KR101633574B1 - Sludge treatment facility - Google Patents

Abstract

An object of the present invention is to provide a sludge treatment facility capable of spraying wastewater to every corner of a sludge deposited in an sludge hopper. A sludge hopper 2 for storing the sludge 5 conveyed by the truck 8 from the sewage treatment plant or a waste water recovery tank 3 for recovering the sewage 6 when the pipe in the sludge treatment plant 1 is cleaned And a waste water returning mechanism 4 including a waste water return pipe 7 for transferring the waste water from the waste water recovery tank 3 to the sludge hopper 2, (7a) on the sludge hopper (2) side of the sewage return pipe (7) is deposited in the sludge hopper (2) in the sludge processing facility (1) Is placed above the falling position of the sludge funnel 5 into the sludge hopper 2 by the truck 8 so as to spray the sewage 6 to the top 5a of one sludge 5.

Description

[0001] SLUDGE TREATMENT FACILITY [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sludge treatment facility for introducing sewage sludge or the like discharged from a sewage treatment plant into a cement kiln to make cement raw materials.

The present application claims priority based on Japanese Patent Application No. 2012-042786 filed on February 29, 2012, the contents of which are incorporated herein by reference.

BACKGROUND ART [0002] In recent years, as a sludge treatment for sewage sludge discharged from a sewage treatment plant, a technology for cement raw material production by direct inhalation of a sewage sludge cake into a cement clinker firing furnace has been proposed and put into practical use. This technology is to transfer sewage dehydrated sludge treated with 80% moisture into a truck (freight car), put it into a cement kiln which is a cement clinker firing furnace directly with a pressure feeding pump, Is evaporated and burned to sinter the inorganic component material together with the cement raw material as a clinker as an intermediate product of cement.

Such a treatment technique is used as a raw material of an inorganic component in the sewage sludge dehydrating sludge and is used as a part of the raw material of the clay, thereby being converted into a cement raw material so that no secondary waste is removed. Therefore, this cementing raw material technology is an excellent treatment technology for protecting the environment.

Such a treatment technique is disclosed in, for example, Patent Document 1, which discloses a sludge recovery system for recovering wastewater when a sludge tank for storing a sludge or a pipe connected to the sludge hopper is cleaned and transported to a sludge hopper A waste water return pipe connected to the sewage return tank and the sludge hopper; and a sewage return pipe installed in the sewage return pipe, for discharging the sewage return pipe A sludge treatment facility has been proposed in which a sludge return pump for returning sewage in the tank to the sludge hopper is provided and the sludge stored in the sludge hopper is charged into a rotary kiln for treatment.

In the conventional sludge treatment facility, the sludge treatment funnel, which is transported by a truck from a sewage treatment plant, is stored in an sludge hopper, which is a storage tank, through a sludge introducing pipe from the sludge hopper, I was transporting it.

However, when the functional sludge is charged and stored in the sludge hopper by the truck, it is always supplied from the inlet 9 on one side of the sludge hopper 2 as shown in Fig. 5, The functional sludge 5 is not uniformly accumulated but deposited on one side. At this time, in the conventional sludge treatment facility, the water spraying portion 7a of the waste water return pipe 7 for conveying the wastewater 6 from the waste water recovery tank to the sludge hopper 2 functions as a function The wastewater 6 is not mixed with the functional sludge 5 and only the wastewater 6 is mixed with the wastewater 6 because the wastewater 6 is disposed on the other side of the sludge hopper 2 opposite to the one side of the sludge- And the load on the rotary kiln increases when the amount of water in the sludge 5 fluctuates and the amount of water increases when the sludge 5 is charged into the rotary kiln .

In the case of use in winter or in cold weather, the waste water 6 in the waste water recovery tank is frozen, and the waste water return tank and the sewage return pump 2 for transporting the waste water 6 to the sludge hopper 2 There is a possibility that the sewage return pipe or the like may be damaged by freezing the sewage.

In addition, the piping connected to the sludge hopper 2 and the sludge hopper 2 is periodically cleaned with cleaning water, and the cleaning is suitably performed. The wastewater (6) of the washing water generated at this time is transferred to the sludge hopper (2) through the wastewater recovery mechanism and then put into the rotary kiln for processing. However, since the truck 8 that has transported the sludge 5 from the sewage treatment plant exits the sludge treatment facility as it is after putting the sludge 5 into the sludge hopper 2, The function sludge 5 remaining in the load carrier 8a sticks to the load carrier 8a by drying and the load carrier 8a is washed at a different place, .

