KR101021434B1 - Manufacturing Apparatus of Lime Solution - Google Patents

Abstract

The present invention relates to an apparatus for producing slaked lime saturated water. The apparatus for producing saturated lime water according to the present invention is a hydrated lime mixing tank for continuously supplying hydrated lime mixed with powdered lime in dissolved water, and a mixing chamber supplied with hydrated lime from the hydrated lime mixing tank, and hydrated lime sludge precipitated from hydrated lime. A saturation chamber having a sedimentation chamber for feeding the mixture into the mixing chamber through the sludge inlet and a saturated water generating chamber for generating saturated water from the hydrated lime sludge precipitated, and a storage tank connected to the saturator to store the saturated water generated from the saturator; And a saturated water supply unit for supplying the saturated water stored in the storage tank to the purified water. According to the present invention, the hydrated lime sludge generated from the hydrated lime is precipitated in the sedimentation chamber is introduced into the mixing chamber through the sludge inlet, it is possible to recycle the slaked lime sludge without a separate device.

Hydrated water supply, saturator, reservoir, saturated water supply, hydrated lime, sludge, saturated water

Description

Manganese lime saturated water production apparatus {Manufacturing Apparatus of Lime Solution}

The present invention relates to an apparatus for producing saturated lime water, and more particularly, to an apparatus for preparing saturated lime water that can recycle slaked lime sludge without a separate device by introducing into the mixing chamber the purified lime sludge generated from the precipitated lime water. It is about.

Typically, the saturator uses filler fingers to sink insoluble material and heavy flocs in the hydrated water and pass pure saturated water to create saturated water (turbidity: 30 NTU) with little microsuspension insoluble matter.

The filler finger is provided with a cylindrical body and a hat-shaped suppressor plate on the upper side of the body, and the inside of the cylindrical body is filled with a suppression filler (eg, a sphere or a tube made of polypropylene or polyethylene material).

Such a saturator has a low dissolution rate (about 0.16%) of hydrated lime, and causes a problem in that the saturator itself does not operate when a large amount of slaked lime is generated. In addition, the separate treatment is difficult to act as a limiting factor in the stable operation of the relevant facilities, and if the slaked lime sludge is not smoothly processed, it is impossible to continuously operate the slaked lime saturated water production apparatus.

Therefore, the slaked lime sludge settled inside the saturator is discharged to the outside, or the situation is required to recycle the inside of the saturator.

The present invention has been made in order to solve the problems of the prior art described above, by recycling the hydrated lime sludge without a separate device by introducing the hydrated lime sludge generated in the process of becoming saturation water and precipitated in the sedimentation chamber inside the saturator into the mixing chamber Since the sedimentation space can be effectively secured and the sintered lime saturated water production apparatus which can operate continuously is the objective.

In addition, by connecting a circulating pump to the saturated water generating chamber inside the saturator, the hydrated lime producing apparatus can be continuously operated by mixing the slaked lime sludge precipitated in the saturated water generating chamber with the dissolved water and supplying it to the mixing chamber again. The purpose is to provide.

In addition, it is an object of the present invention to provide an apparatus for producing saturated limestone water that can increase the solubility of the limestone sludge and ultimately reduce the amount of slaked lime sludge by recycling the limestone sludge settled in the saturated water generation chamber and the precipitation chamber inside the saturator. .

The apparatus for producing saturated water of the present invention according to the above object is a hydrated water mixing tank for continuously supplying hydrated water obtained by mixing powdered lime with dissolved water, and a mixing chamber in which the hydrated water is supplied from the hydrated water mixing tank. A saturation chamber having a precipitation chamber for introducing the slaked lime sludge precipitated from the sludge inlet to the mixing chamber and a saturated water generating chamber for generating saturated water from the slaked lime sludge in which the slaked lime sludge is precipitated, and the saturator connected to the saturator. And a storage tank for storing the saturated water generated therefrom, and a saturated water supply unit for supplying the saturated water stored in the storage tank to a purified water.

The apparatus for producing saturated water of the present invention may further include a circulation pump connected to the saturated water generating chamber of the saturator to pump the slaked lime sludge precipitated in the saturated water generating chamber to be re-injected into the mixing chamber.

