JPH1192184A - Method for introducing sludge in dispersed state and device therefor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method by which the incineration efficiency of water- containing sludge can be enhanced and incineration ash of the water-containing sludge can comparatively uniformly be dispersed in a cement clinker, and also to provide a device for the method. SOLUTION: In this method, water-containing sludge (a) in a dispersed state is jetted out in the space between the lower part of a preheater 11 for calcining a cement raw material and the kiln inlet 12a of a dry cement kiln 12 for firing the calcined cement raw material. As a result, incineration efficiency of the water-containing sludge (a) is enhanced to shorten the required time for complete incineration of the sludge (a). Also, any lumpy incineration ash is hardly formed and this incineration ash (a useful component of cement) can be supplied into a cement clinker formed in the kiln 12, so that the ash is comparatively uniformly dispersed in the formed cement clinker.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and an apparatus for dispersing and introducing sludge, and more particularly, to sinter hydrated sludge, such as sewage sludge, which has not been subjected to pretreatment such as drying and addition of additives, from a lower part of a preheater as a cement raw material. The present invention relates to a method and an apparatus for dispersing and introducing sludge in a sludge treatment facility for introducing and burning up to the kiln bottom of a dry cement kiln for use.

[0002]

2. Description of the Related Art Sewage sludge discharged from a sewage treatment plant is
In ancient times, it was sometimes used as fertilizer, but recently because of the fact that sludge contains heavy metals, and the use as fertilizer has a small amount of treatment,
Landfill and sea dumping are the mainstream. However, the amount of sludge discharged from sewage treatment plants has been increasing in recent years, especially in the Tokyo metropolitan area, and there is a shortage of treatment plants for land reclamation and sea dumping, as well as restrictions on environmental pollution prevention.
At present, sludge treatment is shifting to incineration. Some sludge incineration facilities have already been proposed.

However, in a conventional sludge incinerator using an incinerator, it is necessary to dry the sludge prior to incineration. It is also necessary to deodorize the drying exhaust gas. As a result, drying costs, deodorizing costs and incineration costs increase,
There is a problem that the processing cost as a whole increases. Further, a method of using quicklime for drying sludge has also been proposed. In this method, quick lime reacts with water contained in sludge to generate slaked lime, and the residual heat is evaporated by the reaction heat at that time, and the sludge is used as a dry material that can be pumped by air and used as a cement raw material. However, this method also has a disadvantage that quicklime must be added during sludge drying.

As a conventional technique for solving such a problem, Japanese Patent Application Laid-Open No. Hei 8-276199, which was filed by the applicant of the present invention and has been published, discloses a "sludge treatment method".
It has been known. This is a sludge treatment technique in which hydrated sludge in a sludge tank is directly introduced into a kiln bottom or a preheater of a dry cement kiln and incinerated. According to this technology, hydrated sludge is directly poured into an existing dry-type cement kiln by a pressure pump without performing pretreatment of drying or adding an additive, and simultaneously with the normal production of cement clinker, the efficiency is improved. It is possible to incinerate hydrated sludge.

[0005]

By the way, according to the prior art, the humid sludge in the storage tank is transferred to the kiln butt or preheater of the dry cement kiln by the pumping pump as described above, for example, the production of cement clinker. Quantity of 10
Since it was only poured with the input amount of about%,
The introduced hydrous sludge often became sludge-like mass. As a result, the sintering efficiency of the hydrous sludge is poor, it takes a relatively long time to sufficiently burn the hydrous sludge, and lumps of combustion ash are likely to be formed, and the cement clinker in the kiln is also useful as a cement component. There was a problem that the combustion ash could not be evenly dispersed.