Japanese Patent Application Laid-Open No. 2002-224692 (A)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a sludge treatment facility that is capable of completely discharging wastewater to sludge accumulated in an sludge hopper.

In order to solve the above problems, the present invention has the following forms.

(1) A sewage recovery tank for recovering sewage when sewage sludge storing the sludge returned by the truck from the sewage treatment plant or piping in the sludge treatment facility is washed, and sewage recovered from the sewage recovery tank to the sludge hopper A sludge treatment facility having a sludge recovery mechanism including a return pipe and treating the sludge sludge stored in the sludge hopper by a cement manufacturing process, Wherein the sludge treatment device is disposed above a falling position of the functional sludge into the sludge hopper by the truck so as to spray the sewage to the top of the sludge deposited in the sludge hopper.

(2) The sewage return pipe according to any one of (1) to (4) above, wherein the water spraying section of the waste water return pipe is disposed horizontally in the pipe, and horizontally disposed at a position spaced downward from the lower end of the water spraying section ).

(3) The sludge treatment facility according to (1) or (2) above, wherein the sewage recovery tank is provided with a circulation device for circulating the stored sewage to prevent freezing.

(4) The sludge treatment facility according to any one of (1) to (3) above, wherein a spraying device for washing the truck with cleansing water after putting the sludge funnel into the sludge hopper is disposed. .

(1) to (4) of the present invention, when the wastewater collected in the wastewater recovery tank is sprinkled in the sludge hopper on which the sludge has accumulated, the water spray portion on the sludge hopper side of the sludge return pipe, Is disposed above the dropping position put in by the truck from the inlet in the sludge hopper. Therefore, the wastewater can sprinkle on the surface along the slope from the top of the sludge having accumulated in the acid form. As a result, it is possible to prevent the wastewater and the sludge from being stored in a separated state.

According to the second aspect of the present invention, in the water spraying part of the sewage return pipe, the water channel in the pipe is arranged in the vertical direction and the obstruction plate is horizontally disposed at a position spaced downward from the lower end of the water spraying part Therefore, the wastewater can be spread all over the entire surface from the top to the end of the sludge having accumulated in the mountain shape. As a result, when the funnel sludge stored in the sludge hopper is charged into, for example, a cement kiln, the sludge having no fluctuation in the amount of water can be input, thereby reducing the burden on the cement kiln.

According to the third aspect of the present invention, there is provided the circulation device for preventing freezing by circulating the stored sewage in the sewage return tank, even when the sludge disposal facility is used in a cold place or the like, It is possible to prevent breakage of the pipes and pumps connected to the waste water recovery tank and the waste water recovery tank.

According to the aspect (4) of the present invention, since the spraying device for washing the truck with the washing water is disposed after the sludge hopper is charged into the sludge hopper, The functional sludge can be easily cleaned by being poured into the sludge hopper and then washed. As a result, the functional sludge can be cleaned before it is dried, and cleaning can be performed with a relatively small amount of washing water.

Further, the wastewater generated at the time of cleaning can be recovered and sent to the waste water recovery tank, whereby the wastewater can be introduced into the cement kiln and treated. Thus, the function sludge remaining in the truck can be easily processed, and the environment can be considered.

BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a schematic structural view showing an embodiment of a sludge treatment facility according to the present invention. FIG.
Fig. 2A shows an embodiment of the sludge treatment plant according to the present invention. A sludge storage facility and a sludge hopper storage facility in an underground pit.
Fig. 2B shows an embodiment of the sludge treatment plant according to the present invention. Fig. 7 is a block diagram of an oily hopper storage facility in an underground pit. Fig.
Fig. 3 is a plan view of the sludge storage device of Figs. 1, 2A and 2B.
4 is a schematic diagram showing the position of the water spray portion on the side of the sludge return pipe of the sludge return pipe in the sludge hopper in one embodiment of the sludge disposal facility according to the present invention.
Fig. 5 is a schematic view showing the position of the water spray portion on the sludge hopper side of the sewage return pipe in the conventional sludge hopper.

