KR102317351B1 - Filtering device for fine particles contained in the exhaust water of the gasifier quencher - Google Patents

Abstract

The present invention relates to a fine particle filtering apparatus operated by: a drain water inflow step in which in order to introduce drain water containing fine particles, a drain water inflow discharge unit is opened, and in order to facilitate the inflow, a filtered water discharge unit and a dehydration discharge unit are opened; a filtration step in which the dehydration discharge unit is closed when the inflow of drain water is completed, and the drain water inflow discharge unit and the filtered water discharge unit and opened continuously to introduce drain water and to discharge filtered drain water, respectively; a filtration stop step in which when the filtration step is stopped, the drain water is discharged through the drain water inflow discharge unit, the filtered water discharge unit is closed, and the dehydration discharge unit is opened; a dehydration operation step in which only the dehydration discharge unit is opened for dehydration of the fine particles of a filter filtration unit through rotation of the filter filtration unit after all of the drain water is discharged in the filtration stop step; a filter filtration unit regeneration step in which for the desorption of the fine particles located inside the filter filtration unit, a fine particle desorption unit and a high-pressure injection nozzle unit operate vertically and the filter filtration unit rotates when the dehydration operation step is stopped; and a fine particle discharge step of transporting, storing and discharging the fine particles desorbed in the filter filtration regeneration step. According to the present invention, regeneration efficiency of the trapping filter is improved.

Description

Filtering device for fine particles contained in the exhaust water of the gasifier quencher

The present invention relates to a fine particle filtration device capable of efficiently removing unreacted fine particles contained in discharged water by quenching a gasifier and increasing the regeneration efficiency of a filtration filter for collecting fine particles.

In general, a gasifier is a high-efficiency facility that uses hydrocarbon fuels such as coal or heavy oil to produce syngas to produce electric power, chemicals, industrial gas, and the like. Through such a gasifier, _{a synthesis gas containing hydrogen (H 2} ) and carbon monoxide (CO) is generated.

In addition, in general, in the gasifier, organic components among the components of the pulverized coal supplied to the inside are converted into syngas containing hydrogen and carbon monoxide as main components by a reaction with oxygen, and exit through the outlet for the downstream process, and inorganic components, that is, Part of the ash is fine particles in the form of fly ash, which are passed out together with the synthesis gas to the downstream process, but in the case of unreacted fine particles, they fall into the cooling water filled in the lower chamber and are rapidly cooled, and the cooling water becomes contaminated water. , the fine particles undergoing rapid cooling are stored in the chamber for a certain period of time, and then are periodically discharged.

Prior Document 1, relates to an integrated water treatment system through mechanical device modularization, the integrated water treatment system is disclosed. The integrated water treatment system of the present invention includes: a water quality improvement part having at least one filter assembly therein; and the state of the backwashing part, the filtration part, and the water quality improvement part using Internet of Things (IoT) technology and the

It includes; a monitoring part that monitors the quality of water in each part in real time; the backwash part has a chamber shape in which an inner space is formed, an inlet through which raw water is introduced is formed on one side, and filtered water is discharged on the other side a housing in which an outlet is formed; A filter module including one or more filter units disposed parallel to each other in the inner space of the housing and formed of a porous material having a plurality of filtration holes, a hollow is formed therein, water moves through the filtration holes, and foreign substances are filtered out ; a shaft module including a central shaft installed in the hollow of the filter unit in the longitudinal direction of the filter unit; A washing module that ascends or descends along the central axis by the flow of fluid in the filter unit and removes foreign substances attached to the inner surface of the filter unit; further comprising, the axis module is located in the inner center of the filter unit a central axis installed in the longitudinal direction of; In order to fix the central shaft to the filter unit, it is provided at the upper end and the lower end of the filter unit, respectively, and a fixing part having a hole for fluid in/out is formed. a coupling portion rotatably coupled with respect to the central axis; A blade roll provided on the outer circumferential surface of the coupling part to generate a rotational force on the washing module according to the flow of fluid, wherein the central shaft and the coupling part are screwed together so that when the washing module is rotated by the blade, the central shaft and the coupling part It ascends or descends by screwing, and the edge of the blade is provided with a scraper in contact with the inner peripheral surface of the filter unit, and the scraper removes foreign substances attached to the inner peripheral surface of the filter unit by rotation of the washing module .