[0006]

SUMMARY OF THE INVENTION It is an object of the present invention to provide a method and an apparatus for dispersing and introducing sludge capable of increasing the combustion efficiency of hydrous sludge and dispersing the combustion ash relatively evenly to cement clinker. And Another object of the present invention is to provide a sludge dispersion and introduction device capable of effectively dispersing substantially all of the hydrous sludge to be introduced. Further, another object of the present invention is to provide a sludge dispersion introducing apparatus which can disintegrate even a relatively hard water-containing sludge having a low water content and disperse it into the kiln kiln side. Furthermore, the present invention
It is an object of the present invention to provide a sludge dispersion introduction device capable of dispersing hydrated sludge in a relatively wide range. An object of the present invention is to provide a sludge dispersion introducing apparatus which can satisfactorily disperse hydrated sludge regardless of whether the hardness of the sludge is high or low.

[0007]

According to the first aspect of the present invention, there is provided a kiln bottom portion of a dry cement kiln for sintering a cement raw material from a lower portion of a preheater for sintering a cement raw material in a sintering process of a cement manufacturing plant. This is a sludge dispersion introduction method in which hydrated sludge is introduced while being ejected in a dispersed state during the period. The hydrated sludge here includes sewage sludge, activated sludge, dredged sludge, and the like. The hydrous sludge may be supplied directly from the sludge treatment facility via a pipeline or the like, or may be transported by a truck equipped with a closed tank and temporarily
After charging the sludge tank, the sludge may be supplied from the sludge tank.

[0008] Although the amount of hydrous sludge added to the dry kiln is not particularly limited, it is usually determined as appropriate depending on various processing conditions such as the quality and amount of cement raw material and the firing temperature. However, the amount is preferably such that the hydrous sludge can be introduced into the existing dry kiln without changing the operating conditions. For example, cement clinker production is 90-
When a dry kiln of 100 t / h is used, the amount of hydrated sludge added is less than 10.0 t / h, and the amount of hydrated sludge is about 1/10 (about 10%) or less of the weight of the produced cement clinker. Is preferably charged. If the amount of water-containing sludge added to the cement clinker exceeds, for example, 10.0%, the sintering in the kiln becomes unstable due to moisture from the sludge, and the quality of the cement clinker is likely to be adversely affected.

[0009] The term “between the lower part of the preheater for calcining the raw material of the cement and the bottom of the kiln of the dry cement kiln for firing the raw material of the cement (hereinafter, may be referred to as the kiln side of the kiln)” refers to the preheating. It is not limited to the lower area of the heater or the kiln bottom area of the dry kiln, but may be a connection part of both. It is to be noted that hydrous sludge may be introduced into both the lower area of the preheater and the kiln bottom area of the dry kiln. The temperature of the introduction section of hydrous sludge on the kiln kiln side is 800 to 1000 ° C,
Preferably it is around 900 ° C. If the temperature is lower than 800 ° C., the combustion of hydrous sludge tends to be insufficient. On the other hand, when the temperature exceeds 1000 ° C., a problem occurs that the operation of the furnace is hindered. Further, there is no particular limitation on the jet pressure of the hydrous sludge. However, 1-6 kgf / cm ² , especially 2-3 kgf / cm ²
/ Cm ² is preferable, and if it is less than 1 kgf / cm ² , the wind speed is weak and the dispersion of sludge is poor. The ejection pressure is 6 kgf
If it exceeds / cm ² , the sludge will be blown off strongly and its dispersion will be poor. Furthermore, the dispersed hydrous sludge preferably has an average particle size of 5 to 25 mm.
The above matters are the same in claims 2 to 5.

[0010] As a method for introducing the hydrous sludge into the kiln kiln side, for example, a pipe pressure feeding structure having various pumps, such as a sludge dispersion introducing apparatus described in claims 2 to 5, is used. Examples include the method adopted. In addition, a method using various conveyors such as a belt conveyor and a screw conveyor may be used. In short,
If it is a method that can transfer hydrated sludge smoothly,
Any type of device may be used. In addition, as a method of dispersing the hydrous sludge, for example, an air dispersion method in which compressed air is blown to the hydrous sludge that has reached the vicinity of the kiln kiln side to disperse it, a blade dispersion method in which the dispersion blades are moved at high speed to fly the hydrous sludge, and the like. , Or any other distribution method.