1, a sludge treatment facility 1 according to an embodiment of the present invention includes a preheater 23 for preheating cement raw material C and a cement manufacturing facility (cement manufacturing process) having a dry rotary kiln 18. [ A sludge storage facility 15 for storing a truck 8 for transporting the sludge sludge 5 from a sewage treatment plant, a spraying device 11 disposed in the sludge storage facility 15, (3) for collecting and storing the sewage water (6) when the sludge hopper (2) and the sludge hopper (2), which are connected to the sludge hopper (2) A sludge hopper accommodating unit 28 and a sludge inserting mechanism 16 for injecting the sludge from the kiln tail unit 19a side of the dry rotary kiln 18 through a sludge introduction pipe 17 .

The function sludge (5) is a sewage dehydration sludge having a water content of about 80%. Further, this sludge is not pretreated with additive, etc., but it may be pretreated by addition of additives. In the truck 8, for example, a closed-type container-mounted vehicle capable of sealing the function sludge 5 on the platform 8a is used.

Here, the cement manufacturing facility 13 is crushed by the raw material mill (not shown), and a preheater 23 for preheating the cement raw material C fed from the chute S is connected to the kiln rear portion (not shown) of the dry rotary kiln 18 19a through the housing 22 so that the cement raw material C is injected into the rear tail portion 19a through the preheater 23 and the housing 22. [

The preheater 23 includes a cyclone 23a provided in a plurality of stages in the longitudinal direction and a rising duct 23b connecting the cyclones 23a so as to raise the exhaust gas from the dry rotary kiln 18. [ As shown in FIG. In addition, symbol F is a draft fan, and the exhaust gas from the dry rotary kiln 18 is raised through each cyclone 23a and each riser duct 23b to be discharged to the outside.

The dry rotary kiln 18 has a cylindrical kiln shell 19 which is connected to the housing 22 at the kiln rear portion 19a and which is tilted slightly downward to the downstream side and rotationally driven in the peripheral direction, A burner 20 provided on the downstream side of the kiln shell 19 and using heavy oil or pulverized coal as fuel and a clinker cooler 21 provided below the downstream portion of the kiln shell 19. The housing 22 is connected at its upper portion with a rising duct 23b at the lowermost portion of the preheater 23 and the bottom surface 22a is an inclined surface inclined upward toward the upstream side.

The sludge inserting mechanism 16 is provided to inject the functional sludge 5 from the kiln rear portion 19a side of the dry rotary kiln 18. [ The sludge inserting mechanism 16 is connected to the sludge hopper 2 for storing the sludge 5 conveyed by the truck 8 and performs sludge introduction A tube 17 and a sludge inlet 14 provided at an upper end of the sludge introducing pipe 17 from the bottom 22a of the housing 22 for dropping the sludge 5 toward the bottom 22a, . That is, the sludge inlet 14 is formed in the inner wall of the housing 22, which is the connecting portion of the preheater 23 and the rear portion 19a of the kiln.

As shown in Fig. 3, the sludge storage facility 15 is constructed by a building 15b having a substantially square shape in plan view, and trucks 8 from the respective entrance walls in which the building 15b is continuous And is connected to a rectangular sludge storage chamber 15a in a plan view, which allows entrance and exit. In the building 15b, a plurality of nozzles (sprinkling device) 11 for sprinkling cleaning water are installed on a floor 8a of the truck 8, An opening 15c through which the sludge 5 is introduced into the sludge hopper 2 is formed. A cleaning water supply pipe 42 for feeding cleaning water to the nozzle by the truck cleaning water supply pump 40 is connected to the nozzle 11 through a valve 41. A cleaning water supply source (not shown) is connected to the proximal end side of the cleaning water supply pipe 42.

Further, the sludge storage facility 15 has the underground pit 12 buried in the ground below the building 15b. Further, in the underground pit 12, as shown in Fig. 2A, an ozonizer storage facility 28 is disposed. 2B, two sludge hoppers 2 are accommodated in the underground pit 12, and each sludge hopper 2 (bottom structure) Or a sewage recovering mechanism 4 for recovering sewage 6 when the piping connected to each sludge hopper 2 is cleaned and sending it to the sludge hopper 2. The two sludge hoppers 2 each have a lid member 2a that can be opened and closed.

A storage pit 30 for temporarily storing the wastewater 6 is provided at the bottom of the underground pit 12. A recovery pipe 31 connecting the storage pit 30 and the waste water recovery tank 3 via a check valve 31a is connected to the storage pit 30 and is connected to the recovery pipe 31 There is provided a water recovery pump 32 for an underwater pump that sends the wastewater in the storage pit 30 to the wastewater recovery tank 3.

