KR100275928B1 - A method for washing a filter - Google Patents

Abstract

The present invention relates to a method for cleaning a filtration membrane of a filtration device, and more particularly, to remove suspended impurities and effective sludge, which are attached to the filtration membrane in a process of filtering a stock solution through a filtration device, without using a high-temperature steam, without a cumbersome work process. In the method of washing the filtration membrane installed in the interior of the filtration device to clean and remove the discharge, the method of washing the filtration membrane by intermittently supplying a high temperature steam in the state of completion of the filtration process through the filtration device. The present invention relates to a filtration membrane cleaning method of a filtration device.

Description

An method for washing filter of filtering equipment.

The present invention relates to a method for cleaning a filtration membrane of a filtration device, and more particularly, to remove suspended impurities and effective sludge, which are attached to the filtration membrane in a process of filtering a stock solution through a filtration device, without using a high-temperature steam, without a cumbersome work process. The present invention relates to a filtration membrane cleaning method of a filtration device so that it can be discharged cleanly.

In general, the filtering device used to filter the fluid of the stock solution is provided with a filter medium such as a filtration membrane or a filler to separate the incoming fluid from the foreign matter, depending on the way the filter medium is installed is largely deposited (deposit filter) And a cross filter method.

The deposition method includes a luche, a horizontal filter, a leaf filter, a filter press, a bag filter, a cartridge filter, and a sand filter depending on the position of the inflowing fluid and the position of the filter medium. It is divided into a (sand filter) method, the fluid passes through the filtration membrane or the packing material to form a foreign material layer in the direction of the stock solution of the filter medium, when a certain time elapses in this process, the fine pores formed in the filter medium by the foreign material layer Once closed, no more filtration is possible. At this time, the foreign matter layer must be efficiently removed as necessary to restore the initial filtration capacity of the filter medium. Since most foreign substances are inserted into the micropores of the filter medium, most of the foreign substances are restored, and eventually the filter medium itself needs to be replaced. The problem occurred.

In the cross-filtering method, the fluid continuously flows between the filtration membranes, and the filtrate flows into the filtration membrane, and effective particles of the foreign substances filtered out from the stock solution are pushed out by the flow of the stock solution, so that a foreign substance layer is easily formed unlike the deposition method. However, the filterability was maintained for a considerable period of time, but this also reduced the permeability due to the concentration of foreign substances in the stock solution, and if the through-hole of the filter membrane is clogged, as well as the filter medium after a certain period of time There was a problem of rehabilitation.

In addition to the above-described filtration method, there are a cyclone method and a centrifugal separation method that do not require a filter material. However, the cyclone method cannot separate fine particles. Problems such as risks occurred.

In the filter medium used in the filtration unit such as the deposition method and the cross filter method, fillers such as sand, activated carbon, and diatomaceous earth are used, and fabricated by winding fibers such as acrylic or cotton depending on the material, or nonwoven fabric and There is a method in which a filtration membrane is prepared so that a plurality of micropores are formed on a mesh made of polyethylene cloth or made of a metal material or a heat resistant resin.

The filtration membrane used by winding the fibers such as acrylic or cotton in the above can not be used again once used, and must be replaced with a new one every use, resulting in problems such as high consumption cost, replacement work time, and waste generation. The filtration membrane of the woven fabric type made of nonwoven fabric, polyethylene, and polypropylene had an advantage of being able to be used more times than the filtration membrane made of the fiber material, but also hassle of having to wash the filtration membrane at every use, and thus The problem that the work process is repeated and the cost increase and the wash water required for cleaning have to be provided.

In addition, the filtration membrane used to manufacture a metal material or heat-resistant resin having a fine hole formed into a mesh shape or the like is used in recent years, and when applied to the cartridge filter method to explain in more detail, a metal material or a heat-resistant resin having fine holes formed inside the housing Filtration part is installed with a filtration membrane prepared in the form of a mesh, the upper surface is formed with a filtrate discharge pipe for discharging the filtrate, one side is formed with an inlet pipe through which liquid can be introduced, the bottom of the housing A valve capable of opening and closing is installed to discharge sludge, and the liquid introduced into the housing through the inflow pipe passes through the filtration membrane of the filtration unit, and the foreign matters contained in the liquid are filtered by the filtration membrane of the filtration unit. The liquid is discharged through the outlet, and the bottom of the housing Foreign substances such as sludge to be loaded are discharged by opening the valve installed to the bottom of the housing as necessary.

However, in the above-described method, the fibrous membrane or nonwoven fabric and the filtration membrane of the fabric type woven from polyethylene or polypropylene had the advantage that they can be used repeatedly many times, but also the foreign substances contained in the fluid during the filtration process. Since the micropores of the filtration membrane are closed, the filter membrane is separated every time it is used, and the hassle to be washed and a repetitive work process are generated accordingly. In the process of washing the filtration membrane, a separate washing water should be provided. This has led to the problem.