According to a second aspect of the present invention, one end portion is provided between a lower portion of a preheater for calcining a cement raw material and a bottom portion of a dry cement kiln for calcining a cement raw material in a firing step of a cement manufacturing plant. Is connected to the sludge introduction pipe, a pump is connected to the sludge introduction pipe to pump the wet sludge to the sludge discharge side, and the sludge introduction pipe is provided to the sludge introduction pipe, and the sludge is blown by compressed air. This is a sludge dispersing and introducing apparatus including a sludge dispersing means for dispersing hydrated sludge from a pipe end of the introducing pipe. The term "pressure pump" as used herein refers to various types of slurry pumps. The air dispersion type sludge dispersion means is not limited as long as it has a structure in which compressed air is blown to the introduction end of hydrated sludge during pumping and dispersed, in addition to those described in claims 3 to 5. .

According to a third aspect of the present invention, the sludge dispersing means transmits compressed air from a compressed air supply device through an air outlet formed on a peripheral surface of one end of the sludge introduction pipe.
By injecting into the inside of this sludge introduction pipe from the radiation outside,
3. A sludge containing water is ejected from the end of the sludge introduction pipe.
The sludge dispersion introduction device described in 1. The air outlet at the tip of the sludge introduction pipe may be provided, for example, radially on the peripheral surface of the sludge introduction pipe, or may be formed by forming one or more slits long in the circumferential direction. Is also good. A well-known compressed air supply device can be employed.

According to a fourth aspect of the present invention, in the sludge dispersing means, the sealed pipe end is disposed in one end of the sludge introduction pipe, and inserted into the sludge introduction pipe with the pipe axis aligned. Fixed internal pipe, and a compressed air supply device that supplies compressed air to the fixed internal pipe, and has an air ejection port formed on a peripheral surface of a sealing side end of the fixed internal pipe, The sludge dispersion introducing device according to claim 2, wherein the hydrous sludge is blown out from a pipe end of the sludge introduction tube by blowing compressed air from the compressed air supply device from inside. The diameter of the fixed inner pipe may be any size as long as it can supply compressed air enough to satisfactorily blow the hydrated sludge that has reached the vicinity of the pipe end of the sludge introduction pipe to the air outlet.

According to a fifth aspect of the present invention, in the sludge dispersing means, the open pipe end is disposed near one end of the sludge introduction pipe, and the flow is movably inserted into the sludge introduction pipe. Inner pipe, moving means of the flow inner pipe, and a compressed air supply device for supplying compressed air to the flow inner pipe, by the moving means, to move the flow inner pipe in the sludge introduction pipe, By placing the pipe end of the flow inner pipe near the tip of the hydrated sludge and blowing the compressed air from the compressed air supply device outward from the pipe end of the flow inner pipe, the hydrated sludge is introduced into the sludge. The sludge dispersion introducing device according to claim 2, wherein the sludge is injected from a pipe end of the pipe.

The purpose of moving the inner pipe of the flow is to move the end of the inner pipe of the flow to a position where the hydrous sludge can be dispersed most effectively. This is due to the fact that the hardness of hydrous sludge varies with its water content. That is,
As shown by the one-dot chain line or the two-dot chain line in FIG. 4, the higher the water content of the sludge, the more easily the shape of the sludge near the end of the sludge introduction pipe is collapsed. Therefore, the position of the hydrous sludge, which is the most effective position for the hydrous sludge having a different shape near the end of the sludge introduction pipe (different degree of sagging) according to the water content at that time, is different. The end of the sludge introduction pipe is moved to a position several centimeters from the tip by the moving means. As the moving means, for example, a hydraulic cylinder, a cylinder-type moving mechanism using a power source such as an electric cylinder, a jack-type moving mechanism using an electric jack,
Alternatively, a screw feed mechanism having a feed screw can be employed. The moving direction of the sludge introduction pipe by the moving means includes, for example, the axial direction of the sludge introduction pipe, the vertical direction, and the like. Also, besides, horizontal direction, diagonal direction or θ
The direction may be used. That is, it may be one that can be arbitrarily moved in each direction of XYZθ.

