KR101282584B1 - Incineration spray device for food waste water having blocking-proof function - Google Patents

Abstract

PURPOSE: A sprayer for incinerating the water and the effluent is provided to completely combust the water, the effluent, and the waste by maintaining the constant spraying pressure and to improve the safety of an incinerator by preventing the harmful exhaust gas from discharging. CONSTITUTION: A sprayer for incinerating the water and the effluent comprises a main body (30), a spraying cap (40), and a fixing nut (50). A mixing cone in which the water and the effluent of an inlet pipe (10) and compressed air of an air supply pipe (20) are mixed is integrated. An extruding hole through which the water, the effluent, and the compressed air pass is formed in center of the mixing cone. A plurality of spraying holes (48) is integrated to spray the water and the effluent passing through the extruding hole to the outside in the other side of the spraying cap. A stepped protrusion (52) is formed in the inner circumference to hang a latching protrusion (42) of the spraying cap. The fixing nut is connected to the main body and to fix the spraying cap.

Description

Incineration spray device for food waste water having blocking-proof function}

The present invention relates to an injector for incineration of negative wastewater having a blockage preventing function for easily burning food wastewater by exhaust heat generated in an incinerator.

As is well known, the disposal method of household waste (waste) is largely classified into a landfill method and an incineration method. The landfill method includes landfill in a bag of a predetermined standard, moves to a fixed place, and then landfills. Transport costs are high and there is a problem of contaminating soil and groundwater.

In addition, the incineration method is to inject waste into the incinerator to burn by high heat or flame, the exhaust gas discharged from the incinerator contains a large amount of harmful components harmful to the human body, various treatment devices for removing the harmful components incidental It is installed and operated.

In other words, the exhaust gas generated in the incinerator contains very harmful components such as dust, hydrogen chloride (HCl), sulfur oxides (SOx), nitrogen oxides (NOx), heavy metals containing mercury, or dioxine. These harmful components must be removed to protect the environment.

The apparatus additionally installed to purify the exhaust gas includes a sulfur oxide treatment apparatus for removing sulfur oxides, a dust treatment apparatus for removing dust such as fly ash, and a nitrogen oxide treatment apparatus for removing nitrogen oxides. In order to suppress the generation of the dioxin, the complete combustion of the waste must be premised.

The nitrogen oxide treatment apparatus sprays a reducing agent such as ammonia (NH 3) and urea (CO (NH 2) 2) into an exhaust passage and contacts the exhaust gas so that a reduction reaction occurs between the nitrogen oxide and the reducing agent so as to generate nitrogen oxide. As a device for removing, a catalyst is classified into a selective catalytic reduction device (SCR) and a selective non-catalytic reduction device (SNCR).

In the selective catalytic reduction apparatus (SCR), first, a reducing agent is injected into the exhaust gas, and then the mixture passes through a catalyst layer such as TiO 2 or V 2 O 5 to cause denitrification, and an optimum denitrification temperature is 300 to 450 ° C. At temperatures below 300 ° C, the catalytic activity decreases, which is undesirable. If the temperature exceeds 450 ° C, ammonia is oxidatively decomposed, which is not preferable.

In the selective non-catalyst reduction apparatus (SNCR), a denitrification reaction occurs at a temperature range of 870 to 1,200 ° C without a catalyst by injecting a reducing agent into the exhaust gas, and an installation cost and a maintenance cost are lower than those of the selective catalytic reduction apparatus (SCR). Recently used mainly.

In the past, food waste has been treated by dumping at sea, but recently dumping of ocean dumping has been banned by international convention. As a countermeasure, food waste is collected and dried by a drying device to compost or feed. In the drying process of the drying apparatus, food waste water and leachate (hereinafter, referred to as negative waste water) are generated.

Conventionally, a large number of injection nozzles are installed in an incinerator, and the negative waste water is injected and combusted through the injection nozzle, and at the same time, the incinerator is maintained at an appropriate temperature to increase the incineration efficiency. By utilizing the ammonia contained in the wastewater to remove the nitrogen oxides in the exhaust gas, the exhaust gas treatment device is minimized, and the amount of ammonia water used is reduced to increase the economics of incineration and increase the waste and wastewater treatment.