The saturator surrounds the mixing chamber, the precipitation chamber, and the saturated water generating chamber, and the bottom surface includes a saturator body having an inclined surface concave in the direction of the central axis, and hydrated recovery water for supplying the hydrated waste stored in the hydrated mixing tank to the mixed chamber. A sludge suction port is formed at an edge contacting the supply pipe, the mixing chamber and the settling chamber at an inclined bottom surface, and a center thereof is opened, and a sludge suction port is formed at an edge contacting the saturator body to prevent the slaked lime sludge settled in the settling space. An agitating blade formed at one end of the agitating shaft vertically coupled to the saturator body cover to be inserted into the mixing chamber, the agitating blades installed in the mixing chamber isolated by the isolating wall, and inserted into the open center of the isolating wall to stir the agitation. The upper and lower portions surrounding the shaft are located in the center tube, and the inside of the center tube, the stirring Auxiliary paddle is formed in the to generate a flow rate for raising the slaked lime sludge introduced through the sludge inlet to the upper portion, and a peripheral tube surrounding the central tube and the lower opening is in communication with the precipitation chamber, the saturator above the precipitation chamber A perforated plate installed obliquely to the outside of the body to cover the settling chamber, a filler finger inserted into each hole of the perforated plate to filter the calcined lime to generate saturated water, and the calcined lime passed through the filler finger It may include a saturated water intake tube for taking water.

In the present invention, the slaked lime is generated in the process of becoming saturated water and the slaked lime sludge precipitated in the sedimentation chamber inside the saturator can be recycled to the mixing chamber without any additional device, thereby effectively securing the settling space and allowing the slaked lime. Continuous operation of the saturated water production apparatus is possible.

In addition, by connecting a circulating pump to the saturated water generating chamber inside the saturator, the slaked lime sludge precipitated inside the saturated water generating chamber is mixed with the dissolved water and supplied to the mixing chamber, thereby enabling stable operation of the saturated lime producing apparatus. It is possible to operate.

In addition, by recycling the slaked lime sludge settled in the saturated water generating chamber and the settling chamber inside the saturator to increase the solubility of the slaked lime sludge ultimately to reduce the amount of slaked lime sludge, it is possible to prevent the overload of the purified water treatment process, It can reduce the burden on workers and enable stable water treatment plant operation.

Hereinafter, with reference to the accompanying drawings will be described in detail an embodiment of the present invention. However, in describing the embodiments, descriptions of technical contents that are well known in the technical field to which the present invention belongs and are not directly related to the present invention are omitted. This is to more clearly communicate without obscure the core of the present invention by omitting unnecessary description.

On the other hand, in the accompanying drawings, some components are exaggerated, omitted, or schematically illustrated, and the size of each component does not fully reflect the actual size. Like reference numerals refer to like or corresponding elements throughout the accompanying drawings.

Referring to FIG. 1, the apparatus for producing slaked lime saturated water according to the first embodiment of the present invention is as follows. 1 is a schematic diagram of an apparatus for producing slaked lime saturated water according to a first embodiment of the present invention.

The slaked lime saturated water production apparatus 100 according to the first embodiment of the present invention includes a slaked lime mixing tank 10, a saturator 20, a storage tank 60, and a saturated water supply unit 70.

The calcined lime mixing tank 10 continuously supplies the calcined lime mixed with powdered lime and dissolved water to the saturator 20.

The saturator 20 includes a mixing chamber (not shown), a precipitation chamber (not shown), and a saturated water generating chamber (not shown). The mixing chamber receives the hydrated water from the hydrated water mixing tank 10, and the precipitation chamber is The hydrated lime feed to the mixing chamber is pulled up to settle the hydrated lime sludge. A sludge suction port is formed at the boundary between the precipitation chamber and the mixing chamber so that the slaked lime sludge precipitated in the precipitation chamber is introduced into the mixing chamber and recycled. In addition, the saturated water generating chamber is a space for generating saturated water by filtering the slaked water. The saturator 20 will be described in more detail later.

The reservoir 60 is connected to the saturator 20 to store the saturated water filtered from the saturator 20.

The saturated water supply unit 70 supplies saturated water stored in the storage tank 60 to purified water.

Referring to FIGS. 1 and 2, the saturator of the apparatus for producing slaked lime saturated water according to the first embodiment of the present invention is as follows. FIG. 2 is a view showing an apparatus for producing slaked lime saturated water specifically showing the saturator of FIG. 1.