On the other hand, in recent years, instead of leaving the filtration membrane installed in the filtration unit as described above, a method of backwashing by supplying the washing water and the like back into the filtration device is often used, in this method, the filtration membrane of the filtration unit There was a convenient point compared to the method of cleaning by leaving it, but it requires a lot of washing in the process of backwashing, there is a problem that does not have a lot of effects due to the problem that foreign matters stuck in the micropores of the filtration membrane is not separated smoothly This has been brought about.

In the filtration apparatus using the filtration membrane, if the filtration membrane is to be washed, the filtration membrane is separated and washed while the filtration apparatus is stopped. There was a problem that is not made.

Accordingly, the present invention has been made to solve the above problems, without the cumbersome work process using the high-temperature steam to the suspended impurities or effective sludge attached to the filtration membrane in the process of filtering the fluid through the filtration device The purpose is to maximize the filtration effect by allowing the filtration membrane to maintain its initial permeability, so that it can be quickly and cleanly removed and discharged.

In addition, by adding a cleaning agent in the process of supplying the steam, there is another object to make the filtration membrane even more clean.

1 is a schematic view of applying the present invention to a cross filter method,

2 is an embodiment of a use state according to FIG. 1,

3 is a schematic diagram applying the present invention to a cartridge filter method;

4 is an embodiment of a use state according to FIG. 3.

* Explanation of symbols for main parts of the drawings

10: steam supply pipe 20: valve

30: injector 70: discharge valve

80: filtration unit 82: filtration membrane

90 housing 91 body

92: concentrated liquid discharge pipe 93: filtrate discharge pipe

94: inlet pipe 100: filtration device

In order to achieve the above object, the present invention provides a method of washing a filtration membrane installed in a filtration device, wherein the filtration membrane is intermittently supplied with high temperature steam in a state where a filtration process is completed through the filtration device. By providing a method for washing a filtration membrane of a filtration device using steam, the above object can be achieved.

In the process of supplying the steam is characterized in that for supplying by adding a cleaning agent.

In the process of supplying the steam characterized in that the supply of steam in the same direction as the flow of the stock solution filtered by the filtration device.

In the process of supplying the steam is characterized in that for supplying steam in a direction opposite to the flow of the stock solution filtered by the filtration device.

Hereinafter, exemplary embodiments of the present invention will be described in detail by applying the same reference numerals to the same names by the accompanying drawings.

1 is a schematic view of the present invention applied to the cross-filtering method, the fluid of the stock solution is introduced through the inlet pipe 94 at one end of the filtration unit 80 in which the filtration membrane 82 is formed inside the body 91, and the other end. Concentrate discharge pipe 92 is formed to maintain the normal flow of the stock solution, and the filtrate discharge pipe so that the filtrate filtered through the filtration membrane 82 of the filter unit 80 is discharged on one surface of the body (91) In the cross filter type filtration device 100 which forms a 93 to filter the fluid, the steam supply pipe 10 having the injector 30 installed therein so as to inject a cleaning agent into one end of the inflow pipe 94 is formed. After the installation is switched by the valve 20 to be switched in the direction, and the filtration process is finished, the valve 20 is switched in a state in which the filtration membrane 82 is closed, and the high temperature steam is supplied through the steam supply pipe 10 at regular intervals. To help feed in the same direction The drawings.

In the above, in the process of supplying high temperature steam, the cleaning agent may be sprayed using the injector 30 installed in the steam supply pipe 10 as needed to supply the high temperature steam.

The steam supply pipe 10 may be formed on one surface of the body 91 and installed in a filtrate discharge pipe 93 for discharging the filtrate.

2 is an embodiment of the use state according to Figure 1, by installing a plurality of filtration device 100 of the cross-filter method in parallel to wash the filtration membrane 82 with a high temperature steam as described above in a continuous filtration process It is a figure which can be performed and used.

3 is a schematic view of the present invention applied to the cartridge filter method, the upper portion of the housing 90 is provided with a filtration unit 80 is provided with a mesh filtration membrane 82 in which micropores are formed of a metal material or a heat resistant resin, etc. The filtrate discharge pipe 93 is formed to discharge the filtered filtrate, an inlet tube 94 through which the fluid of the raw liquid is introduced is formed on one side, the opening and closing can be made on the bottom of the housing 90 In the cartridge filter type filtration device 100, which is used to filter the discharge valve 70, such as a ball valve or a rotary valve is installed so as to filter, to spray the cleaning agent to one end of the filtrate discharge pipe (93) After the steam supply pipe 10 in which the device 30 is installed is installed to be switched by the valve 20 which is switched in three directions, the valve 20 is switched at a high temperature through the steam supply pipe 10 after the filtration process is finished. Symptom of It is a figure which shows supplying a group to the opposite direction from which a filtrate is discharged.

In the above, in the process of supplying high temperature steam, the cleaning agent may be sprayed using the injector 30 installed in the steam supply pipe 10 as needed to supply the high temperature steam.

Figure 4 is an embodiment of the use state according to Figure 3, by installing a plurality of filtration device 100 of the cartridge filter type in parallel to wash the filtration membrane 82 with a high temperature steam as described above in a continuous filtration process It is a figure which can be performed and used.

Referring to the working relationship of the present invention as described above in more detail as follows.