When explaining in detail the configuration and operation of the injection nozzle as described above, the injection cap through which a plurality of injection holes through the end of the inlet pipe in the air supply pipe in which compressed air is introduced into the inlet pipe into which the negative waste water is introduced As it consists of, by injecting the negative wastewater introduced into the inlet pipe through the injection hole formed in the injection cap by the high pressure compressed air introduced into the air supply pipe to maintain the temperature of the combustion and incinerator of the negative wastewater.

However, in the conventional injection nozzles, when the compressed air is introduced in a state in which floating matters contained in the negative waste water are entangled with each other in the inflow process for transport and incineration, the injection holes are frequently clogged by the floating material, and thus the injection cap Due to the hassle of removing the float after separation, the efficiency of the work and the throughput of the wastewater were reduced.

In addition, the distance and range in which the negative waste water is injected is reduced or the injection pressure is lowered, so that the negative waste water flows into the incinerator and incomplete combustion of the waste causes the incinerator outlet temperature to be 850 ° C. or lower. Due to the concern that large amounts of dioxin causing cancer in the human body may be deteriorated, the safety and reliability of the incinerator may be deteriorated, and the installation place of the incinerator may be limited.

Therefore, in order to solve the above problems, the present invention is to fasten the main body to the end of the inlet pipe and the air supply pipe inflow of the negative waste water inflow, fixed to the main body with a fixed nut, installed by By mixing the negative wastewater and compressed air by the vortex caused by the mixing cone formed inside the injection cap to separate the entangled floating material and increasing the injection pressure, the injection hole formed in the injection cap is not blocked by the floating material. It prevents the troubles caused by removing suspended solids, maintains a constant injection pressure to achieve complete combustion of waste and negative wastewater, and prevents the emission of harmful exhaust gases, which can greatly improve the safety and reliability of incinerators. An object of the present invention is to provide an injection device for incineration of negative wastewater having a function.

In order to achieve the above object, the present invention is connected to the negative waste water tank is connected to the inlet pipe in the form of the negative waste water is introduced into the inside of the inlet pipe is installed, the compressed air flowing from the compressor is introduced An injector for incineration of negative wastewater comprising an air supply pipe and an injection cap in which fine waste water introduced through the inlet pipe is injected into fine particles by compressed air introduced through the air supply pipe, the fastener being fastened to the air supply pipe. Installed in the center of the connecting tube formed to protrude to the left / right, a hollow through which compressed air passes through is formed, a plurality of inflow holes penetrate around the connecting pipe so that the negative waste water introduced into the inlet pipe can pass through A main body formed to be; A hooking jaw is formed at one outer periphery of the main body in close contact with the other side of the main body, and a mixing cone in which negative waste water of the inlet pipe is mixed with compressed air of the air supply pipe is integrally formed therein. An extrusion cap through which waste water and compressed air pass, and an injection cap having a plurality of injection holes integrally formed at the other side so that negative waste water having passed through the extrusion hole can be injected to the outside; It is characterized in that it comprises a; step is formed in the inner periphery so that the locking step of the injection cap is caught, the fixing nut is fastened to the main body to fix the injection cap.

In addition, the plurality of injection holes formed in the injection cap is characterized in that by repeatedly forming a circular and long hole type.

In addition, it is characterized in that the vertical injection hole to form a vertical injection hole by cutting the injection holes located diagonally of the plurality of injection holes formed in the injection cap to be able to spray the negative waste water vertically.

In addition, the long hole-type injection hole and the vertical injection hole of the injection hole of the injection cap is formed to be inclined outward, the outward inclination angle is 20 to 45 ° characterized in that the injection range of the negative waste water can be expanded.