Prior Document 2 relates to a rotary filtration type water treatment device capable of backwashing, and relates to a rotary filtration type water treatment device capable of backwashing. A drum-type filter member for filtering the water to be treated by being rotatably supported by a rotating sealing support installed in the treatment tank, one side of which is supported by a rotating shaft installed in the treatment tank, and the other side being opened to form an outlet, and in the treatment tank A filter washing unit supported and installed inside the filter member for backwashing the drum-type filter member, and supported by the treatment tank and in close contact with the outer circumferential surface of the filter member, washed by washing water sprayed through the filter washing unit It is for discharging foreign matter to the outside, and includes a cleaning foreign matter discharging unit of the filter member having a scraper.

Prior Document 3 relates to a filter element and a filtration device, wherein a fluid passes through and filters from the inside to the outside, and at the same time, the fluid passes from the outside to the inside

It is a tubular filter element (3) that is backwashed by washing, a tubular filter medium (31), a first end member (32) provided at one end of the filter medium and having an opening, and the other side of the filter medium. The second end member 33 provided at the end and having an opening, is installed inside the filter medium and moves inside the filter medium by the flow of a fluid, and the outer periphery slides against the inner circumferential surface of the filter medium and contacts the captured material. It has a trapping material removal port 34 which removes , and is provided with flow rate limiting means which restrict|limits the quantity of the fluid which passes through the said 2nd end member on the other end side of the said filter medium.

In addition, conventionally, contaminated water containing unreacted fine particles stored in a sink is used by re-supplying to the sink by using a secondary filtration filter after primary sedimentation filtration. In the case of a filtration filter with a filtration filter, the particulate contaminants collected in the filtration filter are removed by simply supplying high-pressure washing water to the filtration filter in the reverse direction to the polluted water flow and supplying the filtration filter in the reverse direction of the polluted water flow. Since the washing water is not evenly supplied to the entire filter filter, there is a problem in that the collected separation and desorption efficiency and the regeneration efficiency of the filter filter are low.

In addition, in order to increase the regeneration efficiency of the filtration filter, the operation time for regeneration may be lengthened, and when smooth filtration filter regeneration is not performed, frequent filtration filter regeneration operation is required.

Republic of Korea Patent Publication No. 10-2085610 Republic of Korea Patent Publication No. 2019-0088859 Republic of Korea Patent Publication No. 10-2156817

The main object of the present invention to solve the problems of the prior art is to increase the regeneration efficiency of the filtration filter used when discharging contaminated water from the gasifier, and to uniformly spray air and water to the filtration filter. An object of the present invention is to provide a fine particle filtering device.

Other objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments taken in conjunction with the accompanying drawings.

The present invention for solving the above technical problems is a cylindrical case, a discharge water inlet and discharge unit for introducing and discharging the discharge water containing fine particles inside the case,

A rotational operation is possible in a cylindrical shape to filter the fine particles contained in the discharged water introduced into the case, and for the rotational operation, a rotation motor, one side of the rotation motor and one side of the filter filtration unit are connected to one side for the rotation operation, A filter filtration unit including a power transmission means for transmitting power generated from the rotary motor, the lower portion of the filter filtration unit is open so that the discharged water can be introduced, and the side includes a porous filter along a cylindrical shape, After the filtered water discharge unit for discharging the filtered water that has passed through the filter filtering unit, and the untreated discharged water inside the filter filtering unit is discharged to the discharged water inlet/discharge unit, the filter filtering unit is rotated by the rotary motor to dehydrate the moisture contained in the fine particles. and a dehydration discharge unit for discharging dehydration generated in the dehydration operation process, and a scraper and a brush for desorbing the fine particles filtered inside the filter filtration unit after the dehydration operation is completed, A fine particle detachment unit including a length adjusting means so that any one or more of the scraper and the brush can adjust the length to contact one side of the porous filter of the filter filtration unit, the case and a hole on one side of the filter filtration unit, , a tally unit head connected to one side of the fine particle detachment unit in a rod shape penetrating the hole, and including a pump for operating the length adjusting means, a cylinder connected to the other side of the tally unit head and capable of vertical movement, the Cylinder fixing means for fixing the cylinder to the case,