[0016]

According to the present invention, the hydrated sludge is dispersed from the lower part of the preheater for calcining the cement raw material to the bottom of the kiln of the dry cement kiln for calcining the cement raw material. Since it is ejected in a state, the combustion efficiency of the hydrous sludge increases, the time until the hydrous sludge burns is shortened, and lumps of combustion ash are less likely to be formed after combustion, and this combustion is performed by a cement clinker in a kiln. The ash can be dispersed relatively evenly.

In particular, according to the second aspect of the present invention, a sludge introduction pipe is provided by a pressure pump between a lower portion of a preheater for calcining a cement raw material and a bottom portion of a dry cement kiln for calcining a cement raw material. Then, since the hydrous sludge is introduced by using the sludge dispersing means at the time of the introduction, almost all of the hydrous sludge introduced into the kiln kiln side can be effectively dispersed.

According to the third aspect of the present invention, when the wet sludge is introduced into the kiln kiln side, the compressed air from the compressed air supply means is supplied to the air outlet at one end of the sludge introduction pipe. The humid sludge is blown into the sludge introduction pipe from the outside through the radiator, and the air pressure causes the hydrous sludge that has reached the inside of the pipe to be spouted while being finely dispersed into the inside of the kiln kiln side. In this way, compressed air is blown from the outside to the hydrated sludge in the pipe so as to wrap the sludge, so even the relatively hard hydrated sludge with a low moisture content can be broken down finely and the kiln kiln furnace side It can be distributed and supplied inside.

Further, according to the fourth aspect of the present invention,
When the hydrous sludge is introduced into the kiln kiln side, the compressed air from the compressed air supply means is blown into the sludge introduction pipe from the radiating inside through the fixed inner pipe and the air outlet at the end of the pipe. Due to this air pressure, the hydrated sludge reaching the inside of one end of the sludge introduction pipe is spouted while being finely dispersed into the inside of the kiln kiln side. As described above, since the compressed air is blown from the radiant inside to the hydrated sludge in the pipe so as to blow the sludge to the outside, the hydrated sludge can be dispersed in a relatively wide range.

According to the fifth aspect of the present invention,
In the sludge introduction pipe, the flow inside pipe is moved by the moving means, and the pipe end of the flow inside pipe is positioned at the position where the water-containing sludge can be dispersed most effectively, that is, the end of the sludge introduction pipe at the difference in water content It is placed at a position several cm from the tip of the hydrated sludge where the degree of sagging changes nearby. Then, when the compressed air from the compressed air supply means is blown outward from the end of the flow inner pipe, the hydrostatic sludge that has reached the inside of one end of the sludge introduction pipe is finely introduced into the kiln kiln side by this air pressure. It is ejected while dispersing. In this way, the moving means moves the pipe end of the inner pipe of the flow to a position where the hydrated sludge can be dispersed most effectively, so that the degree of sagging changes according to the difference in hydrated sludge according to the hardness of the hydrated sludge. hand,
Hydrous sludge can be dispersed well.

