JP6256593B2 - Air battery regenerator and air battery system - Google Patents

Description

The present invention relates to an air battery reproducing apparatus and an air battery system. More particularly, the present invention provides an air battery reproducing apparatus for reproducing an air battery reusable, and relates to an air battery system provided with the air battery reproducing apparatus and reusable air battery.

Conventionally, an air battery having a bi-cell structure has been proposed (see Non-Patent Document 1).
Further, in a salt water type air battery, it is known that a large amount of sludge (for example, Mg (OH) ₂ · nH ₂ O can be generated) is generated and deposited in a cell during power generation. ing.
For example, when reusing a negative electrode exchange type air battery, it is known that such sludge needs to be removed.

Osaka Industrial Research Laboratory quarterly report 37 [3] (1986)

  However, even in the air battery having the bicell structure described in Non-Patent Document 1, the distance between the electrodes is short, and it is necessary to disassemble the cell when removing the sludge, and it is extremely difficult to remove the sludge. .

The present invention has been made in view of such problems of the prior art. Then, the present invention provides an air battery regeneration device and an air battery regeneration that regenerates a reusable air battery by removing a large amount of sludge without substantially decomposing a stack structure formed by a plurality of cells. and its object is to provide an air battery system provided with the the device and reusable air battery.

The inventors of the present invention have made extensive studies in order to achieve the above object. As a result, when the discharge of the reusable air battery is completed, the air battery has a sludge removing means for removing sludge existing in the cell part of the stack structure of the air battery. The sludge removing means is connected to a liquid junction that is provided at the lower part of the cell part and connects the cell parts. When the sludge removing means removes the sludge, the pump part intermittently removes the sludge. And the sludge removal means discharges the sludge through the liquid junction, and found that the above-mentioned object can be achieved, thereby completing the present invention.

That is, the air battery regenerator of the present invention comprises sludge removing means for removing sludge present in the cell portion of the stack structure of the air battery when the discharge of the reusable air battery is completed, and the sludge removing means Has a filter part, a drain part and a pump part, and the sludge removing means is connected to a liquid junction part provided at the lower part of the cell part and connecting the cell parts, and the sludge removing means removes the sludge. The pump part sucks the sludge intermittently, and the sludge removing means discharges the sludge through the liquid junction part .

  The air battery system of the present invention includes the air battery regenerator of the present invention and a reusable air battery.

According to the present invention, when the discharge of the reusable air battery is completed, the sludge removing means for removing the sludge existing in the cell part of the stack structure of the air battery is provided. A drain part and a pump part, and the sludge removing means is connected to a liquid junction part provided at the lower part of the cell part and connecting the cell parts. When the sludge removing means removes the sludge, the pump part The sludge is removed, and the sludge removing means discharges the sludge through the liquid junction .
Therefore, an air battery regenerator that regenerates a reusable air battery by removing a large amount of sludge with almost no decomposition of a stack structure formed by a plurality of cells, and an air battery regenerator and reuse it is possible to provide an air battery system provided with the and possible air battery.

FIG. 1 is a cross-sectional view schematically showing an air battery regenerator or an air battery system according to an embodiment of the present invention. FIG. 2 is a perspective view schematically showing an air battery regenerator or an air battery system according to an embodiment of the present invention.

  Hereinafter, an air battery regenerating apparatus, an air battery system, and an air battery regenerating method according to an embodiment of the present invention will be described in detail with reference to the drawings. In addition, the dimension ratio of drawing is exaggerated on account of description, and may differ from an actual ratio.

  FIG. 1 is a cross-sectional view schematically showing an air battery regenerator or an air battery system according to an embodiment of the present invention. FIG. 2 is a perspective view schematically showing an air battery regenerator or an air battery system according to an embodiment of the present invention. That is, FIG. 1 and FIG. 2 show an air battery regeneration device applied to a reusable air battery, or an air battery system including an air battery regeneration device and a reusable air battery.

As shown in FIGS. 1 and 2, the air battery regenerator 10 removes sludge present in the cell portion 54 of the stack structure 52 of the air battery 50 when the reusable air battery 50 is discharged. Sludge removing means 12 for removing is provided. The reusable air battery 50 includes a stack structure 52 formed of a plurality of cell portions 54, and the cell portion 54 is referred to as a bi-cell structure including two positive electrodes 54b for one negative electrode 54a. It has a structure.
In the figure, 55 indicates the air flow path portion, and E indicates the remaining electrolyte.
In addition, although not shown, the air battery is not particularly limited as long as it generates sludge during power generation, and conventionally known air electrode (positive electrode), metal electrode (negative electrode), electrolyte solution An air battery having the above can be applied.
Typically, as the metal electrode (negative electrode), a magnesium electrode or an aluminum electrode containing magnesium can be used, and a sodium chloride aqueous solution can be used as the electrolytic solution. Moreover, although it is preferable that a negative electrode is replaceable, it is not limited to this.