A high-pressure injection nozzle unit consisting of a double pipe for spraying air and water at high pressure from the outside to the inside of the porous filter of the filter filtration unit from which the fine particles are separated through the fine particle removal unit, the high-pressure injection nozzle unit is the separation unit head It is fixed through a nozzle fixing means connected to one side, and located at the lower end of the filter filtration unit to provide a fine particle filtration device including a fine particle discharge unit for discharging the desorbed fine particles.

As a device for filtering contaminated water containing fine particles of the present invention, there is an effect of increasing the regeneration efficiency of the filtration filter.

In addition, there is an effect that the filter filter can be regenerated within a short time, and the filter clogging phenomenon caused by fine particles can be restored to the initial state of the filter through high-pressure water and air injection.

In addition, there is an advantage that can solve the filtration, dehydration, transport and storage of fine particles in one device.

1 shows a configuration diagram of the present invention.
Figure 2 shows the operation sequence for the fine particle filtration of the present invention.
Figure 3 shows the operation sequence of the fine particle detachment unit of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings. However, the accompanying drawings are only examples for easily explaining the content and scope of the technical idea of the present invention, and thereby the technical scope of the present invention is not limited or changed. In addition, it will be natural for those skilled in the art that various modifications and changes are possible within the scope of the technical spirit of the present invention based on these examples.

In addition, the terms or words used in the present specification and claims should not be construed as being limited to ordinary or dictionary meanings, and the inventor appropriately defines the concept of the term in order to best describe his invention. Based on the principle that it can be done, it should be interpreted as meaning and concept consistent with the technical idea of the present invention. Therefore, since the embodiment described in this specification is only the most preferred embodiment of the present invention and does not represent all the technical spirit of the present invention, there are various equivalents and modifications that can be substituted for them at the time of the present application. It should be understood that

Figure 1 shows the configuration diagram of the present invention, Figure 2 shows the operation sequence for the fine particle filtration of the present invention, Figure 3 shows the operation sequence of the fine particle removal unit of the present invention.

The present invention relates to a fine particle filtering device, and a discharge water inlet/discharge unit for introducing and discharging discharged water containing fine particles inside the case;

A rotational operation is possible in a cylindrical shape to filter the fine particles contained in the discharged water introduced into the case, and for the rotational operation, a rotation motor, one side of the rotation motor and one side of the filter filtration unit are connected to one side for the rotation operation, A filter filtration unit including a power transmission means for transmitting power generated from the rotary motor, the lower portion of the filter filtration unit is open so that the discharged water can be introduced, and the side includes a porous filter along a cylindrical shape, After the filtered water discharge unit for discharging the filtered water that has passed through the filter filtering unit, and the untreated discharged water inside the filter filtering unit is discharged to the discharged water inlet/discharge unit, the filter filtering unit is rotated by the rotary motor to dehydrate the moisture contained in the fine particles. and a dehydration discharge unit for discharging dehydration generated in the dehydration operation process, and a scraper and a brush for desorbing the fine particles filtered inside the filter filtration unit after the dehydration operation is completed, A fine particle detachment unit including a length adjusting means so that any one or more of the scraper and the brush can adjust the length to contact one side of the porous filter of the filter filtration unit, the case and a hole on one side of the filter filtration unit, , a tally unit head connected to one side of the fine particle detachment unit in a rod shape penetrating the hole, and including a pump for operating the length adjusting means, a cylinder connected to the other side of the tally unit head and capable of vertical movement, the Cylinder fixing means for fixing the cylinder to the case,

A high-pressure injection nozzle unit consisting of a double pipe for spraying air and water at high pressure from the outside to the inside of the porous filter of the filter filtration unit from which the fine particles are separated through the fine particle removal unit, the high-pressure injection nozzle unit is the separation unit head It is fixed through a nozzle fixing means connected to one side, and located at the lower end of the filter filtration unit to provide a fine particle filtration device including a fine particle discharge unit for discharging the desorbed fine particles.