The waste water recovery mechanism 4 recovers the waste water 6 and collects the waste water 6 from the waste water recovery tank 3 and the waste water recovery tank 3, A wastewater conveyance pipe 7 connected to the waste water return pipe 7 and a wastewater conveyance pump 25 which is an underwater pump for sending the wastewater 6 in the wastewater recovery tank 3 to the sludge hopper 2, . Further, a stirring wing (circulation device) 10 is provided at the bottom of the waste water recovery tank 3. The stirring blades 10 are rotatably supported by a drive device (not shown) in order to circulate the collected wastewater 6 to the wastewater recovery tank 3 and prevent the wastewater 6 from freezing Is installed.

4, the water spraying portion 7a through which the waste water 6 on the side of the sludge hopper 2 is discharged is filled with the sludge 5 of the sludge hopper 2 Is disposed above the position at which the functional sludge (5) falls when it is introduced by the truck (8) from the charging inlet (9) for charging. That is, the center of the water spraying portion 7a of the waste water return pipe 7 is disposed at the position of the top 5a of the sludge 5.

The water spraying section 7a of the waste water return pipe 7 is arranged in the vertical direction in the pipe 7b which is the flow passage of the waste water 6. [ The water spraying portion 7a is provided with a baffle plate 7c so that the discharged wastewater 6 is scattered from above the top 5a of the accumulated sludge 5. [ The obstruction plate 7c is horizontally disposed at a position spaced downward from the lower end of the water spraying portion 7a.

Further, the waste water return pipe 7 is connected to the two sludge hoppers 2 via branch pipes 7d interposed therebetween. A check valve 26 and a flexible joint 27 are provided in the middle of the branch pipe 7d. It is also possible to select at least one of the two sludge hoppers 2 so that the waste water transfer switching valve 29 as a transfer switching mechanism capable of transferring the wastewater 6 is disposed in the middle of the branch pipe 7d, 26, respectively.

The sludge introduction pipe 17 branches off from the sludge introduction pipe 17 through the drain valve 33 and is connected to the waste water recovery tank 3 so as to discharge the sewage 6 in the sludge introduction pipe 17, To the waste water recovery tank (3) are connected to the waste water recovery tank (3).

The sludge return pipe 17 is inclined upward from the waste water recovery tank 3 to the dry rotary kiln 18 and is piped have.

The sludge introduction pipe 17 is provided with a cleansing water supply pipe 36 for feeding the cleansing water into the pipe by the cleansing pump 35 on the downstream side of the branching position of the waste water return pipe 34 on the proximal end side, Is connected through a valve (37). A cleaning water supply source (not shown) is connected to the proximal end side of the cleaning water supply pipe 36. The sludge introduction pipe 17 is provided with a scrubber insertion portion 38 for inserting the scrubber into the pipe on the downstream side of the connection portion with the cleansing water supply pipe 36 on the base end side.

This cleaner is a sponge having a spherical shape larger in diameter than the inner diameter of the sludge introduction pipe 17 and impregnated with soapy water. This is because, when a spherical sponge is used, the inside of the pipe can be smoothly pushed smoothly in the portion where the pipe is bent or the inside diameter is changed. Further, by including soapy water, it is easy to enter the tube more smoothly and to proceed more smoothly. The storage pit 30 and the waste water recovery tank 3 are each provided with a level meter 39 for measuring the amount of waste water.

A method of treating the sludge 5 and a method of cleaning a truck carrying the sludge 5 will be described with reference to the sludge treatment facility 1 having the above configuration. 1 indicate the conveying direction of the cement raw material C and the functional sludge 5, and the dashed arrows indicate the direction of gas flow.

The cement raw material C is introduced into the upward duct 23b at the top of the preheater 23 and the cement raw material C is fed from the dry rotary kiln 18 in which the cement raw material C rises from the lowermost riser duct 23b of the preheater 23 Enters the dry rotary kiln 18 which descends while exchanging heat with the exhaust, and rotates through the kiln tail portion 19a. On the other hand, the function sludge (5) conveyed from the sewage treatment plant by the truck (8) is loaded in the sludge storage chamber (15a) of the sludge storage facility (15) The function sludge 5 which has been subjected to the sludge disposal is opened and opened by the lid member 2a of any one of the sludge hoppers 2 and temporarily stored. At this time, the functional sludge 5 loaded on the carrier 8a of the truck 8 is discharged from the inlet 9 of the sludge hopper 2 as shown in Fig. As a result, the functional sludge 5 is always deposited at the same drop position, and the top portion 5a is formed in the shape of a mountain at the inlet 9 side of the sludge hopper 2.

