KR20090099943A - Cohesion equipment with prevention function of blocking - Google Patents

Abstract

PURPOSE: A mixing coagulation device of a conduit shape having clogging prevention function is provided to improve mixing performance of a coagulant and sludge by forming a separate jacket to mix a coagulant with the sludge through a plurality of injection nozzles. CONSTITUTION: A mixing coagulation device of a conduit shape having clogging prevention function includes a main pipe(100), a double pipe(200), a triple pipe(300), and a jacket(400). The main pipe is a hollow pipe. A plurality of injection nozzles(130) are equipped on an outer circumference of a supply pipe. A first baffle(140) having a semicircular arc shape is divided to a longitudinal direction of the outer circumference. The double pipe forms to accommodate the main pipe to an inner side. A first transfer pipe(240) is formed on an inner surface of the double pipe. A second baffle(230) is formed to the longitudinal direction of the outer circumference of the double pipe. The triple pipe is formed to accommodate the double pipe. The triple pipe includes a drainpipe(320) formed on the other side. The jacket is combined on a side of the triple pipe. The jacket includes a plurality of injection holes(410) to flow a coagulant uniformly.

Description

Cohesion equipment with prevention function of blocking

In the present invention, a coagulant is additionally added to improve the dehydration efficiency in a centrifuge or a centrifugal dehydrator. However, the coagulation reaction is not smooth and the coagulant is excessively charged and the efficiency is increased. In order to improve, it is necessary to increase the specific gravity by effectively flocculating the sludge in advance, and the device is formed to optimize the flocculation efficiency (agglomeration reaction) in advance, and the double and triple pipes are based on the internal main pipe of the device. The furnace is formed so as to surround the stack, but a kind of flow path and a transfer path are formed between the pipe lines, and the transfer path is formed such that a plurality of semi-circular flat baffles are zigzag arranged at left and right spaced apart positions along a longitudinal direction. In this case, a plurality of input nozzles containing coagulant may be mixed with the sludge by the main pipe. By forming a separate jacket to inject, it improves the mixing performance of the sludge and the flocculant and strongly promotes the vortex flow by the zigzag flow of the sludge to be conveyed, the sludge which is sufficiently mixed with the flocculant by the vortex flow In this state of completion, the centrifugal force is effectively applied to the centrifuge to form an excellent effect of solid-liquid separation, whereas the semi-circular baffle structure blocks the flow with a vertical blade unlike a general line mixer. No baffles are formed to prevent clogging due to hair and fiber jams, which can be achieved by using only the appropriate amount of flocculant required for the flocculation reaction to achieve optimal flocculation and to reduce cost and surplus. Disruption of the flocculant into the desorption solution, impeding the separation process It relates to a conduit-type mixing agglomeration apparatus having a clogging prevention function, characterized in that it is formed to improve the generation.

In general, the centrifugal solid-liquid separator induces solid-liquid separation and dehydration of solids in the sludge at the last stages of sewage and wastewater treatment plants, while dewatering the sludge to form a sludge cake for final disposal. The cake is landfilled or incinerated.

Recently, as the wastewater treatment plant has been advanced, the proportion of sludge (solid matter) that needs to be surplus has been reduced, so that a flocculant is injected into the sludge pipeline by the conventional method. In this way, the efficiency of the solid-liquid separation of the sludge is rapidly reduced, which makes it difficult to centrifuge. For this purpose, in order to improve the centrifugation efficiency due to the difference in specific gravity in the centrifugal dehydrator, the specific solid is pre-aggregated to increase the specific gravity. There is a great demand for injection into a centrifugal dehydrator.

For the effective flocculation of the flocculant and the sludge, the sludge and the flocculant are well mixed and after a certain reaction time, the normal flocculation occurs. The following problems occur in the conventional centrifugal dehydrator.

1) The flocculant injected into the sludge supply line cannot be mixed on the characteristics of the pipeline (high density and laminar flow) of the simple conveying method, but is transferred to the centrifuge body so that the mixing, flocculation and centrifugal processes can be simultaneously performed inside the centrifuge. The dehydration efficiency is lowered.

2) In the process of simultaneously performing the mixing, flocculation and centrifugation processes, the centrifugation efficiency is inevitably lowered, and a large amount of flocculant is added to compensate for this.