The saturator 20 is the saturator body 21, the hydrated water supply pipe 29, the isolation wall 31, the stirring shaft 35, the stirring blade 37, the center tube 41, the circumference tube 43, It comprises a porous plate 45, the filler finger 47 and the saturated water intake pipe 49, and further comprises an auxiliary paddle (39).

The saturator body 21 is a conical tank whose bottom surface is concave inclined in the direction of the central axis. The saturator body 21 has a lower mixing chamber (S1), a middle precipitation chamber (S2), and an upper saturated tank (S3). )

The hydrated water supply pipe 29 is a pipe connecting the hydrated water mixing tank 10 and the mixing chamber S1, and supplies the hydrated water mixed in the hydrated water mixing tank 10 to the mixing chamber S1.

The isolation wall 31 is installed obliquely toward the inclined bottom surface at a portion where the mixing chamber S1 and the precipitation chamber S2 are in contact with each other to isolate the mixing chamber S1, and the center is opened. The hydrated water is introduced into the mixing chamber S1 separated by the isolation wall 31 through the hydrated water supply pipe 29.

In addition, the separation wall 31 is formed with a sludge suction port 33 for introducing the slaked lime sludge 51 from the precipitation chamber S2 into the mixing chamber S1.

The stirring shaft 35 is vertically coupled to the cover 22 of the saturator body 21 and rotated by the motor 40.

The stirring blade 37 is installed in the mixing chamber S1 separated by the isolation wall 31 in a direction perpendicular to the stirring shaft 35, and rotates together with the stirring shaft 35 to rotate the hydrated water supply pipe ( 29) stirring the hydrated water flowing into the mixing chamber (S1). The hydrated water supplied to the mixing chamber S1 by the stirring blade 37 is drawn upward.

The central tube 41 is fitted in the longitudinal direction to the opening formed in the center of the isolation wall 31 to surround the stirring shaft 35 and has an upper and lower shape. The hydrated lime recovered in the mixing chamber (S1) is raised upward through the center tube (41).

The auxiliary paddle 39 is installed in a direction perpendicular to the stirring shaft 35 so as to be located in the center tube 41, and rotates together as the stirring shaft 35 rotates to form a mixing chamber through the sludge suction port 33. Generates a flow rate to raise the slaked lime sludge re-injected to S1).

The circumferential tube 43 surrounds the central tube 41 and the lower portion thereof is in communication with the settling chamber S2. The circumferential tube 43 flows down into the settling chamber S2 by lowering the number of slaked water raised through the central tube 41. Let's do it.

The porous plate 45 is inclined obliquely in an outward direction of the saturator body 21 above the precipitation chamber S2 to cover the precipitation chamber S2. The porous plate 45 is provided with a plurality of holes for passing the slaked water.

Filling finger 47 is inserted into each hole of the porous plate 45, the hatch-shaped suppression plate is installed on the upper side of the cylindrical body. The inside of the cylindrical body is filled with anti-rise filler. As a synergistic filler, spheres or tubes made of, for example, polypropylene or polyethylene materials are used.

Thereafter, the saturated water is raised and the slaked lime sludge 51, such as an insoluble substance or a heavy floc, is slowly lowered by suppressing the rise. The slaked lime sludge 51 is accumulated in the settling chamber (S2).

At this time, the slaked lime sludge 51 accumulated in the precipitation chamber S2 is introduced into the mixing chamber S1 through the sludge suction port 33 formed at the contact portion between the isolation wall 31 and the saturator body 21. The sludge suction port 33 may be a plurality of through holes formed in a portion where the isolation wall 31 and the saturator body 21 contact each other, or may have a hole shape formed along an edge of the isolation wall 31. Therefore, the saturated water can be produced easily and simply by recirculating the slaked lime sludge 51 accumulated in the settling chamber S2 without requiring a separate device inside or outside the sludge saturator 20.

Saturated water intake pipe 49 is installed on the upper side of the filling finger 47, and collects the saturated water passing through the filling finger 47.

As described above, in order to precipitate the slaked lime sludge 51 from the saturated lime water supplied into the saturator 20 and to prepare the saturated water, an isolation wall separating the mixing chamber S1 and the settling chamber S2 ( Sludge suction port 33 is formed in 31 to separate the slaked lime sludge 51 precipitated in the settling chamber (S2) into the mixing chamber (S1) to be circulated again by the separate device for circulating the slaked lime sludge (51) It is possible to provide a hydrated lime water production apparatus 100 that can recycle the hydrated lime sludge 51 without requiring.