Subsequently, the function sludge (5) stored in the sludge hopper (2) is sent from the sludge introduction pipe (17) to the sludge inlet (14) by the feed pump (24). Then, the pressure sludge 5 fed by pressure is introduced into the dry rotary kiln 18 through the sludge inlet 14. The functional sludge 5 charged into the kiln shell 19 is fired together with the cement raw material C by the heating of the burner 20 to become the cement clinker C1 and the clinker cooler 21 and then discharged.

Further, the clinker C1 is crushed together with the gypsum with a finishing mill (not shown), and becomes the final product cement.

Next, a description will be given of a method for treating the sewage 6 generated during the cleaning of the piping connected to the two sludge hoppers 2 and the sludge hoppers 2.

First, the wastewater 6 generated when the pipes in the sludge hopper 2 and the underground pit 12 are cleaned is collected in the storage pit 30 at the bottom of the underground pit 12, do. The wastewater 6 stored in the storage pit 30 is fed into the waste water recovery tank 3 through the recovery pipe 31 by the wastewater recovery pump 32 and stored therein.

Subsequently, the waste water 6 in the waste water recovery tank 3 is transferred into the sludge hopper 2 by the waste water return pump 25 through the waste water return pipe 7. At this time, the amount of the wastewater 6 to be conveyed is appropriately controlled in accordance with the state of the sludge 5 in the sludge hopper 2 (in particular, the moisture concentration), and the sewage conveyance switching valve 29 is opened The branch pipe 7d for sending the wastewater 6 is selected and at least one of the two sludge hoppers 2 is selected as the destination of the waste water 6. [

When the waste water 6 is fed into the sludge hopper 2 from the waste water return pipe 7, waste water 6 is sprinkled from the water spraying portion 7a of the waste water return pipe 7. At this time, since the water spraying portion 7a is disposed above the top 5a of the sludge 5 accumulated in the sludge hopper 2, the water spraying portion 7a is disposed above the top portion 5a of the sludge hopper 2, So that the wastewater 6 is completely sprinkled from the top 5a to the end of the sludge 5 accumulated in the mountain shape. The wastewater 6 sprinkled on the sludge 5 is mixed with the sludge 5 and the sludge introduction pipe 17 is fed from the sludge hopper 2 to the sludge introduction pipe 17 And is fed into the dry rotary kiln 18 from the sludge inlet 14 through the sludge inlet 14.

A method of treating the sewage 6 when the sludge introducing pipe 17 is washed with the washing water will be described.

First, in order to clean the inside of the sludge introducing pipe 17, the washer is inserted from the washer inserting section 38 into the pipe, the valve 37 is opened, and the washing water pump 36 is connected to the washing water feed pipe 36, The washing water is fed into the sludge introducing pipe 17 through the pipe. At this time, the upstream side of the sludge introduction pipe 17 is closed by a valve (not shown) so that the washing water does not flow to the sludge hopper 2 side, and the drain valve 33 is also closed, Do not flow.

Then, the washing water sent into the sludge introduction pipe 17 pushes the washing machine in the tube to the dry rotary kiln 18, and at the same time, cleans the inside of the tube. After the sludge introduction pipe 17 is cleaned in this manner, the sewage 6 in the sludge introduction pipe 17 is recovered in the waste water recovery tank 3. That is, by closing the valve 37 and opening the drain valve 33, the sewage 6 in the sludge introducing pipe 17, which has been slopingly piped as described above, is discharged to the sewage return pipe 34 by its own weight, And is introduced into the waste water recovery tank 3 through the waste water recovery tank 3. The recovered wastewater 6 is sucked into the sludge 5 in the sludge hopper 2 through the waste water return pipe 7 as described above in accordance with the state of the sludge 5 in the sludge hopper 2 I can live.

A method of cleaning the truck 8 carrying the sludge 5 and a method of treating the sewage 6a generated during the cleaning will be described.

First, the functional sludge (5) conveyed from the sewage treatment plant is put in the sludge storage chamber (15a) of the sludge storage facility (15) and is introduced from one of the two sludge hoppers (2) , The washing water is sprinkled from the plurality of nozzles 11 in a state in which the carrier 8a is inclined. At this time, the lid member 2a of the sludge hopper 2 is closed.