[0021]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below in detail with reference to the drawings. First, a method and an apparatus for dispersing and introducing sludge according to a first embodiment of the present invention will be described with reference to FIGS. FIG. 1 is a schematic sectional view of a cement burning facility to which a sludge dispersion introducing device according to a first embodiment of the present invention is applied. FIG. 2 is an enlarged sectional view of a sludge dispersing means constituting the sludge dispersion introducing device. In FIG. 1, reference numeral 10 denotes a sludge dispersion introducing device, and this sludge dispersion introducing device 10
The sewage sludge a is incinerated by using the heat at the time of sintering the cement raw material by being provided in the cement sintering facility of the cement manufacturing plant. The cement sintering equipment consists of a preheater 11
The cement material calcined in the furnace is converted to dry cement kiln 1
This is a facility for intermediate production of cement clinker by firing in 2. The dry cement kiln 12 used here
Shall produce cement clinker at 90 to 100 t / h.

The preheater 11 preheats a cement raw material pulverized by a raw material mill (not shown) to a predetermined temperature so as to be easily fired by a downstream dry cement kiln 12. The pre-heater 11 is provided with a large number of cyclones mounted on a steel frame stand of several floors. Usually, the uppermost cyclone is connected to a gas discharge system that has a fan and guides gas generated during calcination to gas processing equipment (not shown).

The dry cement kiln 12 has a laterally cylindrical kiln shell inclined slightly downward. A refractory is provided on the inner peripheral surface of the kiln shell. While rotating the kiln shell in the circumferential direction, the cement raw material from the preheater 11 is fired by heating with a burner using heavy oil or pulverized coal as fuel, and a cement clinker is intermediately manufactured. Thereafter, the cement clinker is cooled by a clinker cooler connected to a downstream portion of the dry cement kiln 12 and sent to a finishing process. Next, referring to FIG. 1 and FIG.
Will be described in detail.

As shown in FIG. 1, a sludge dispersion introducing device 10
Is a method in which hydrated sludge such as settled sludge of a sewage treatment plant is directly introduced in a dispersed state and incinerated from the lower part of the preheater 11 to the kiln bottom 12a of the dry cement kiln 12 in a slurry state. is there. Specifically, the hydrated sludge from the externally installed sludge receiving facility is temporarily
Is stored in the sludge tank 14, and then from the sludge tank 14, as needed, by the pressure pump 15.
Through the kiln bottom 12a of the dry cement kiln 12. The temperature of the introduction point of the hydrous sludge a in the kiln butt portion 12a is about 900 ° C. In addition, the pipe end of the sludge introduction pipe 16 on the sludge outlet side is aligned with the inner surface of the kiln butt portion 12a and the pipe end face (see FIG. 2).

Further, as shown in FIG.
A sludge dispersing means 17 is provided at the end of the pipe on the sludge outlet side for blowing out the wet sludge a from the end of the pipe into the kiln end 12a by blowing compressed air into the pipe from outside. The sludge dispersing means 17 has a cylindrical jacket 18 for forming a compressed air supply passage, which is externally fitted to an end of the sludge introduction pipe 16 on the sludge outlet side. An externally provided compressed air supply means 19 is connected to the cylindrical jacket 18. Near the tip of the sludge introduction pipe 16, eight compressed air ejection holes 20 each of which is formed obliquely toward the tip are formed radially. In addition, the ejection hole 20 does not necessarily need to be drilled obliquely toward the tip, and may be drilled perpendicularly to the axial direction of the sludge introduction pipe 16. Further, the number of the ejection holes 20 formed is not limited to eight, but may be, for example, six,
Any number such as ten may be used.

Next, a method for dispersing and introducing sludge using the apparatus for dispersing and introducing sludge 10 will be described. As shown in FIG. 1, in the cement burning facility, the cement raw material is calcined while flowing down each cyclone of the preheater 11. Thereafter, the cement raw material is supplied to the kiln bottom 12a of the dry cement kiln 12.
And is baked by the heat of the burner to become a cement clinker. At this time, in the kiln bottom 12a of the dry cement kiln 12, the hydrated sludge a in the sludge tank 14 is
The sludge is introduced into the kiln 12 while being dispersed through the sludge introduction pipe 16 at a flow rate of less than 10 t / h. Concrete kiln bottom part 1 of hydrous sludge a
2a, the hydrous sludge (not shown) is temporarily fed from the sludge receiving facility (not shown) by the pump 13 to the sludge tank 14.
After that, the sludge is introduced into the kiln bottom 12a of the dry cement kiln 12 from the sludge introduction pipe 16 by the pump 15 connected to the lower part of the sludge tank 14 as needed.