As described above, by providing an injection device for incineration of negative wastewater having a clogging prevention function of the present invention, the injection hole formed in the injection cap is prevented from being blocked by the floating material, thereby eliminating the inconvenience of removing the floating material, and maintaining a constant injection pressure. By maintaining the complete combustion of waste and drinking water, and at the same time prevent the emission of harmful exhaust gas is a useful invention that can greatly improve the safety and reliability of the incinerator.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front view showing an injection device according to the present invention. FIG.
FIG. 2 is a perspective view of an injection device according to the present invention. FIG.
3 is a front sectional view of the injector according to the present invention in a separated state;
Figure 4 is a cross-sectional view of the combined state of the injector according to the present invention.
5 is a left side view of the injector according to the present invention;
Figure 6 is a left side view showing another embodiment of the injector according to the present invention.
Figure 7 is an enlarged cross-sectional view of the injection cap of the line AA shown in 5.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

As shown, the injector for negative wastewater incineration having a clogging prevention function of the present invention includes a large inlet pipe 10, an air supply pipe 20, a main body 30, a spray cap 40, and a fixing nut 50. do.

The inlet pipe 10 is provided with a conventional pipe having a predetermined diameter and length to be introduced into the incinerator so that the negative waste water can be introduced into the inside.

The air supply pipe 20 serves as a passage through which high-pressure compressed air passes, and inserts and installs a conventional pipe having a predetermined diameter and length into the inlet pipe 10, but the air supply pipe 20 What is necessary is just to form and provide the screw thread N1 in the inner periphery of the edge part.

At this time, the inflow pipe 10 is connected to a tank (not shown) storing negative wastewater by a hose (not shown), and the air supply pipe 20 is connected to a compressor (not shown) for generating high- (Not shown) so that the wastewater and the compressed air can be separately introduced.

The main body 30 is to limit the negative waste water introduced into the inlet pipe 10 to be introduced at the same time to improve the injection force by increasing the pressure of the compressed air introduced into the air supply pipe 20, the air supply pipe A thread N2 is formed at one side outer circumference of the connecting pipe 32 formed to protrude left / right so as to be coupled to the thread N1 formed at the inner circumferential end of the end portion 20, and the center of the connecting pipe 32 is formed. A hollow 34 through which compressed air passes is formed, and a plurality of inflow holes 36 are formed around the connection pipe 32 to allow the negative wastewater introduced into the inflow pipe 10 to pass therethrough. What is necessary is just to form the thread N3 integrally in the other outer periphery.

That is, by forming a screw thread (N2) on one side outer periphery of the connecting pipe 32, protruding toward the left / right center of the main body 30 to be integrally fastened by screwing the air supply pipe 20 and the The compressed air passing through the air supply pipe 20 passes through the hollow 34 having a small diameter formed in the connecting pipe 32 to increase the pressure of the compressed air to improve the injection force.

In addition, by forming a plurality of inlet holes 36 around the connection pipe 32 so that the amount of negative waste water introduced into the inlet pipe 10 passes through the inlet hole 36 is limited, It will be possible to spray the optimum conditions for the complete combustion of the negative waste water.

The injection cap 40 is to mix the negative waste water and the compressed air passed through the main body 30 to be injected into the fine particles, the locking jaw (on one side outer periphery in close contact with the other side of the main body 30) 42 is formed, and the mixing cone 44 in which the negative wastewater of the inlet pipe 10 and the compressed air of the air supply pipe 20 are integrally formed therein, and is formed at the center of the mixing cone 44. Extrusion holes 46 through which the negative waste water and the compressed air pass are formed, and the negative waste water passing through the extruded holes 46 may be integrally formed with a plurality of injection holes 48 on the other side. .

That is, the inside of one side of the injection cap 40, the left cone right light (solid-shaped) mixing cone 44 is formed integrally with the negative waste water passing through the inlet hole 36 of the main body 30 and the connection pipe Compressed air passing through the hollow 34 of (32) is mixed by the mixing cone 44 to maintain a constant pressure through the extrusion hole 46 in a state in which the tangled suspended matter contained in the negative waste water is separated, The injection of the negative waste water through a plurality of injection holes 48 is to be made smoothly.

