KR101527436B1 - Powder treating apparatus using electromagnetic plasma torch - Google Patents

Abstract

The present invention relates to a reaction apparatus using a plasma torch, the apparatus comprising: a plasma generating unit; a microwave generating unit for transmitting a microwave to the plasma generating unit; a reaction material supplying unit for supplying a reaction material to the plasma generating unit; A plasma source gas injection unit for injecting a plasma source gas, and a reactor, wherein the reactor is located on the opposite side from which the plasma source gas of the plasma generating unit is injected, and the plasma source gas plasma torch generated from the plasma generating unit is located Wherein the reaction material supply unit is configured to supply the reaction material onto the substrate, wherein the reaction material supply unit is configured to supply the reaction material onto the substrate.

Description

TECHNICAL FIELD [0001] The present invention relates to a powder processing apparatus using an electromagnetic wave plasma torch,

The present invention relates to a plasma torch reactor, and more particularly, to a plasma torch reactor configured to precisely control the reaction at a specific position in a plasma torch.

BACKGROUND ART [0002] There is known a technique for generating a new material from a synthesis gas as a raw material by using a plasma torch using an electromagnetic wave. Korean Patent Registration No. 10-1166444 relates to a carbon dioxide torch produced by electromagnetic waves and its application. The object of the present invention is to generate a pure carbon dioxide plasma torch by heating carbon dioxide gas with an electromagnetic wave to generate a gas plasma, a liquid, And a hydrocarbon compound is supplied to produce a synthesis gas raw material. Korean Patent Registration No. 10-0375423 discloses a soot removal technique using microwave plasma.

Synthesis methods and devices using such a plasma torch have been developed and introduced, but the plasma torch reaction results are not uniform for each reaction, and there are many problems in accurately controlling the reaction.

The inventors of the present invention have determined that the reliability of the reaction result is low for each reaction and that the reason why it is difficult to control the reaction accurately is attributable to the inherent characteristics of the plasma torch.

The reactants used in the reaction in the plasma torch reactor are generally in powder form or in gaseous form. However, since the plasma torch varies in temperature and characteristics at each position, it is necessary to control the reaction at a specific position in the plasma torch. In addition, the plasma torch has a strong physical forward force. Since the reactive material to be injected into the plasma torch is in the form of powder or gas, the time for the reactive material to be located at a specific point in the plasma is very short, There were a lot of problems. There is also a need for a configuration for collecting the remaining material after the reaction.

Accordingly, the present inventors have recognized such a problem, and after the study, by introducing the following constitution, a plasma torch reactor capable of solving the problems on a conventional plasma torch reactor, providing a highly reliable reaction, Development.

The present invention relates to a reaction apparatus using a plasma torch, comprising: a plasma generating section; a microwave generating section for transmitting a microwave to the plasma generating section; a reaction material supplying section for supplying a reaction material to the plasma generating section; Wherein the plasma generator is disposed at a position opposite to the plasma source gas inlet of the plasma generator and in which the plasma source gas plasma torch generated from the plasma generator is located, Wherein the reaction material supply unit is configured to supply a reaction material onto the substrate, wherein the reaction material supply unit includes a substrate at a position where the plasma torch touches the reactor.

The apparatus further comprises a collecting part installed in the reactor and configured to collect the reaction material reacted with the plasma torch and the reaction product by a suction method.

In the reactor, unreacted reactant materials and reaction products are present in the reactor as the remaining material after the reaction. The phase of the material remaining in the reactor after the reaction may be a liquid phase, a vapor phase, a solid phase, or the like. After this reaction, the remaining material is collected in a suction manner through a collection unit installed in a closed reactor. The collection of these inhalation systems does not depend on the identity of the substance to be collected.

The apparatus of the present invention includes a substrate position control section. The substrate position control unit is configured to move the substrate along the longitudinal direction of the plasma torch in the reactor. It will be appreciated that the specific manner for controlling the position of the substrate is not a feature of the present invention, and that various ways of moving the substrate to a desired position may be used in the present invention.

It will be appreciated that the microwave generator may be configured to transmit a high frequency to the plasma generator.

The present invention proposes a microwave generator including a microwave oscillator and a microwave transmission line as an example of a microwave generator. The plasma generator is located at the end of the microwave transmission line, and the electromagnetic wave generated from the microwave oscillator is transmitted to the plasma generator through the microwave transmission line.

The apparatus of the present invention makes it possible to precisely supply the supplied reactant, especially powder, to the plasma torch and to control the reaction under the carbon dioxide plasma torch of the supplied metal powder.

The apparatus of the present invention further comprises a collecting part installed in the reactor, configured to collect the reaction material reacting with the plasma torch and the reaction product by a suction method. Thereby providing easy collection of the compound.

