or purified water containing hydrogen peroxide is sent to the pressure pump and L4 via L5, so that L5 and L4 are also sterilized. Furthermore, the ultrafiltration membrane is also sterilized by sending a part of the chemical solution in the circulation line to the ultrafiltration membrane via L3.

  As the second sterilization method, purified water heated from 45 ° C. to 90 ° C. by the heating mechanism is added to the circulation line formed by the reverse osmosis membrane module, L6, the treated water tank, the liquid feed pump, and L2. By circulating similarly to the sterilization method of 1, the reverse osmosis membrane module and the line after the reverse osmosis membrane module can be sterilized. The method other than the circulation line can be performed in the same manner as the first method.

  The line L3 can be separately cleaned by the following operation. That is, purified water to which a chemical solution (for example, a mixed aqueous solution of peracetic acid and sodium hypochlorite) is added from the chemical tank is allowed to flow from L3 to the UF membrane module by a liquid feed pump, and then discharged out of the system.

  Furthermore, about the line L4, after flowing raw water (tap water) from the pre-processing part to the line L4 using the power of a tap water supply source, it discharges in front of the line L3, and the inside of the bypass line L4 The stagnant water can be discharged out of the system.

FIG. 1 is a flowchart illustrating an embodiment of the present invention.

Claims (5)

Raw water pretreatment unit, reverse osmosis membrane module, treated water storage tank, pressure pump for sending and filtering treated water from the pretreatment unit to the reverse osmosis membrane module, and purified water stored in the storage tank, It is equipped with a liquid pump that feeds the dialysis water to the use side.
The outlet line of the liquid feed pump has a chemical injection part and branches into a line (L1) that returns to the treated water storage tank and a line (L3) that continues to the use side of dialysis water through the ultrafiltration membrane module Has been
The line (L2) connected to the inlet of the reverse osmosis membrane module is branched from the line (L3) following the dialysis water use side from the liquid feed pump ,
The concentration side of the reverse osmosis membrane module is connected by a line (L5) between the pretreatment section of the raw water and the pressure pump, and the concentrated water of the reverse osmosis membrane module is discharged from the line (L5). The drainage line is branched,
Furthermore, a sterilization method for a dialysis water production apparatus in which a line (L4) connected to the line (L3) is branched from the inlet side of the pressure pump ,
When the dialysis water production system is shut down,
A reverse osmosis membrane module, a purified water line (L6) from the reverse osmosis membrane module, a treated water storage tank, a liquid feed pump, and a line (L2) connected from the liquid feed pump to the inlet of the reverse osmosis membrane module. a circulation line to circulate the purified water medicine solution was injected into the purified water storage tank of treated water, wherein the circulation line was washed disinfection, wastewater concentrated water purified water is reverse osmosis membrane module used for sterilizing and washing A method for sterilizing dialysis water production equipment that drains from the line . By using tap water as raw water and running tap water from the pretreatment section to the line (L4) using the power of the tap water supply source, the tap water is discharged before the line (L3). The sterilization method of the water production apparatus for dialysis of Claim 1 which discharge | emits the staying water in a) out of a system. Sterilization method of the dialysis water production apparatus according to claim 1, wherein injecting the aqueous hydrogen peroxide solution from the drug fluid injecting section. Raw water pretreatment unit, reverse osmosis membrane module with heating mechanism, treated water storage tank, pressurized pump for sending treated water from the pretreatment unit to the reverse osmosis membrane module and filtration, and stored in the storage tank It is equipped with a liquid feed pump that sends purified water to the use side of dialysis water.
The outlet line of the liquid feeding pump has a chemical liquid injection part, and is branched into a line (L1) that returns to the treated water storage tank and a line (L3) that continues to the use side of dialysis water,
The line (L2) connected to the inlet of the reverse osmosis membrane module is branched from the line (L3) following the dialysis water use side from the liquid feed pump ,
The concentration side of the reverse osmosis membrane module is connected by a line (L5) between the pretreatment section of the raw water and the pressure pump, and the concentrated water of the reverse osmosis membrane module is discharged from the line (L5). The drainage line is branched,
Furthermore, a sterilization method for a dialysis water production apparatus in which a line (L4) connected to the line (L3) is branched from the inlet side of the pressure pump ,
A reverse osmosis membrane module, a purified water line (L6) from the reverse osmosis membrane module, a treated water storage tank, a liquid feed pump, and a line (L2) connected from the liquid feed pump to the inlet of the reverse osmosis membrane module. a circulation line to circulate the purified water heated to 45 to 90 ° C. by the heating mechanism, sterilized the circulation line, the heated purified water was used for sterilizing and washing from the drainage line of concentrated water of the reverse osmosis membrane module A method for sterilizing a dialysis water production apparatus for draining . By using tap water as raw water and running tap water from the pretreatment section to the line (L4) using the power of the tap water supply source, the tap water is discharged before the line (L3). The sterilization method of the water production apparatus for dialysis of Claim 4 which discharges | emits the stagnant water in a system outside.

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