First, in the filtration apparatus 100 of the cross filter method, the steam supply pipe 10 installed in the inlet pipe 94 is switched using the valve 20 in a state in which the filtration membrane 82 is closed due to foreign matters after the filtration process is finished. After supplying the high-temperature steam, the high-temperature steam is supplied in the same direction as the raw liquid flows, and the micro-pores of the mesh-like filter membrane 82 formed of a metal material or a heat-resistant resin are expanded due to the high-temperature steam. By the action of the foreign matter contained in the stock solution in the filtration process is trapped in the micropores of the filtration membrane 82 is released due to the expansion of the micropores.

The foreign matters separated as described above are discharged back into the stock solution storage tank through the concentrate discharge pipe 92 or the filtrate discharge pipe 93.

In addition, in the filtration device 100 of the cartridge filter type, the filtration process is completed and the filtration membrane 82 is closed, such that the valve 20 is installed in the filtrate discharge pipe 93 as in the cross-filter type filtration device. When the steam supply pipe 10 is opened to supply high temperature steam, the high temperature steam is supplied in the opposite direction of the filtrate discharged to be filtered and then supplied to the filtration membrane 82 of the filtration unit 80, thereby providing a metallic material or a heat resistant resin. As the micropores are expanded by the filtration membrane 82 formed by the back, foreign substances, etc. trapped in the micropores of the filtration membrane 82 during the filtration process are released from the filtration process.

As described above, foreign matters separated from the filtration membrane 82 of the filtration unit 80 are discharged to the outside by opening the discharge valve 70 formed at the bottom of the housing 90 to complete the cleaning process of the filtration membrane 82. It is done.

On the other hand, the fine oil attached to the filtration membrane 82 in the process of removing the foreign matter caught on the filtration membrane 82 by supplying the high-temperature steam as described above in the cross-filter method or the cartridge filter filtration device 100. In order to remove inorganic impurities, the cleaning agent, which is a compound component having excellent resolution with respect to organic and inorganic impurities contained in the stock solution, is supplied to the high-temperature steam through the injection device 30 provided in the steam supply pipe 10, It is possible to remove the fine organic and inorganic impurities attached to the filtration membrane 82 to have a condition that can further clean the filtration membrane 82.

In addition, the injection device 30 installed in the steam supply pipe 10 should have a temperature control capability, the injection method is the steam supplied by the pressure injection by the air pressure or a high-pressure feeding pump while the nozzle minutes. Injection through a steam ejector of is preferred.

In the above, the cleaning agent added in the process of supplying steam includes phosphate, anionic or nonionic surfactant, ethylene diamine tetraacetic eacetic acid (EDTA), oxalic acid, citric acid, acetic acid, formic acid, caustic soda or the like which has a high promoting effect. Preference is given to using mutual compositions.

On the other hand, in the case of using a plurality of filtration device 100 for washing the filtration membrane 82 by using a steam as described above in parallel as shown in Figure 2 or 3 used in the plurality of filtration device 100 One filtration device 100 that does not perform the filtration process because the filtration membrane 82 is closed due to the foreign matter in the process of performing the washing process using steam as described above, the other filtration device 100 and the like By continuing to perform the filtration process to eliminate the hassle of stopping the operation of the filtration device in the conventional washing, as well as performing the filtration process continuously, it is possible to filter more and more of the stock solution.

In addition, the washing procedure of the filtration device 100 in the process of performing the filtration process is installed in parallel, after installing an automatic valve, a sensor, etc. in the filtration device 100, at one side by a control program commonly used Of course, the process can proceed sequentially from one of the first filtration device 100 closed of the filtration membrane 82, if necessary, or to wash the filtration membrane 82 of the one or more filtration device (100) While the rest can be used in parallel to allow the filtration process to proceed.

As described above, according to the present invention, after the filtration process is finished in the process of filtering the fluid of the stock solution using the filtration device, the filtration membrane is closed, or in the filtration process, the filtration membrane is filtered off, By supplying and removing steam and detergent, it is possible to quickly and cleanly wash the filtration membrane without cumbersome work processes, thereby maximizing the filtration effect.

In addition, it is possible to connect and install a plurality of filtration devices used to wash the filtration membrane in parallel using the high temperature steam as described above, without interrupting the operation of the filtration device, and performs the normal filtration process continuously It is possible to also provide a condition that can filter the greater amount of the stock solution.

Claims (4)

In the method of washing the filtration membrane of the filtration unit installed inside the filtration apparatus, the high temperature steam is intermittently supplied through the filtration apparatus 100 to wash the filtration membrane 82 of the filtration unit 80. Filtration membrane cleaning method of a filtration device, characterized in that. The method of claim 1, wherein the cleaning agent is added by supplying a cleaning agent in the process of supplying the steam. The method according to claim 1 or 2, wherein the steam is supplied in the same direction as the flow of the stock solution filtered by the filtering device (100) in the process of supplying the steam. The method according to claim 1 or 2, wherein the steam is supplied in a direction opposite to the flow of the stock solution filtered by the filtering device (100) in the process of supplying the steam.