At this time, the compressed air is blown into the pipe of the sludge introduction pipe 16 from the radial outside through the cylindrical jacket 18 fitted to the sludge introduction pipe 16 through a total of eight ejection holes 20. I have. Therefore, by the compressed air that has been blown, the hydrous sludge a reaching the end of the sludge introduction pipe 16 on the sludge discharge side is spouted in a dispersed state into the kiln tail 12a at an ejection pressure of 3 kgf / cm ^2. .

The hydrous sludge spouted in this manner is economical due to the burner heat during the calcination of the cement raw material, even if the hydrous sludge a is not preliminarily subjected to expensive pretreatment such as deodorization, drying and addition of additives. Can be incinerated. Further, by the jet from the sludge introduction pipe 16, the hydrous sludge a is dispersed in almost the entire area of the kiln bottom 12 a or the dry cement kiln 12. Accordingly, the contact area between the hydrous sludge a and the combustion gas generated in the dry cement kiln 12 increases, and the combustion efficiency of the hydrous sludge a increases. This allows
The time required for the hydrous sludge a to burn is reduced. In addition, massive combustion ash is not easily generated after combustion. Further, the combustion ash of the hydrous sludge a can be relatively evenly dispersed in the cement clinker intermediately manufactured in the dry cement kiln 12, and a high-quality cement clinker having a stable composition can be obtained.

Since a mechanism for pumping the hydrated sludge through the sludge introduction pipe 16 by the pump 15 is adopted in the introduction system of the hydrated sludge a, compared with a case where a conveyor conveyance mechanism such as a belt conveyor is employed. ,
Almost all of the hydrous sludge a to be introduced can be effectively dispersed without leaking. Further, a total of 8 pieces are contained in the wet sludge a so as to wrap the sludge a from the radiation outside.
Since the compressed air is blown from the individual ejection holes 20, even the relatively hard hydrated sludge having a low moisture content can be finely broken down and dispersed into the kiln butt portion 12a.

Next, a method and apparatus for dispersing and introducing sludge according to a second embodiment of the present invention will be described with reference to FIG. FIG. 3 is an enlarged cross-sectional view of the sludge dispersing means constituting the sludge dispersion introducing apparatus according to the second embodiment of the present invention. FIG.
As shown in FIG.
Is an example in which a sludge dispersion means 31 different from the sludge dispersion means 17 of the first embodiment is employed. That is, the sludge dispersing means 31 has a fixed inner pipe 32 in which the sealed pipe end is disposed within one end of the sludge introduction pipe 16 and the pipe axis is inserted into the sludge introduction pipe 16 so as to match the pipe axis. I have.

When water-containing sludge is dispersed and introduced into the kiln butt portion 12a by using this, a total of eight radially formed air ejection ports 33 are formed on the peripheral surface of the sealing side end of the fixed inner pipe 32. The compressed air from the compressed air supply device 19 is blown in from the radial direction. Thereby, the hydrous sludge is ejected while being dispersed from the pipe end of the sludge introduction pipe 16. As a result, compressed water is blown into the sludge a in the sludge introduction pipe 16 so as to blow off the sludge a from outside to the outside, so that the sludge a is relatively widely dispersed. Can be. Other configurations, operations, and effects are the same as those of the first embodiment, and a description thereof will not be repeated.

