KR102289349B1 - Apparatus for inputting liquid waste and solid waste simultaneously with relieving plugging - Google Patents

Abstract

The present invention relates to an apparatus for injecting liquid wastes and solid wastes simultaneously into a reactor while easily resolving clogging, and comprises: a solid waste inlet pipe into which solid wastes are injected; a liquid waste inlet pipe into which liquid wastes are injected and which comprises an inner part located within the solid waste inlet pipe, an outer part located outside the solid waste inlet pipe and a protrusion unit formed on an outer surface of the inner part; and a control unit of the protrusion unit where at least a part is coupled to the outer part and that moves the protrusion unit relatively up and down in the solid waste input pipe.

Description

Apparatus for inputting liquid waste and solid waste simultaneously with relieving plugging

The present invention relates to an apparatus for simultaneously injecting liquid waste and solid waste into a reactor with a simple structure and capable of easily resolving clogging.

Hazardous components and radionuclides must be removed or treated in a safe form in order to satisfy the requirements stipulated by environmental and nuclear laws for industrial or radioactive waste. In general, heat treatment technology using induction heating, plasma, incineration, etc. is applied to completely decompose harmful components in waste and make it the most stable form for the environment.

A waste input pipe is installed at the upper part of the heat treatment reactor, but when the input pipe is simply connected to the upper surface, the reaction efficiency is low because a significant amount of waste is introduced into the exhaust pipe and discharged without being treated in the reactor as the waste is input. In order to prevent this problem, in general, a waste input pipe is put deep into the heat treatment reactor so that the heat treatment reaction can occur effectively. (Ex. In the case of a melting furnace, the waste input pipe is installed at a certain height above the molten metal so that the waste is immediately received into the molten metal)

In a heat treatment reactor intended to treat both liquid and solid waste, in the conventional case, a method of simply connecting a liquid waste input pipe to a solid waste input pipe or installing two input pipes has been used.

However, when the liquid and the solid waste input pipe are simply connected and used, a part of the liquid is vaporized/evaporated in the solid waste input pipe while the liquid is fed, and the gas flows back from the waste input pipe, or the liquid waste cannot be introduced deeply into the reactor. There is a problem that an oxidation/corrosion reaction may occur in contact with the inner surface of the solid waste input pipe, or an unexpected compound may be generated by chemical reaction of the liquid with the solid waste in the input pipe.

If solid and liquid waste input pipes are installed separately to avoid this problem, the upper structure of the reactor becomes complicated due to the cooling devices (cooling jacket, coolant pipe, coolant valve, etc.) mounted on each input pipe, and the inside of the furnace is being cooled. There is a disadvantage in that the thermal efficiency is lowered due to the two waste input pipes.

Korean Patent Registration No. 10-1607869 (Announced on April 1, 2016)

Accordingly, an object of the present invention is to provide an apparatus for simultaneously injecting liquid waste and solid waste into a reactor with a simple structure and capable of easily resolving clogging.

An object of the present invention is to provide an apparatus for simultaneously injecting liquid waste and solid waste into a reactor while easily resolving clogging, comprising: a solid waste input pipe into which solid waste is input; a liquid waste input pipe including an inner part positioned within the solid waste input pipe, an external part positioned outside the solid waste input pipe, and a protrusion formed on an outer surface of the inner part, into which liquid waste is put; And at least a portion is coupled to the outer part, and is achieved by including a protrusion manipulation portion for moving the protrusion up and down relative to the solid waste input pipe.

The solid waste input pipe may include a first portion extending long; and a second part extending bent from the first part and having an end positioned inside the reactor, wherein the inner part of the liquid waste input pipe may be positioned within the second part of the solid waste input pipe. .

The solid waste input pipe may further include a cooling jacket surrounding at least a portion of the second part.

The protrusion may be provided in plurality, which is elongated and is spirally arranged along the longitudinal direction of the inner portion.

The protrusion may be inclined toward the discharge end of the liquid waste input pipe.

The protrusion manipulation unit includes: a handle unit coupled to the outer part; It may include an elastic member positioned between the handle portion and the solid waste input pipe.

In the reactor, an end of the liquid waste input pipe may protrude to the outside of the solid waste input pipe by manipulation of the handle part.

According to the present invention, there is provided an apparatus for simultaneously injecting liquid waste and solid waste into a reactor with a simple structure and capable of easily resolving clogging.

1 shows an input device according to an embodiment of the present invention,
Figure 2 is an enlarged view of part A of Figure 1,
3 and 4 are views for explaining the operation of the input device according to an embodiment of the present invention.