In addition, it may further include a guide so that the discharged water introduced for the filtration can be uniformly introduced therein.

The filtration filter may be regenerated through the fine particle desorption unit.

The pump for operating the length adjusting means of the fine particle detachment unit may be a pressure pump, a vacuum pump, or a pump using both pressure and vacuum.

In addition, it may include a flow rate control valve for controlling the flow rate in at least any one or more of the discharge water inlet and discharge unit, the filtered water discharge unit and the dewatering discharge unit.

In addition, it may include a sealing member for fixing the filter filtration unit and the fine particle detachment unit inside the case.

In addition, the filter filtration unit may perform a rotational movement during the vertical operation of the fine particle desorption unit.

In addition, the fine particle discharge unit is a screw for transporting the detached fine particles, a screw motor for driving the screw, a storage bag for storing the fine particles transported by the screw, and the fine particles transported through the screw. It may further include a rotary valve for controlling the amount to be stored in the storage bag.

In addition, the fine particle filtering device may be connected to a gasifier using a gasification reaction to remove fine particles generated in the gasifier.

In addition, the discharged water may be contaminated water containing unreacted fine particles of the gasifier.

In addition, the fine particle filtering device is a discharged water inlet step in which the discharged water inlet and outlet is opened to introduce the discharged water containing fine particles into the case, and the filtered water discharge unit and the dehydrated discharge unit are opened to facilitate the inflow, the discharged water When the inflow of is completed, the dewatering discharge unit is closed, the discharged water inlet/discharge unit continuously introduces discharged water, and the filtered water discharge unit is opened to discharge the filtered discharged water. It is discharged through the discharge water through the discharge unit, the filtered water discharge unit is closed, and the dewatering discharge unit is open. After all of the discharged water is discharged in the filtration stop step and the filtration stop step, the fine particles of the filter filtration unit are rotated through the filter filtration unit. When the dehydration operation step in which only the dehydration discharge unit is opened for dehydration, the dehydration operation step is stopped, the fine particle desorption unit and the high-pressure injection nozzle unit operate up and down for desorption of the fine particles located inside the filter filtration unit, while the filter filtration unit It can be operated in a method comprising a filter filter unit regeneration step of rotating operation and a fine particle discharge step of transporting, storing and discharging the fine particles desorbed in the filter filter unit regeneration step.

In addition, the vertical movement of the fine particle detachment unit and the high pressure injection nozzle unit is uniform, and reciprocating motion may be possible to achieve the purpose of detachment, and through this operation, it is possible to solve the clogging of the filtration filter pores by the fine particles, and this Through this, it is possible to maintain the filter pores of the filtration filter in the initial state of the filtration operation, so that the regeneration efficiency can be increased.

Although the present invention has been described in detail through representative embodiments above, those of ordinary skill in the art to which the present invention pertains can make various modifications to the above-described embodiments without departing from the scope of the present invention. will understand

Therefore, the scope of the present invention should not be limited to the described embodiments and should be defined by the claims described below as well as the claims and equivalents.

100: discharge water inlet and outlet
200: filter filtration unit
210: rotation motor
220: power transmission means
300: filtered water discharge unit
310: porous filter
400: dehydration discharge unit
500: fine particle detachment unit
510: scraper
520: brush
530: length adjustment means
540: talibu head
550: cylinder
560: cylinder fixing means
600: high-pressure injection nozzle unit
610: double pipe
620: nozzle fixing means
700: fine particle discharge unit
710: screw
720: screw motor
730: storage bag
740: rotary valve
800a, 800b, 800c: flow control valve
900a, 900b: Hall
1000a, 1000b: sealing member