In addition, the spiral groove 44 'is formed at the inner circumference of the mixing cone 44 so that the mixing and vortex of the negative wastewater and the compressed air introduced therein can be more actively performed, thereby facilitating the separation of tangled suspended matter. It is desirable to be able to.

At this time, as shown in Figure 5, the plurality of injection holes 48 formed in the injection cap 40 is preferably formed by repeatedly forming a circular injection hole (48a) and the long hole injection hole (48b), which is a through hole The long hole-shaped injection hole 48b is formed to have a wider diameter so that suspended particles of relatively large particles can be easily injected and injected, thereby minimizing clogging of the injection hole 48.

In addition, as shown in FIG. 6, a plurality of injection holes 48 formed in the injection cap 40 are cut to connect diagonally positioned injection holes to form vertical injection holes 48c to vertically spray negative wastewater. It is preferable to make it possible, which is to allow the negative waste water sprayed through the vertical injection hole (48c) to be widely sprayed up and down the incinerator so that the injection range can be greatly expanded.

And, as shown in Figure 7 of the injection hole 48 of the injection cap 40, the end of the long hole injection hole 48b and the vertical injection hole 48c is formed to be inclined outward, but the inclined angle is 20 It is desirable to allow the injection range of the negative waste water to be extended to 45 °.

The fixing nut 50 is a means for fixing the injection cap 40 to be in close contact with the main body 30, and the stepped portion 52 at the other inner circumferential edge of the injection cap 40 may be caught by the locking jaw 42. It is formed, it is only necessary to form a thread (N4) on one side inner circumference so as to be coupled to the thread (N3) formed on the other outer circumference of the main body 30.

Assembling and installing a plurality of components as described above, first, the injection cap 40 is inserted into the fixing nut 50 in a state in which one side of the injection cap 40 in close contact with the other side of the main body 30. Thereafter, by engaging the screw thread (N3) formed on the outer peripheral edge of the main body 30 and the screw thread (N4) formed on one inner peripheral edge of the fixing nut 50, the locking jaw 42 of the injection cap 40 is Fasten the injection cap 40 to the main body 30 so as to be caught by the step 52 of the fixing nut 50 and then the thread (N2) formed on one side of the connection pipe 32 of the main body 30 and By screwing the thread (N1) formed in the inner periphery of the end of the air supply pipe 20 is fixed to the end of the inlet pipe 10 to be in close contact with one side of the main body 30 to complete the injection device.

 The injection device assembled in this way is installed in the upper part of the incinerator, the inlet pipe 10 is connected to the negative waste water tank and the hose is supplied with negative waste water, the air supply pipe 20 is connected by a compressor and a hose Compressed air is supplied to complete the installation of the injector.

Referring to the injection process of the negative waste water according to the injector of the present invention installed as described above, first, the negative waste water stored in the tank is introduced through the inlet pipe 10 and at the same time the compressed air generated from the compressor to the air supply pipe ( 20).

The waste water of the inflow pipe 10 passes through the main body 30 in a state where the inflow amount of the wastewater is limited through the plurality of inflow holes 36 formed in the main body 30, The compressed air passes through the hollow 34 of the connecting pipe 32 formed in the main body 30 and passes through the main body 30 in a state where the pressure is increased.

Subsequently, the negative wastewater and the compressed air passing through the main body 30 are mixed in the mixing cone 44 formed in the injection cap 40 and bubbles are generated due to the vortex phenomenon, wherein the inside of the mixing cone 44 Due to the spiral groove 44 'formed at the periphery, the vortex phenomenon becomes more active, so that the entangled suspended matter contained in the negative waste water passes through the extrusion hole 46 in a state of being separated, thereby clogging the injection hole 48. Will be prevented.