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

Since the accompanying drawings are only an example shown in order to explain the technical idea of the present invention in more detail, the spirit of the present invention is not limited to the accompanying drawings. In addition, in the accompanying drawings, the size and spacing may be exaggerated differently from reality in order to explain the relationship between each component.

An input device according to an embodiment of the present invention will be described with reference to FIGS. 1 and 2 .

The input device 1 includes a solid waste input unit 10 , a liquid waste input pipe 20 , and a protrusion manipulation unit 30 .

The solid waste input unit 10 includes a hopper 110 , a screw 120 , and a solid waste input pipe 130 .

The hopper 110 is a part for inputting solid waste, and may be provided in a conventional structure.

The screw 120 is configured to transport the solid waste input into the hopper toward the reactor, and may also be provided in a conventional structure.

The solid waste input pipe 130 has a 'L' shape when viewed as a whole, and is connected to the hopper 110, and a first part 130a extending long and a second part extending by bending in a right angle direction from the first part 130a. (130b). In the present embodiment, the first portion 130a and the second portion 130b are bent at right angles, but the present invention is not limited thereto.

The first portion 130a and the second portion 130b may be manufactured by bending a single tube or may be combined after being manufactured from a separate tube.

The screw 120 is located only in the first part 130a.

Although not shown, the solid waste input pipe 130 further includes a cooling jacket surrounding at least a portion of the first portion 130a.

The liquid waste input pipe 20 includes an external part 20a positioned outside the solid waste input pipe 130, an internal part 20b positioned inside the solid waste input pipe 130, and an internal part 20b. and a protrusion 20c formed on the outer wall.

The inner portion 20b is located in the second portion 130b of the solid waste input pipe 130 . An end (discharge end) of the inner portion 20b is located more inside than the second portion 130b, that is, within the second portion 130b. The end of the inner portion 20b may be provided in the form of a nozzle.

The protrusion 20c is provided in plurality, is in the form of an elongated plate, and is arranged in a spiral shape along the longitudinal direction of the inner portion 20b. The protrusion 20c extends obliquely from the surface of the inner portion 20b and has an end inclined toward the discharge end of the inner portion 20b.

The horizontal extension length d2 of the protrusion 20c is 30% to 90%, 30% to 70%, 50% to 90% of the distance d1 between the solid waste supply pipe 130 and the second part 130b. % or 50% to 80%.

In another embodiment, the protrusion 20c may be formed in a direction perpendicular to the inner portion 20b. The shape of the protrusion 20c is not limited to the elongated plate shape, and may be variously modified, such as a protrusion shape or an intermittent helical shape surrounding the inner portion 20b.

The protrusion 20c may be integrally formed with the inner portion 20b or may be formed separately and then fixed to the inner portion 20b.

The protrusion manipulation part 30 includes a handle part 31 and an elastic member 32 . The handle portion 31 is coupled to the outer portion 20a of the liquid waste supply pipe 20 . The elastic member 32 is positioned between the handle part 31 and the solid waste supply pipe 130 . In this embodiment, the elastic member 32 is provided as a spring, but the present invention is not limited thereto.

In another embodiment, a separate protruding seating portion is provided on the outer portion 20a between the handle portion 31 and the solid waste supply pipe 130 , and the elastic member 32 is disposed between the handle portion 31 and the separate projecting seating portion. can be located in

In addition, the protrusion manipulation unit 30 may be provided to automatically move the protrusion 20c up and down instead of manually using a motor or the like. In this case, the elastic member 32 of the protrusion manipulation unit 30 may be omitted.

In this embodiment, the liquid waste input pipe 20 is provided with a flexible material, but the present invention is not limited thereto.

Although not shown, a separate device such as a pump for introducing liquid waste into the liquid waste input pipe 20 may be further included.

Although not shown, the present invention may further include a power supply unit for driving the screw 120 and the like, a control unit, an operation panel, and the like.

In addition, although not shown, the present invention may further include suitable means for sealing between the solid waste input pipe 130 and the liquid waste input pipe 20 , and the like.

In the present invention, the reactor in which the liquid waste and the solid waste are treated is not limited to a particular type.

Hereinafter, the operation of the supply device according to the present invention will be described with reference to FIGS. 3 and 4 . 4 illustrates a case in which the protrusion manipulation unit 30 is operated.

The solid waste is fed through the hopper 110 and the screw 120 is operated to supply the solid waste in the direction of the reactor.