Claims (7)

cylindrical case;
Discharge water inlet and discharge unit 100 for introducing and discharging the discharged water containing fine particles in the case;
A rotational operation is possible in a cylindrical shape to filter fine particles contained in the discharged water introduced into the case, and for the rotational operation, a rotary motor 210 on one side, one side of the rotary motor and one side of the filter filtration unit are connected, , a filter filtration unit 200 including a power transmission means 220 for transmitting the power generated from the rotary motor;
The lower part of the filter filtration unit has an open shape so that the discharged water can be introduced, and the side includes a porous filter 310 along a cylindrical shape,
a filtrate discharge unit 300 for discharging the filtrate that has passed through the filter filtration unit;
After the untreated discharged water inside the filter filtration unit is discharged to the discharged water inlet/discharge unit, the filter filtration unit is rotated by the rotary motor to dehydrate the moisture contained in the fine particles, and dehydration for discharging the dehydration generated in the dehydration operation process discharge unit 400;
After the dehydration operation is completed, it includes at least one of a scraper 510 and a brush 520 for desorbing the fine particles filtered inside the filter filtration unit, and any one or more of the scraper and the brush is the filter The fine particle detachment unit 500 including a length adjustment means 530 to allow the length adjustment to be in contact with one side of the porous filter of the filtration unit;
It includes holes (900a, 900b) on one side of the case and the filter filtration unit,
A cylinder that is connected to one side of the fine particle detachment unit in a rod shape penetrating the hole and includes a pump for operating the length adjusting means, a cylinder connected to the other side of the detachment unit head and capable of vertical movement. (550), including a cylinder fixing means (560) for fixing the cylinder to the case,
A high-pressure injection nozzle unit 600 consisting of a double pipe 610 for spraying air and water at high pressure from the outside to the inside of the porous filter of the filter filtration unit from which the fine particles are desorbed through the fine particle desorption unit;
The high-pressure injection nozzle unit is fixed through a nozzle fixing means 620 connected to one side of the detachment unit head,
A fine particle filtration device comprising a; a fine particle discharge unit 700 for discharging the desorbed fine particles by being located at the lower end of the filter filtration unit.
According to claim 1,
A fine particle filtering device comprising a flow rate control valve (800a, 800b, 800c) for controlling the flow rate in at least any one of the discharged water inlet and outlet, the filtered water outlet and the dewatering outlet.
According to claim 1,
A fine particle filtering device including a sealing member (1000a, b) for fixing the filter filtration unit and the fine particle detachment unit inside the case.
According to claim 1,
The filter filtration unit is a fine particle filtering device that rotates the fine particle detachment unit during vertical operation.
According to claim 1,
The fine particle discharge unit includes a screw 710 for transporting the detached fine particles, a screw motor 720 for driving the screw, a storage bag 730 for storing the fine particles transported by the screw, and the screw Fine particle filtering device further comprising a rotary valve 740 for controlling the amount of the fine particles transferred through the storage in the storage bag.
According to claim 1,
The fine particle filtering device is a fine particle filtering device for removing fine particles generated in the gasifier in connection with the gasifier in the gasifier using a gasification reaction.
7. The method according to any one of claims 1 to 6,
The fine particle filtering device is
A discharged water inlet step in which the discharged water inlet and outlet is opened to introduce the discharged water containing fine particles into the case, and the filtered water discharge unit and the dehydrated discharge unit are opened to facilitate the inflow;
a filtration step in which the dewatering discharge unit is closed when the inflow of the discharged water is completed, the discharged water inlet/discharge unit continuously introduces the discharged water, and the filtered water discharge unit is opened to discharge the filtered discharged water;
a filtration stopping step in which the filtration step is stopped, the discharged water is discharged through the discharged water through the discharged water inlet/discharge unit, the filtered water discharge unit is closed, and the dewatering discharge unit is opened;
a dehydration operation step in which only the dehydration discharge part is opened for dehydration of the fine particles of the filter filtration part through rotation of the filter filtration part after all of the discharged water is discharged in the filtration stop step;
When the dehydration operation step is stopped, the filter filtration unit regeneration step in which the filter filtration unit rotates while the fine particle desorption unit and the high-pressure injection nozzle unit operate vertically for desorption of the fine particles located inside the filter filtration unit; and
and a fine particle discharging step of transporting, storing and discharging the fine particles desorbed in the filter filtering unit regeneration step.

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