Subsequently, as shown in FIG. 4, the suspended matter separated from the negative waste water passing through the extrusion hole 46 of the injection cap 40 is pushed backward by colliding with the inner wall of the injection cap 40, and backwards. Extruded particles collide with the mixing cone 44 to form particles more finely and at the same time, the direction of travel is changed to be easily injected through a plurality of injection holes (48).

Therefore, the injector of the present invention is formed in a wider injection distance and range than the conventional injector, it is possible to significantly reduce the cost of the additional installation and operation of the injector, clogging by suspended matter contained in the negative waste water This eliminates the hassle of removing suspended solids or replacing the injection cap, improving work efficiency, increasing the throughput of waste and wastewater, and enabling complete combustion of waste and wastewater. By preventing the emission of harmful emissions, it is possible to greatly improve the safety and reliability of the incinerator.

On the other hand, the present invention has been described with reference to the preferred embodiments of the present invention as being capable of various modifications, but the present invention is not limited to these embodiments, and the embodiments are simply combined with the conventional known art Together with the claims and the detailed description of the present invention it will be seen that the technology that can be used by those skilled in the art that the present invention belongs to be included in the technical scope of the present invention.

10: inlet pipe 20: air supply pipe
30: main body 32: connector
34: hollow 36: inflow hole
40: injection cap 42: locking jaw
44: mixed cone 44 ': spiral groove
46: extrusion hole 48: injection hole
50: fixing nut 52: step
N1 to N4: Thread

Claims (5)

Inlet pipe 10 is connected to the negative waste water tank in the form of pipes into which the negative waste water is introduced, and the air supply pipe 20 into which the compressed air flowing from the compressor is inserted and installed into the inlet pipe 10. In the injection device for negative wastewater incineration consisting of a spray cap which is injected into the negative waste water introduced through the inlet pipe 10 is compressed into fine particles by the compressed air introduced through the air supply pipe 20,
It is fastened and installed in the air supply pipe 20, the center of the connecting pipe 32 formed to protrude to the left / right is formed to pass through the hollow 34 through which compressed air passes through, the inlet pipe 10 A main body 30 formed with a plurality of inflow holes 36 penetrating around the connection pipe 32 to allow the negative waste water to pass therethrough;
A locking jaw 42 is formed at one outer periphery of the main body 30, which is in close contact with the other side, and a mixing cone in which negative waste water of the inflow pipe 10 and compressed air of the air supply pipe 20 are mixed. 44 is integrally formed, an extruded hole 46 through which the negative waste water and the compressed air pass is formed in the center of the mixing cone 44, and the negative waste water passing through the extruded hole 46 can be sprayed to the outside. An injection cap 40 having a plurality of injection holes 48 formed integrally with the other side to be provided;
Stepped to the inner periphery 52 is formed so that the locking step 42 of the injection cap 40 is caught, the fixing nut 50 is fastened to the main body 30 to fix the injection cap; including Injector for negative wastewater incineration having a clogging prevention function, characterized in that.
The method of claim 1,
Negative waste water incineration having a clogging prevention function, characterized in that the spiral groove 44 'is formed on the inner circumference of the mixing cone 44 to allow the mixing and vortex of the negative waste water and the compressed air to be introduced more actively. Injector.
The method of claim 1,
A plurality of injection holes 48 formed in the injection cap 40 has a circular injection hole (48a) and the long hole type injection hole (48b) by repeatedly forming a negative wastewater incineration injection having a clogging prevention function, characterized in that Device.
The method of claim 3,
Negative waste water through the vertical injection hole (48c) by forming a vertical injection hole (48c) by cutting so as to connect the injection holes 48 located at a diagonal of the plurality of injection holes (48) formed in the injection cap (40) Injector for negative wastewater incineration having a clogging prevention function, characterized in that the vertical injection.
The method according to claim 3 or 4,
The end of the long hole-type injection hole 48a and the vertical injection hole 48c of the injection hole 48 of the injection cap 40 is formed to be inclined outward, but the outward inclination angle is 20 to 45 ° so that Injector for negative wastewater incineration having a clogging function, characterized in that the spraying range can be expanded.

Images