Along with this, the liquid waste is supplied through the liquid waste supply pipe 20 .

Since the liquid waste supply pipe 20 is located in the solid waste supply pipe 130 , the solid waste and the liquid waste do not meet each other and are supplied to the reactor.

In the supply of solid waste and liquid waste in a state where the temperature of the reactor is high, the temperature rise before the solid waste and liquid waste is input into the reactor is suppressed by the cooling jacket formed on the outside of the solid waste input pipe 130 . Thereby, it is possible to prevent the liquid waste from being volatilized/gasified inside the input pipe before being discharged to the reactor.

When there is a problem in the treatment of waste periodically or in the input of waste, the handle part 31 is moved up and down. By the movement of the handle portion 31, the liquid waste supply pipe 20 fixed to the handle portion 31 moves up and down, and the protrusion 20c also moves up and down. When the protrusion 20c moves up and down, the solid waste supply pipe 130 does not move. The end of the liquid waste supply pipe 20 temporarily protrudes to the outside of the solid waste supply pipe 130 by manipulation through the handle portion 31 .

Due to the vertical movement of the protrusion 20c, the effect of pressing the solid waste collected between the liquid waste input pipe 20 and the solid waste input pipe 130 occurs, and the solid waste moves into the reactor. Therefore, it is prevented that solid waste is deposited on the inner wall of the input pipe and blocked, or a cavity is formed due to a bridge phenomenon, so that the input is stopped. On the other hand, since the protrusion 20c is inclined downwardly, the solid waste is easily removed by its own weight even if some of the solid waste is temporarily accumulated on the protrusion 20c.

In the present invention, since solid and liquid wastes are introduced into the reactor using a single input pipe, the design and configuration of the waste input device and the cooling device can be simply implemented. That is, the solid waste and liquid waste are simultaneously supplied to the reactor through a single input tube, rather than a separate input tube for solid waste and liquid waste.

Liquid waste can be simultaneously introduced into the same area as solid waste through the dosing device according to the present invention. Since the end of the liquid waste supply pipe 20 is positioned at a similar height to the end of the solid waste supply pipe 130 , the liquid waste is introduced into the reactor without contacting the solid waste in the solid waste supply pipe 130 . Thereby, the liquid waste and the solid waste meet only in the reactor.

According to the present invention, the volatilization of hazardous substances and radionuclides generated in the pyrolysis process of waste is reduced by suppressing the scattering of dust generated when solid waste is input and lowering the temperature of the input solid waste to form a cold cap in the reactor. can do it

The input device according to the present invention is a device for injecting solid and liquid wastes contaminated with radionuclides or harmful substances into a high-temperature heat treatment reactor, and it solves various problems (blockage of waste in pipes, volatilization, scattering, etc.) There is an advantage in that it is possible to improve the efficiency of melting and harmful substances removal of waste and to simplify the input device and to increase the operation convenience by greatly reducing it and stably making the desired reaction in the heat treatment reactor.

The above-described embodiments are examples for explaining the present invention, and the present invention is not limited thereto. Those of ordinary skill in the art to which the present invention pertains will be able to practice the present invention with various modifications therefrom, so the technical protection scope of the present invention should be defined by the appended claims.

Claims (7)

In the device for injecting liquid waste and solid waste into a reactor at the same time while easily resolving clogging,
Solid waste input pipe into which solid waste is input;
a liquid waste input pipe including an inner part positioned in the solid waste input pipe, an external part positioned outside the solid waste input pipe, and a protrusion formed on an outer surface of the internal part, into which liquid waste is put;
At least a part of the device is coupled to the outer part, and comprising a protrusion manipulation part for moving the protrusion up and down relative to the solid waste input pipe. In claim 1,
The solid waste input pipe,
an elongated first portion; and
and a second portion extending from the first portion and having an end positioned inside the reactor,
wherein the inner portion of the liquid waste input tube is located within the second portion of the solid waste input tube. In claim 2,
The solid waste input pipe,
and a cooling jacket surrounding at least a portion of the second portion. In claim 3,
The protrusion is
A device that is elongated and provided with a plurality of spirally arranged along the longitudinal direction of the inner portion. In claim 4,
The protrusion is arranged to be inclined toward the discharge end of the liquid waste input pipe. In claim 5,
The protrusion operation unit,
a handle portion coupled to the outer portion;
A device comprising an elastic member positioned between the handle portion and the solid waste input pipe. In claim 6,
in the reactor,
The end of the liquid waste input pipe protrudes to the outside of the solid waste input pipe by the manipulation of the handle.

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