3) This excessive input of flocculant not only causes economic loss but also hinders the process of the process due to the large amount of surplus flocculant remaining in the solid-liquid stripping solution.

4) In order to solve this problem, a separate line mixer is used. However, due to the characteristics of the treatment plant, it is difficult to use it due to blockage of the pipe due to the influx of fiber and hair.

The present invention is to solve the above problems, the technical gist is formed to optimize in advance the coagulation efficiency (agglomeration reaction) of the sludge flowing into the centrifuge, the double and The triple pipe is formed so as to surround the layer, but a kind of flow path and a transport path are formed between the pipes, while a plurality of semi-circular flat baffles are zigzag arranged in the left and right spaces along the longitudinal direction. And forming a separate jacket for injecting a plurality of input nozzles with the coagulant so that the main pipe is mixed with the sludge, thereby improving the mixing performance of the sludge and the coagulant and strongly encouraging the vortex flow of the sludge to be conveyed. The sludge, which has been sufficiently mixed with the flocculant by the vortex flow, has completed the flocculation reaction. As a state, it is formed to obtain an excellent effect of solid-liquid separation by being given an effective centrifugal force when transferred to a centrifuge, while the semi-circular baffle structure does not block the flow with a vertical blade unlike a general line mixer. As the baffles are formed to prevent clogging due to jams or fibers, the optimum flocculation is achieved by using only the appropriate amount of flocculant necessary for the flocculation reaction. It is an object of the present invention to provide a conduit-type mixed agglomeration apparatus having a clogging prevention function, characterized in that it is formed to improve the occurrence of obstacles in the water treatment process is discharged to the liquid.

In order to achieve the above object, the present invention is configured in a multi-pipe shape, but is provided on one side of the centrifugal separator in the blockage-type mixed agglomeration apparatus without clogging formed by mixing the coagulant to increase the flocculation efficiency of the sludge The supply pipe 110 is formed on one side as a hollow tube, and the first through hole 120 is formed on the other side, and a plurality of input nozzles 130 are arranged on the outer circumferential surface of the supply pipe 110 at equal intervals. A main pipe line 100 arranged in the longitudinal direction such that the first baffle 140 having a semi-circular shape is divided at equal intervals and spaced apart from each other alternately in left and right positions zigzag along the longitudinal direction; The main pipe 100 is formed to accommodate the inside, but one side end is sealed to form the first flow path 210 on the first through hole 120 side, and the second through hole 220 is formed on the other side, while the inner circumferential surface The second baffle 230 having a semi-circular shape in the longitudinal direction of the outer circumferential surface is provided to be partitioned at equal intervals set in contact with the outer circumferential surface of the first baffle 140 to form the first transport path 240. A dual pipe line 200 which is partitioned at equal intervals and arranged to be spaced apart from each other alternately in left and right positions in a zigzag direction along a longitudinal direction; It is formed to accommodate the dual pipe 200 inside, one side end is sealed to form a second flow path 310 on the second through-hole 220 side and the drain pipe 320 is formed on the other side while the inner peripheral surface A triple pipe path 300 which is partitioned at equal intervals set in contact with an outer circumferential surface of the double baffle 230 to form a second transfer path 340; A plurality of input holes 410 are coupled to one closed side of the third conduit 300 to accommodate the injection nozzle 130 of the main pipe therein so that a predetermined amount of flocculant is uniformly injected. The jacket 400 is formed; It is made up.

At this time, the injection nozzle 130 of the main pipe line is installed on the outer circumferential surface of the main pipe line 100 is preferably formed in plurality at intervals such as 90 ° along the circumferential direction.

In addition, the conduit-type mixing agglomeration apparatus having the clogging function is preferably formed to be provided as an integrated system coupled to the pre-process of the centrifugal solid-liquid separator.