The sludge 5 remaining in the load carrier 8a is cleaned by the washing water sprayed from the plurality of nozzles 11. [ The cleansing water is sent from the supply source of the cleansing water to the nozzle 11 from the cleansing water supply pipe 42 with the valve 41 interposed therebetween by the truck cleansing pump 40. Then, the washing water is sprinkled for a certain period of time, and the functional sludge 5 remaining in the platform 8a is washed away.

The wastewater 6a generated at the time of cleaning flows into the underground pit 12 from the bottom surface of the building 15b of the sludge storage facility 15 and is discharged into the storage pit 30 ), And can collect temporarily as a waste water (6). The wastewater 6 stored in the storage pit 30 is fed into the waste water recovery tank 3 through the recovery pipe 31 by the wastewater recovery pump 32 and stored therein. The wastewater 6 collected and stored in the waste water recovery tank 3 is sucked into the sludge hopper 2 through the waste water return pipe 7 as described above in accordance with the state of the sludge 5 in the sludge hopper 2 2). ≪ / RTI >

As described above, the function sludge 5 sprayed with the wastewater 6 is fed from the sludge hopper 2 to the sludge inlet 14 through the sludge introduction pipe 17 by the feeding pump 24, Is introduced into the dry rotary kiln (18) through the sludge inlet (14), and is fired together with the cement raw material (C).

According to the sludge treatment facility 1 according to the embodiment described above, when the sewage water 6 recovered in the sewage return tank 3 is sprayed into the sludge hopper 2 in which the sludge sludge 5 is deposited, The sprinkling portion 7a on the side of the sludge hopper 2 of the pipe 7 is disposed above the dropping position put in by the truck 8 from the inlet 9 in the sludge hopper that receives the sludge 5 Therefore, the wastewater 6 can sprinkle on the surface along the slope from the top 5a of the sludge 5 in the form of an acid. As a result, it is possible to prevent the waste water 6 and the sludge 5 from being stored in separate states.

The water channel 7b of the water spraying portion 7a of the waste water return pipe 7 is arranged in the vertical direction and the disturbing plate 7c is spaced downward from the lower end of the water spraying portion 7a The wastewater 6 is sprayed from above the top 5a of the sludge 5 in the form of a mountain so that the entire surface from the top 5a to the end of the sludge 5 is spread all over the corner can do. As a result, when the functional sludge (5) stored in the sludge hopper (2) is introduced into the dry rotary kiln (18), the functional sludge (5) It is possible to reduce the burden on the user.

Since the agitating blades 10 for preventing the freezing that circulates the wastewater 6 stored in the waste water recovery tank 3 are rotatably provided on the bottom of the waste water recovery tank 3, 1 can be prevented from being damaged by the freezing of the wastewater 6 and the pipes connected to the waste water recovery tank 3 and the waste water transfer pump 25 .

Since the sludge storing unit 15 is provided with the nozzle 11 for cleaning the load carrier 8a of the truck 8 with the washing water after the funnel sludge 5 is put into the sludge hopper 2, The function sludge 5 left on the load carrier 8a of the truck 8 carrying the sludge 5 can be easily cleaned. As a result, the function sludge 5 can be cleaned before it is dried, and cleaning can be performed with a relatively small amount of washing water.

The waste water 6a generated at the time of cleaning is temporarily stored in the storage pit 30 provided at the bottom of the underground pit 12 and is sent from the storage pit 30 to the waste water recovery tank 3 , And the wastewater 6a into the dry rotary kiln 18 for treatment. Thereby, the processing of the sludge 5 remaining in the truck 8 can be performed easily, and the environment can be considered.

The wastewater 6 at the time of cleaning is stored in the wastewater recovery tank 3 by the wastewater recovery mechanism 4 and the wastewater is discharged from the waste water return pump 25 The amount of the wastewater 6 to be properly conveyed can be controlled and the moisture content of the functional sludge 5 can be adjusted. Therefore, the wastewater 6 can be conveyed into each sludge hopper 2 while adjusting the amount of conveyance, and at the same time, the sludge 5 whose moisture is appropriately adjusted is discharged from the sludge hopper 2 through the dry rotary kiln 18 ), So that it is possible to reduce the burden on the kiln accompanying the increase in the water content.

