KR101218191B1 - Slurry producting deviece for electrode of solid oxide fuel cell - Google Patents

Abstract

The present invention relates to an apparatus for producing a slurry of an electrode for a solid oxide fuel cell, comprising: a container into which a raw material and an additive for slurry production are put, a drive motor to axially couple the container to rotate the container, and to be fed into the container And a plurality of stirring balls to agitate the additive, a heating wire to maintain the reaction temperature of the raw material and the additive to be stirred in the container, and detachably combined with the container to make the container in a vacuum state, and the raw material and the The additive is characterized in that it comprises a vacuum degassing unit for removing bubbles contained in the slurry produced by mixing and stirring.

Description

Slurry manufacturing apparatus of electrode for solid oxide fuel cell {SLURRY PRODUCTING DEVIECE FOR ELECTRODE OF SOLID OXIDE FUEL CELL}

The present invention relates to a slurry manufacturing apparatus of the electrode for a solid oxide fuel cell, and more particularly, to obtain a uniform and excellent quality slurry without problems such as bubble defects for the production of the electrode for a solid oxide fuel cell. It relates to a slurry production apparatus of an electrode for a solid oxide fuel cell.

The operating temperature range of the solid oxide fuel cell is approximately 700 to 1,000 ° C, and it is known to operate at the highest temperature of existing fuel cells. It is simple, there is no fear of loss of electrolyte, and there are no problems such as replenishing electrolyte, corrosion of electrode, no precious metal catalyst, and easy fuel supply through internal reforming.

 In addition, since the solid oxide fuel cell discharges high-temperature gas, there is an advantage in that the thermal complex power generation using waste heat.

In the unit cell of the solid oxide fuel cell, a cathode, an electrolyte, and an anode are sequentially stacked, the electrode tabs are taken out from each electrode plate, and the stacked structure formed by stacking the cathode, the electrolyte, and the anode is subjected to high temperature and high pressure. It is wound up to produce an electrode assembly.

Thereafter, the electrode assembly is heat treated to complete a battery that is a conjugate of the electrode and the electrolyte.

In this case, the electrode is produced by forming a raw material in the form of a slurry in the form of a large area sheet, the conventional slurry manufacturing method is prepared by mixing the raw materials and additives in a slurry state, and then to remove the bubbles contained in the slurry, etc. Transfer to a separate vacuum degassing apparatus from the prepared vessel.

Next, the slurry is vacuum degassed in the vacuum degassing apparatus, and when the viscosity of the slurry is measured and stabilized, the slurry for the electrode is completed.

However, this slurry production method is weak in reproducibility because it is not possible to maintain a constant temperature in the slurry mixing process, and because the slurry is transferred to another container for vacuum defoaming, time and material loss occurs, so that the slurry for electrode production of desired quality There was a limit to gain.

The present invention has been invented to improve the above problems, the slurry of the solid oxide fuel cell electrode to obtain a uniform and excellent quality of the slurry without problems such as bubble defects for the production of the electrode for a solid oxide fuel cell. It is for providing a manufacturing apparatus.

In addition, the present invention is to provide a slurry production apparatus for an electrode for a solid oxide fuel cell which can minimize the deterioration of quality by performing a series of processes continuously.

In order to achieve the above object, the present invention is a container into which the raw material and additives for slurry production are added, a drive motor for rotating the container by axially coupling with the container, and the raw material and the additive to be added to the container. A plurality of agitating balls to stir, a heating wire to maintain the reaction temperature of the raw material and the additive to be stirred in the container, and detachably combined with the container to make the container in a vacuum state, and the raw material and the additive are mixed and stirred. It is possible to apply a structure including a vacuum degassing unit to remove the bubbles contained in the resulting slurry.

According to the present invention having the above-described configuration, the following effects can be achieved.

First, it is possible to minimize the failure rate under a constant manufacturing environment by promoting the stirring of the raw materials and additives for slurry production with a stirring ball and maintaining a constant reaction temperature with a hot wire.

In addition, the present invention adopts a configuration to mix and stir the raw materials and additives to prepare a slurry and to remove the bubbles contained in the slurry immediately with a vacuum degassing unit to obtain a uniform quality to shorten the manufacturing process and time and loss rate of raw materials It can also be minimized.

1 is a conceptual diagram showing a slurry manufacturing apparatus of an electrode for a solid oxide fuel cell according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a conceptual diagram showing a slurry manufacturing apparatus of an electrode for a solid oxide fuel cell according to an embodiment of the present invention.

The present invention rotates the vessel 100 to the drive motor 200, as shown, the stirring ball 300 is put into the vessel 100, to constant the temperature inside the vessel 100 by the hot wire 400 It can be seen that the structure to remove the bubbles contained in the slurry to the vacuum degassing unit 500 when the stirring, the interior of the vessel 100 is completed.

The container 100 is provided with a space into which raw materials and additives for slurry production are put, and is combined with a driving motor 200 to be described later, a stirring ball 300 is inserted, and a heating wire 400 is mounted, and a vacuum defoaming unit is provided. To provide a space to be combined with 500.

The drive motor 200 rotates the container 100 by axially coupling the container 100 so that the raw materials and additives introduced into the container 100 are mixed and stirred.

The stirring ball 300 is put into the container 100 in order to promote the mixing and stirring of the raw material and the additive.

The hot wire 400 is mounted to the container 100 to allow uniform mixing and stirring of the raw materials and the additives while maintaining a constant temperature.

The vacuum degassing unit 500 is a desorption coupled to the container 100 to make the container 100 in a vacuum state and to remove bubbles contained in the slurry generated by mixing and stirring the raw materials and additives, the rotation of the drive motor 200 And the stirring ball 300 together with the rolling (rolling) in the container 100 can be said to obtain a uniform and excellent product state of the slurry produced.