As such, the present invention is formed so that the double and triple pipes are wrapped around the inner main pipe of the apparatus, but a kind of flow path and a transfer path are formed between the pipes, while the transfer path has a plurality of semi-circular arcs. The plate baffle is formed to be zigzag arranged in the left and right spaced apart positions along the longitudinal direction, and the sludge and the coagulant are mixed by forming a separate jacket for injecting the coagulant into the sludge to allow the main nozzle to be mixed with the sludge. Enhance the performance and strongly promote the vortex flow of the sludge to be conveyed, and the sludge which has been sufficiently mixed with the flocculant by the vortex flow is a state in which the flocculation reaction is completed, and the centrifugal force is effectively applied when the sludge is transferred to the centrifuge. The baffle structure of semi-circular shape Unlike a typical line mixer, it does not block the flow with a vertical blade, so it does not cause hair or fiber jams, and forms a baffle to prevent clogging due to the jam. Even when used, it is possible to achieve an optimal aggregation to reduce the cost as well as to improve the occurrence of a disturbance in the water treatment process as the excess flocculant is discharged to the desorption liquid.

The following describes the present invention in more detail with reference to the accompanying drawings.

First, as shown in FIG. 1, the present invention is a centrifugal solid-liquid separation device in which a flocculant is mixed for optimization of sludge before inflow of sludge, but the mixing performance and the conveyance efficiency of the sludge are improved without being blocked. Forming the device, which consists of the main pipe line 100, double pipe line 200, triple pipe line 300 and the jacket 400.

Thus, the main pipe line 100 is a hollow tube, the supply pipe 110 is formed on one side and the first through-hole 120 is formed on the other side, the plurality of input nozzles 130 arranged at equal intervals on the outer peripheral surface of the supply pipe 110 side. ) Is provided, but the first baffle 140 having a semicircular shape is partitioned at equal intervals in the longitudinal direction of the outer circumferential surface, and the left and right positions are alternately spaced apart alternately in zigzag along the longitudinal direction.

At this time, the flocculant injection nozzle 130 in the main pipe line is an embodiment, it is preferably installed on the outer circumferential surface of the main pipe line 100 is formed in three places at equal intervals 90 ° along the circumferential direction.

This is to allow effective mixing with respect to the sludge in which the coagulant introduced through the coagulant inlet hole 410 of the jacket is conveyed in one direction, so that the coagulant is mixed with the sludge at the same intervals.

At this time, the first baffle is installed in the longitudinal direction of the outer circumferential surface of the main pipe, and divided into left and right, for example, when one first baffle is fixed to the end side, the first baffle is left on the next right side. The first baffle is formed to have a predetermined section.

Repeatedly, the first baffle forms a zigzag shape on the outer circumferential surface of the main pipe, which causes the inner circumferential surface of the double pipe to form a constant first flow path and a first feed path when the double baffle is stored below. The sludge to be conveyed is formed to be conveyed, causing flocculants and vortices (screw threaded rotation).

At this time, the interval between the first baffle (interval) is formed to best induce mixing with the flocculant so as to cause vortices in the flow of the sludge.

On the other hand, the double pipe 200 is formed to accommodate the main pipe 100, the one end is sealed to form a first flow path 210 on the side of the first through hole 120 and the second through the other end While 220 is formed, the inner circumferential surface is partitioned at equal intervals set in contact with the outer circumferential surface of the first baffle 140 to form the first transfer path 240, but has a semi-circular arc shape in the longitudinal direction of the outer circumferential surface. The baffles 230 are partitioned at predetermined equal intervals and are arranged to be spaced apart from each other by alternating left and right positions in zigzag along the longitudinal direction.

At this time, the second baffle is installed in the longitudinal direction of the outer circumferential surface of the double conduit to explain this divided into left and right as an example, when one second baffle is fixed to the end side, the second baffle is the next right side The left second baffle is formed to have a predetermined section.

Repeatedly, the second baffle forms a zigzag shape on the outer circumferential surface of the double conduit, which causes the inner circumferential surface of the triple conduit to have a constant second flow path and a second conveyance path when stored in the triple conduit described below. The sludge to be conveyed is formed to be conveyed while being mixed while causing flocculants and vortices (screw threaded rotation).

At this time, the section (interval) between the second baffles is formed to cause vortices in the flow of the sludge so as to best induce mixing with the flocculant.

In addition, the triple pipe passage 300 is formed to accommodate the double pipe passage 200 inside the one end is sealed to form a second flow passage 310 on the second through-hole 220 side and the drain pipe on the other end ( 320 is formed while the inner circumferential surface is partitioned at equal intervals set in contact with the outer circumferential surface of the second baffle 230 to form the second transfer path 340.