Next, a method and an apparatus for dispersing and introducing sludge according to a third embodiment of the present invention will be described with reference to FIG. FIG. 4 is an enlarged sectional view of a sludge dispersing means constituting a sludge dispersion introducing device according to a third embodiment of the present invention. FIG.
As shown in FIG.
Is an example in which a sludge dispersion means 41 different from the sludge dispersion means 17 and 31 of the first and second embodiments is employed. That is,
The sludge dispersing means 41 connects the opened pipe end to the sludge introduction pipe 16.
, A compressed air supply device 43 to which the base of the flow inner tube 42 is connected, and a compressed air supply device 43, which is movably inserted into the sludge introduction tube 16.
And two moving means 44. The moving means 44
An X table 46 having a motor 45 for moving the compressed air supply device 43 in the pipe axis direction (X direction) of the sludge introduction pipe 16.
And a Z table 48 having a Z motor 47 for moving the compressed air supply device 43 up and down.

Using this sludge dispersing means 43, hydrated sludge a
When dispersing and introducing into the kiln bottom 12a, the sludge introduction pipe 1
6, the X table 46 is moved in the pipe axis direction of the sludge introduction pipe 16 by the X motor 45 and the Z motor 47 of the moving means 44, and the Z table 48 is moved up and down.
Move 2 Thus, the pipe end of the flow inner pipe 42 is
Position where the hydrous sludge a can be dispersed most effectively;
That is, in the vicinity of the end of the sludge introduction pipe, it is arranged at a position several centimeters from the tip of the wet sludge a in which the degree of sagging changes due to the difference in water content.

Specifically, for example, in the case of ordinary hydrated sludge a having relatively high hardness, the pipe end of the flow inner pipe 42 is
(On the axis of the sludge introduction pipe 16 and slightly away from one end of the sludge introduction pipe 16).
Further, in the case of the hydrated sludge a having a slightly higher moisture content and a slightly lower hardness, the pipe end of the flow inner pipe 42 is positioned at the position indicated by the one-dot chain line in FIG. 4 (on the pipe axis of the sludge introduction pipe 16 and FIG. (Slightly retracted from the solid line position). Further, in the case of hydrated sludge a having a higher moisture content and a lower hardness, the pipe end of the flow inner pipe 42 is positioned at a position indicated by a two-dot chain line in FIG. 4 (below the pipe axis of the sludge introduction pipe 16. , This sludge introduction pipe 1
6 (a position slightly apart from one end of 6).

Thereafter, when the compressed air from the compressed air supply means 43 is blown outward from the end of the flow inner pipe 42, the hydrated sludge a which has reached the inside of one end of the sludge introduction pipe 16 is discharged by the air pressure. It is jetted into the buttocks 12a while being finely dispersed. In this way, the moving means 44 moves the pipe end of the flow inner pipe 42 to a position where the water-containing sludge a can be dispersed most effectively, so that the degree of sagging changes depending on the difference in water content. Regardless of the hardness of the hydrous sludge a, the hydrous sludge a can be dispersed well. Other configurations, operations, and effects are the same as those of the first embodiment, and a description thereof will not be repeated.

[0036]

According to the present invention, hydrous sludge is spouted in a dispersed state from the lower part of the preheater for calcining the raw material of cement to the bottom of the kiln of the dry cement kiln for firing of the raw material for cement. Therefore, the combustion efficiency of the hydrous sludge is increased, and the time until the hydrous sludge burns is shortened. Also, it is difficult to form massive combustion ash after combustion. The useful combustion ash can be relatively evenly distributed to the cement clinker in the kiln.

In particular, according to the second aspect of the present invention, since a mechanism for pumping hydrous sludge by a pressure pump through a sludge introduction pipe is employed in the hydrous sludge introduction system, substantially all of the hydrous sludge to be introduced is provided. Can be effectively dispersed without leaking.

Further, according to the third aspect of the present invention, since compressed air is blown from outside to the hydrated sludge in the sludge introduction pipe, even a relatively hard hydrated sludge having a low moisture content can be used. This can be broken down finely and dispersed in the kiln kiln side.