The present invention can be applied to the above-described embodiment, and of course, the following various embodiments can be applied.

As described above, the container 100 is provided with a space in which the raw materials and the additives are mixed and stirred. Referring to the drawings, it can be seen that the container 100 is composed of an inner cylinder 110 and an outer cylinder 120.

The inner cylinder 110 is provided with a space for accommodating the raw materials and additives and is in communication with the vacuum defoaming unit 500 to be described later, the outer cylinder 120 surrounds the outer surface of the inner cylinder 110, the heating wire 400 is built and the heat insulating material (hereinafter referred to as Finished in (not shown), the hollow rotary shaft 202 is coupled to the drive shaft 201 of the drive motor 200 is provided.

Inner cylinder 110 may be further provided with an outlet 105 so that the slurry produced together with the inlet 101 for injecting raw materials and additives is discharged.

Here, the drive motor 200 is preferably coupled through the rotary shaft 202 and the reducer 210 to rotate the container 100 at a speed suitable for mixing and stirring raw materials and additives.

In this case, the raw material is a binder solution in which methyl cellulose is dispersed and dissolved in a solvent, and the solvent is ethyl alcohol and toluene.

In addition, the additive may be added to select one of nickel, chromium, lithium.

The mixing ratio of the raw materials and the additives can be appropriately added or subtracted according to the use environment and the use for those skilled in the art.

On the other hand, the stirring ball 300 is preferably added to each of the different diameter of the container together, rather than the one made of a constant diameter to achieve uniform mixing of the raw materials and additives.

Stirring ball 300 may use a material such as alumina (alumina) excellent in wear resistance, heat resistance, corrosion resistance, electrical insulation, precision processing.

On the other hand, the heating wire 400 is not shown in particular, but is electrically connected to the end of the rotary shaft 202 is hollow, and further provided with a communication supply for supplying power to the heating wire 400 by wireless communication from the outside of the container 100 The twisting of the heating wire 400 and the electrical connection due to the rotation can be prevented at the source.

In addition, the heating wire 400 is electrically connected to the end of the rotating shaft 202 is hollow as shown, and further provided with a hot wire twist prevention tool 410 to hold in place separate from the rotation of the container 100 The twisting of the electrical connection portion of the heating wire 400 according to the rotation of the container 100 will be prevented.

Here, the hot wire twist prevention tool 410 forms a conductive contact piece 412 mounted to the end of the heating wire 400 and a groove 413 corresponding to the outer shape of the contact piece 412 and the rotating shaft 202 Including a conductive rotating support piece 414 mounted at the end of the rotary support piece 414 and an external power source (hereinafter, not shown) is electrically connected.

At this time, the heating wire twist prevention tool 410 is not limited to the structure shown, and if the connection portion of the heating wire 400 can maintain the electrical connection without twisting in place even in the rotation of the container 100, for example, It is of course possible to apply and implement any structure such as a rotation support structure of the shaft and the conductive bushing bearing, or an electrical connection by a connector such as a universal joint.

On the other hand, the vacuum degassing unit 500 is to remove bubbles from the slurry prepared as described above, and includes a discharge hose 510 and a vacuum pump 520.

Discharge hose 510 is detachably coupled to the container 100, more specifically, the air outlet 112 in communication with the inner cylinder 110, the vacuum pump 520 is coupled to the discharge hose 510 and the container ( 100) while forming the inner space in a vacuum state to discharge the bubbles contained in the slurry.

As described above, the present invention is capable of obtaining a slurry of uniform and excellent quality without problems of bubble defects and the like for the manufacture of the electrode for a solid oxide fuel cell, and minimizing the quality degradation by performing a series of processes continuously. It can be seen that the basic technical idea is to provide an apparatus for producing a slurry of an electrode for a solid oxide fuel cell.

It will be apparent to those skilled in the art that many other modifications and applications are possible within the scope of the basic technical idea of the present invention.

100. Container 200. Drive motor
300 ... stirrer ball 400 ... heating wire
500 ... Vacuum Defoaming Unit

Claims (6)

A container into which raw materials and additives for slurry production are put;
A drive motor axially coupled to the container to rotate the container;
A plurality of stirring balls to be added to the container to stir the raw material and the additive;
A heating wire mounted on the vessel to maintain a reaction temperature of the raw material and the additive to be stirred; And
And a vacuum degassing unit detachably combined with the container to remove the air bubbles contained in the slurry produced by mixing and stirring the container and the raw material and the additive.
The container is provided with a space for accommodating the raw material and the additive, and the inner cylinder communicating with the vacuum defoaming unit, surrounding the outer surface of the inner cylinder, the heating wire is embedded and finished with a heat insulating material, coupled with the drive shaft of the drive motor Slurry manufacturing apparatus of the electrode for a solid oxide fuel cell, characterized in that it comprises an outer cylinder provided with a hollow rotating shaft.
delete The method according to claim 1,
The raw material,
Slurry manufacturing apparatus of an electrode for a solid oxide fuel cell, characterized in that the binder solution dispersed and dissolved in methyl alcohol cellulose and toluene as a solvent.
The method according to claim 1,
The additive is a slurry manufacturing apparatus of the electrode for a solid oxide fuel cell, characterized in that one of nickel, chromium, lithium.
The method according to claim 1,
The stirring ball is a slurry manufacturing apparatus of the electrode for a solid oxide fuel cell, characterized in that the different diameter is added to the container together.
The method according to claim 1,
The vacuum defoaming unit,
A discharge hose detachable from the container and communicating with an internal space of the container;
Slurry manufacturing apparatus of the electrode for a solid oxide fuel cell, characterized in that it comprises a vacuum pump coupled to the discharge hose to form the interior space of the container in a vacuum state.

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