At this time, the second flow path and the second baffle are formed such that the sludge to be conveyed is conveyed while being mixed and causing a flocculant and a vortex (screw threaded).

At this time, the drain pipe is connected to the centrifugal solid-liquid separator is aggregated to increase the specific gravity is formed to transfer the sludge to the centrifuge on the sludge optimized for centrifugation.

In addition, the jacket 400 is coupled to the closed one side of the third pipe line 300 is formed to accommodate the injection nozzle 130 of the main pipe inside the plurality of input to one side so that a certain amount of flocculant is uniformly injected. The ball 410 is formed.

At this time, the jacket is formed so that the main pipe is passed through the center through the body through the through hole without interference, and the coagulant is smoothly supplied to the input nozzle.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

1 is an exemplary view showing an installation configuration of the mixing flocculator according to the present invention,

Figure 2 is a side view showing a state in which the sludge and the flocculant of the mixed flocculation apparatus according to the present invention is mixed and conveyed,

Figure 3 is a side view showing a main pipeline of the present invention,

4 is another side view of FIG. 3;

5 is a side view showing the first and second baffles of the present invention;

Figure 6 is a side view showing a double pipe of the present invention,

Figure 7 is a side view showing a triple pipe of the present invention.

<Description of Symbols for Major Parts of Drawings>

100 ... main line 110 ... supply line

120 ... First hole 130 ... Input nozzle

140 ... first baffle 200 ... double pipe

210 ... first euro 220 ... second

230 ... 2nd baffle 240 ... 1st feed route

300 ... triple pipe route 310 ... second euro

320 ... drain pipe 340 ... second feed route

400 ... jacket 410 ... hole

Claims (3)

In the conduit-type mixed agglomeration apparatus which is formed in a multi-pipe shape, but is provided on one side of the centrifugal separator to be formed by mixing the coagulant to increase the cohesive efficiency of the sludge, As the hollow tube, the supply pipe 110 is formed on one side, and the first through hole 120 is formed on the other side, and the plurality of input nozzles 130 arranged at equal intervals are provided on the outer circumferential surface of the supply pipe 110 and the length of the outer circumferential surface is provided. The main pipe line 100 is arranged in such a way that the first baffle 140 having a semi-circular shape is divided at equal intervals, and are spaced apart from each other alternately in left and right positions in a zigzag direction along the longitudinal direction; The main pipe 100 is formed to accommodate the inside, but one side end is sealed to form the first flow path 210 on the first through hole 120 side, and the second through hole 220 is formed on the other side, while the inner circumferential surface The second baffle 230 having a semi-circular shape in the longitudinal direction of the outer circumferential surface is provided to be partitioned at equal intervals set in contact with the outer circumferential surface of the first baffle 140 to form the first transport path 240. A dual pipe line 200 which is partitioned at equal intervals and arranged to be spaced apart from each other alternately in left and right positions in a zigzag direction along a longitudinal direction; It is formed to accommodate the dual pipe 200 inside, one side end is sealed to form a second flow path 310 on the second through-hole 220 side and the drain pipe 320 is formed on the other side while the inner peripheral surface A triple pipe path 300 which is partitioned at equal intervals set in contact with an outer circumferential surface of the double baffle 230 to form a second transfer path 340; A plurality of input holes 410 are coupled to one closed side of the third conduit 300 to accommodate the injection nozzle 130 of the main pipe therein so that a predetermined amount of flocculant is uniformly injected. The jacket 400 is formed; Pipe-type mixed agglomeration device having a clogging prevention function, characterized in that the configuration is made. According to claim 1, wherein the injection nozzle 130 to the main pipe Pipeline type mixing and agglomeration apparatus having a blockage preventing function, characterized in that the plurality is formed on the outer circumferential surface of the main pipe line 100 at intervals such as 90 ° along the circumferential direction. According to claim 1 or 2, wherein the conduit-type mixing agglomeration device having a clogging function Pipeline type mixing and agglomeration apparatus having a blockage preventing function, characterized in that formed in the integrated system coupled to the pre-process of the centrifugal solid-liquid separator.

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