Further, according to the invention described in claim 4,
Compressed air is blown into the sludge introduction pipe so as to blow the sludge from the inside to the outside, so that the sludge can be dispersed over a relatively wide range.

According to the fifth aspect of the present invention,
By moving the pipe end of the inner pipe of the flow to a position where the hydrated sludge can be dispersed most effectively, it is possible to disperse hydrated sludge well regardless of whether the hardness of the sludge is high or low. Can be.

[Brief description of the drawings]

FIG. 1 is a schematic cross-sectional view of a cement burning facility to which a sludge dispersion introducing device according to a first embodiment of the present invention is applied.

FIG. 2 is an enlarged sectional view of a sludge dispersing means constituting the sludge dispersion introducing device according to the first embodiment of the present invention.

FIG. 3 is an enlarged sectional view of a sludge dispersing means constituting a sludge dispersion introducing device according to a second embodiment of the present invention.

FIG. 4 is an enlarged sectional view of a sludge dispersing means constituting a sludge dispersion introducing apparatus according to a third embodiment of the present invention.

[Explanation of symbols]

 10, 30, 40 sludge dispersion introduction device, 11 pre-heater, 12 dry cement kiln, 12a kiln bottom, 15 pumping pump, 16 sludge introduction pipe, 17, 31, 41 sludge dispersion means, 19 compressed air supply device, 20, 33 air ejection port, 32 fixed inner pipe, 42 flow inner pipe, 43 compressed air supply device, 44 moving means.

Claims (5)

[Claims] 1. A hydrated sludge is sparged in a dispersed state from a lower portion of a preheater for calcining a cement raw material to a kiln bottom of a dry cement kiln for calcining a cement raw material in a firing step of a cement manufacturing plant. Sludge dispersion introduction method to introduce. 2. A hydrated sludge, one end of which is connected from a lower portion of a preheater for calcining a cement raw material to a kiln bottom of a dry cement kiln for calcining a cement raw material in a calcination process of a cement manufacturing plant. A sludge introduction pipe, a pressure pump connected to the sludge introduction pipe, for pumping wet sludge to the sludge discharge side, and a pressure pump provided on the sludge introduction pipe, and containing water from the pipe end of the sludge introduction pipe by blowing compressed air. A sludge dispersion introduction device comprising: a sludge dispersion means for dispersing sludge. 3. The sludge distributing means discharges compressed air from a compressed air supply device from an outside through an air jet port formed on a peripheral surface of one end of the sludge introduction pipe. The sludge dispersion introducing apparatus according to claim 2, wherein the hydrous sludge is blown out from a pipe end of the sludge introduction pipe by blowing into the pipe. 4. A fixed inner pipe having a sealed pipe end disposed in one end of the sludge introduction pipe, the fixed inner pipe inserted into the sludge introduction pipe with the pipe axis aligned, and A compressed air supply device for supplying compressed air to the fixed inner tube, wherein the compressed air is supplied from the compressed air supply device through an air outlet formed on a peripheral surface of a sealing side end of the fixed inner tube. The sludge dispersion introduction device according to claim 2, wherein the water-containing sludge is ejected from a pipe end of the sludge introduction pipe by blowing air from inside of the radiation. 5. The sludge dispersing means, wherein an open pipe end is arranged near one end of the sludge introduction pipe, and a flow inner pipe movably inserted into the sludge introduction pipe; A moving means for moving the pipe, and a compressed air supply device for supplying compressed air to the inner pipe in the flow, wherein the moving means moves the inner pipe in the sludge introduction pipe, and a pipe end of the inner pipe in the flow. Is placed in the vicinity of the tip of the hydrated sludge, and the humid sludge is spouted from the pipe end of the sludge introduction pipe by blowing the compressed air from the compressed air supply device outward from the pipe end of the flow inner pipe. The sludge dispersion introducing device according to claim 2.