Since the waste water recovery mechanism 4 is provided with the waste water transfer switching valve 29 capable of selecting at least one of the two sludge hoppers 2 to carry the waste water 6, It is possible to adjust the conveyance to each sludge hopper 2 in accordance with the state of the sludge 5 in the sludge hopper 2.

Since the sewage return pipe 34 for sending the sewage 6 in the sludge introducing pipe 17 to the sewage return tank 3 is provided in the sewage collecting tank 17, 3), so that a large amount of wastewater 6 generated at the time of cleaning the sludge introduction pipe 17 can be easily treated.

Since the sludge introduction pipe 17 is inclined toward the upper side from the waste water recovery tank 3 to the dry rotary kiln 18 and the sewage 6 in the sludge introduction pipe 17 is used as a pump It can be recovered to the waste water recovery tank 3 by its own weight.

In addition, since the funnel sludge 5 or the washing water is fed upward from the lower side of the sludge introduction pipe 17, the air is prevented from falling upward and the air is hardly stored in the pipe, It becomes easy to supply the washing water.

In the above embodiment, only the case where the stirring vane 10 is used as the circulation device provided in the waste water recovery tank 3 is explained. However, the present invention is not limited to this. For example, the upper part of the waste water recovery tank 3 It is also possible to provide a circulation pipe with a pump interposed therebetween to circulate the recovered wastewater 6 to the waste water recovery tank 3. In addition, by providing a heat source device such as a heater on the outer periphery of the waste water recovery tank 3 or the circulation pipe, the effect of preventing freezing can be improved.

In the above embodiment, only the case where the level meter 39 for measuring the amount of the wastewater 6 is used in the storage pit 30 and the waste water recovery tank 3 is described. However, the present invention is not limited to this, The water concentration of the sludge 5 in the hopper 2 is automatically measured by a sensor or the like and the amount of the sludge transported from the sewage return tank 3 is automatically detected based on a signal from the sensor or the like May be controlled.

In the above embodiment, only the case where the sewage return pipe 7 is connected to the two sludge hoppers 2 is described. However, the present invention is not limited to this. For example, one or more sludge hoppers 2, As shown in Fig.

In the above embodiment, only the case where only the waste water 6 is transferred from the waste water recovery tank 3 to the sludge hopper 2 is described. However, the present invention is not limited to this. For example, It is also possible to provide a sludge return pump for extracting the sludge stored in the sludge hopper 2 and transporting it to the sludge hopper 2.

In the above-described embodiment, only the case where the functional sludge 5 of the sludge hopper 2 is introduced into the rear portion 19a of the dry rotary kiln 18 is described. However, the present invention is not limited to this, It is also possible to apply it to the dry rotary kiln 18 after charging the sludge 5 with the lower duct 23b at the lowermost part of the preheater 23 or drying the sludge 5.

It can be used for a sludge treatment facility in which sludge returned from a sewage treatment plant is directly introduced into the cement kiln after being dried or dried.

1: sludge treatment plant
2: sludge hopper
3: Wastewater recovery tank
4: sewage recovery device
5: function sludge
5a:
6: Wastewater
6a: seawater
7: sewage return pipe
7a:
7b: pipe in the pipe
7c:
8: Truck
8a:
9: Inlet
10: stirring wing (circulation device)
11: Nozzle (Sprinkler)
12: underground pit
13: Cement manufacturing facility (cement manufacturing process)
15: Sink storage facilities

Claims (5)

A sludge recovery tank for recovering sludge when a sludge in a sludge treatment facility or a sludge treatment facility for sludge containing sludge which is carried by a truck from a sewage treatment plant is collected and a sludge return pipe for sending and receiving the sludge from the sludge recovery tank to the sludge hopper And a sludge collecting unit that collects sludge from the sewage sludge tank,
Wherein the water spraying section of the sludge return pipe on the sludge hopper side is located above the dropping position of the sludge hopper by the truck so as to spray the sewage to the top of the sludge- And the water channel in the pipe is arranged in the vertical direction and the obstruction plate is horizontally arranged at a position spaced downward from the lower end of the water spraying portion. The sludge treatment facility according to claim 1, characterized in that the sewage recovery tank is provided with a circulation device for circulating the stored sewage to prevent freezing. 3. The sludge treatment facility according to claim 1 or 2, further comprising a water spray device for washing the truck with cleansing water after the funnel sludge is introduced into the sludge hopper. delete delete

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