1 is a block diagram conceptually illustrating an apparatus for producing a syngas using a carbon dioxide plasma according to a preferred embodiment of the present invention.
FIG. 2 illustrates the syngas production apparatus using the carbon dioxide plasma of the present invention more specifically.
3 is a more detailed view of the plasma generator 150 and the reactor 170. As shown in FIG.
4 is a schematic diagram of a plasma torch reactor of the present invention including a substrate and a collector.

1 is a block diagram conceptually showing a plasma torch generator using electromagnetic waves according to a preferred embodiment of the present invention.

As for the plasma torch generator, reference is made to Korean Patent Publication No. 10-0394994, which is a previously registered patent of the present inventor. This patent is incorporated herein by reference in its entirety.

1, the apparatus of the present invention includes a power supply unit 110, a microwave oscillator 120, a microwave transmission line 130, a material supply unit 140, a plasma generation unit 150, a carbon dioxide injection unit 160 ), And a reactor (170).

The power supply unit 110 is configured to include a propagation voltage multiplier and a pulse and direct current (DC) device to supply power to the microwave oscillator 120.

The microwave oscillator 120 uses a magnetron that oscillates electromagnetic waves in the 10 MHz to 10 GHz band. Preferably, the microwave oscillator 120 oscillates 2.45 GHz electromagnetic waves.

The microwave transmission line 130 is a waveguide, and is configured to transmit the microwave to the plasma generator 150.

The plasma generating unit 150 is provided at a terminating end of the microwave transmission line 130 to provide a space in which plasma is generated by electromagnetic waves input through the microwave transmission line 130.

The carbon dioxide injector 160 is configured to be injected into the plasma generator 150 such that a carbon dioxide plasma torch is generated. 3 is referred to.

The reactor 170 is a space in which a generated carbon dioxide plasma torch is disposed on the opposite side of the plasma generating part in the direction of injection of the carbon dioxide injecting part.

The material supply part 140 is configured to supply the reaction material to the reactor. In particular, the material supply part 140 is configured to supply the reaction material with the carbon dioxide plasma torch.

FIG. 2 illustrates the syngas production apparatus using the carbon dioxide plasma of the present invention more specifically.

The power supply unit 110 supplies power to the microwave oscillator 120. The microwave oscillator generates electromagnetic waves. The generated electromagnetic waves are sequentially transmitted to the plasma generator 150 through the circulator 210, the directional coupler 220, the matching device 230, and the microwave transmission line 130.

A more detailed description of the plasma generator 150 and the reactor 170 is given in FIG.

The carbon dioxide gas is injected through one side of the plasma generator 150.

The carbon dioxide plasma torch is supplied to the plasma generating unit 150 and carbon dioxide is generated in the reactor 170 while the electromagnetic wave is transmitted to the plasma generating unit 150 through the microwave transmission line 130.

The reaction material 320 is supplied through the material supply 140 to any selected position of the carbon dioxide plasma torch 310.

4 is a schematic diagram of a plasma torch reactor of the present invention including a substrate and a collector.

A reaction material 420 is supplied onto the substrate 410 through the supply unit 140. The reaction material 420 is supplied to the substrate 410 at a position where the plasma torch contacts the reactor 170.

The apparatus of the present invention further includes a collecting unit 430. [ The collecting unit 430 further includes a collecting unit installed in the reactor 170 and configured to collect the reaction material reacting with the plasma torch 440 and the reaction product by a suction method. Thereby providing easy collection of the compound.

In addition, the apparatus of the present invention includes a substrate position controller (not shown), and the substrate position controller is configured to move the substrate along the longitudinal direction of the carbon dioxide plasma torch in the reactor. So that the reaction of the metal powder is controlled at a desired position of the carbon dioxide plasma torch.

Claims (4)

A powder processing apparatus using an electromagnetic plasma torch,
The apparatus comprises:
A plasma generator,
A microwave generator for transmitting a microwave to the plasma generator,
A reaction material supply part for supplying the powder reaction material,
A plasma source gas injection unit for injecting a plasma source gas into the plasma generation unit,
Comprising a reactor,
The microwave generator includes a microwave oscillator and a microwave transmission line,
The plasma generator is located at the end of the microwave transmission line,
An electromagnetic wave generated from the microwave oscillator is transmitted to the plasma generator through a microwave transmission line,
The reactor is a space located on the opposite side to the plasma source gas into which the plasma source gas is injected and in which the plasma source gas plasma torch generated from the plasma generator is located,
And a substrate at a position where the plasma torch touches the reactor,
Wherein the substrate is configured to move the substrate along the longitudinal direction of the plasma torch in the reactor,
Wherein the reaction material supply portion is configured to supply powder reactive material onto the substrate,
Wherein the powder reactant material is a material to be treated directly in a plasma torch in the reactor,
Powder processing system using electromagnetic plasma torch. The method according to claim 1,
Further comprising a collector disposed in the reactor, the collector configured to collect the reaction material and the reaction product reacting with the plasma torch in a suction manner.
Powder processing system using electromagnetic plasma torch.
delete delete

Images