Referring to FIG. 3, the apparatus for producing slaked lime saturated water according to the second embodiment of the present invention is as follows. 3 is a view showing the apparatus for producing slaked lime saturated water according to the second embodiment of the present invention.

The saturated water production apparatus according to the second embodiment of the present invention connects the circulation pump 180 between the saturator 120 and the hydrated water supply pipe 129. At this time, the circulation pump 180 is connected to the saturated water generating chamber (S3) of the saturator 120 to discharge the slaked lime sludge 151 precipitated in the saturated water generating chamber (S3) to the outside to pump and the hydrated water supply pipe ( 129).

Therefore, the slaked lime sludge 151 is recycled by being supplied to the mixing chamber S1 together with the dissolved water.

As described above, the apparatus for producing saturated lime saturated water 200 according to the second embodiment of the present invention periodically connects the circulation pump 180 to the saturated water generating chamber S3 to pump the hydrated lime sludge 151 periodically, and the sludge intake port. By re-injecting the slaked lime sludge 151 precipitated in the precipitation chamber S2 into the mixing chamber S1 through 133, the settling space of the slaked lime sludge 151 can be secured continuously.

So far, the slaked lime saturated water production apparatus according to the present invention has been described through Examples. In the present specification and drawings, preferred embodiments of the present invention have been disclosed, and although specific terms have been used, these are merely used in a general sense to easily explain the technical contents of the present invention and to help the understanding of the present invention. It is not intended to limit the scope. It is to be understood by those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

1 is a schematic diagram of an apparatus for producing slaked lime saturated water according to a first embodiment of the present invention.

FIG. 2 is a view showing an apparatus for producing slaked lime saturated water specifically showing the saturator of FIG. 1.

3 is a view showing the apparatus for producing slaked lime saturated water according to the second embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: slaked recovery mixing tank 20: saturator

60: reservoir 70: saturated water supply

100: slaked lime saturated water production device

Claims (4)

A slaked lime mixing tank for continuously supplying slaked lime mixed with powdered lime in dissolved water; The mixing chamber receiving the hydrated lime from the hydrated lime mixing tank, the hydrated lime supplied to the mixing chamber is pulled up to precipitate the hydrated lime sludge, and the precipitation chamber for introducing the hydrated lime sludge into the mixing tank through the sludge inlet A saturator having a saturated water generating chamber for filtering saturated water from the slaked lime with precipitated lime sludge; A storage tank connected to said saturator for storing filtered saturation water from said saturator; Saturated water production apparatus comprising a; saturated water supply unit for supplying the saturated water stored in the reservoir to a purified water. The method of claim 1, And a circulation pump connected to the saturated water generating chamber of the saturator to pump the slaked lime sludge precipitated in the saturated water generating chamber and re-injected into the mixing chamber. The saturator of claim 1 or 2, A saturator body surrounding the mixing chamber, the precipitation chamber, and the saturated water generating chamber, the bottom surface of which is an inclined surface concave in the direction of the central axis; A hydrated water supply pipe for supplying the hydrated water stored in the hydrated water mixing tank to the mixing chamber; The sludge lime sludge deposited in the precipitation space is formed in a sludge suction port at an edge contacting the mixing chamber and the settling chamber at an angle to the inclined bottom surface and opening at the center thereof, and the sludge suction port is formed at the edge contacting the saturator body. A separator wall to be introduced; A stirring blade formed at one end of the stirring shaft which is vertically coupled to the saturator body cover and installed in the mixing chamber isolated by the separating wall; A center tube inserted into an open center of the separation wall to surround the stirring shaft, and having an upper and a lower opening; A circumferential tube surrounding the center tube and having a lower portion communicating with the settling chamber; A perforated plate installed on an upper side of the settling chamber to be inclined obliquely in an outward direction of the saturator body to cover the settling chamber; A filler finger inserted into each hole of the porous plate to filter the hydrated water to produce saturated water; Saturated lime water production apparatus comprising a; a saturated water collecting pipe for collecting the slaked lime water passing through the filler finger. The method of claim 3, An auxiliary paddle is disposed in the center tube, and formed in the stirring shaft to generate a flow rate for raising the slaked lime sludge introduced through the sludge inlet to the upper portion;

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