  Here, in the present invention, the “reusable air battery” means an air battery that can obtain a predetermined output again by removing sludge and supplying the electrolyte or replacing the negative electrode as necessary. Means.

  In the present invention, “when the discharge of the air battery is completed” means that, for example, in the cell portion of the air battery, a predetermined output is obtained due to sludge accumulation, electrolyte depletion, negative electrode consumption, and the like. It means when it is gone.

  With such a configuration, an air battery regenerator or an air battery that regenerates a reusable air battery by removing a large amount of sludge without almost decomposing a stack structure formed by a plurality of cells. The air battery system includes a regenerator and a reusable air battery.

  Then, when the discharge of the reusable air battery is finished, the air battery is removed by removing a large amount of sludge existing in the cell part of the stack structure of the air battery with almost no decomposition of the stack structure. It can be regenerated and the air battery can be reused.

Further, in the present embodiment, the sludge removing means 12 is connected to the end of the liquid junction part 56 provided at the lower part of the cell part 54 and connecting the cell part 54, and discharges the sludge via the liquid junction part 56. .
With such a configuration, it becomes possible to remove sludge while suppressing or preventing sludge clogging.
This is because the cross-sectional area of the portion having the smallest cross-sectional area (for example, the narrowest portion indicated by 56a in the drawing) of the cross-section perpendicular to the liquid flow direction in the liquid junction portion 56 is usually sludge removal. It is because it is larger than the cross-sectional area of the liquid injection port of the cell supply part 8 considered as another connection position of a means.
Specifically, even if the width of the liquid injection port is large, it is equivalent to the distance between the electrodes, for example, the diameter is about several mm to 5 mm, while the cross section perpendicular to the liquid flow direction in the liquid junction part. The cross-sectional area of the portion having the smallest cross-sectional area is determined by the lower length of the cell portion, and is usually secured longer than the width of the liquid injection port.
In the present invention, it is preferable to have such a configuration, but it is not essential.

Furthermore, in this embodiment, the sludge removal means 12 has the filter part 12a, the drain part 12b, and the pump part 12c.
With such a configuration, for example, sludge can be removed in the filter portion 12a connected to the pump portion 12c and the pipe 12d by suction due to the operation of the pump portion 12c, and liquid can be removed in the drain portion 12b. Sludge can be removed with a simple configuration.
In the present invention, it is preferable to have such a configuration, but it is not essential.

In the present embodiment, the liquid supply means 14 for supplying liquid to the sludge is provided when the discharge of the reusable air battery 50 is finished and before the sludge removal means 12 starts removing the sludge. Prepare. Furthermore, in this embodiment, the liquid supply means 14 has a liquid intake portion 14b having a tube structure for taking in liquid from the liquid tank 14a, and a cell supply portion 58 having a tube structure in which the liquid is branched from the liquid intake portion 14b. And a pump part 14c for feeding to the machine.
A conventionally known pump can be applied to the pump unit 14c.
In addition, a filter portion indicated by 14d is disposed in the liquid intake portion 14b. Thereby, it is possible to prevent sludge from entering the pump 14c.
Further, the liquid supply means 14 may be a part of the air battery 50 instead of a part of the air battery regenerator 10.
Also, the liquid tank 14a, the liquid intake part 14b, and the pump part 14c may be part of the air battery 50 instead of a part of the air battery regenerator 10.
On the other hand, the cell supply unit 58 may be a part of the air battery regenerator 10 instead of a part of the air battery 50.
With such a configuration, the sludge is removed in a state in which the fluidity is secured, so that the sludge can be efficiently removed.
In the present invention, it is preferable to have such a configuration, but it is not essential. For example, the liquid may be supplied not from the cell supply part side but from the liquid junction part side. At this time, although not shown, the liquid can be supplied from the liquid junction part side by changing the configuration of the liquid supply means.

  Then, when the discharge of the reusable air battery is finished and before removing the sludge, the liquid battery is supplied to the sludge so that the stack of the air battery is hardly decomposed. A large amount of sludge existing in the cell portion of the structure can be efficiently removed.

Furthermore, in this embodiment, the filter part 12a is detachable.
With such a configuration, it is possible to frequently replace a filter portion that may cause clogging when sludge removal is repeated, and to efficiently remove sludge. Of course, you may enable it to replace | exchange the filter itself in a filter part.
In the present invention, it is preferable to have such a configuration, but it is not essential.

Furthermore, in this embodiment, when the sludge removal means 12 removes sludge, the pump part 12c attracts | sucks sludge intermittently.
By adopting such a configuration, first, the pump unit 12c repeatedly sucks and depressurizes the sludge, so that the sludge is trapped by the filter unit and the liquid is accumulated in the drain unit. As a pump capable of intermittently repeating suction, for example, a diaphragm type dry vacuum pump (specifically, a diaphragm type dry vacuum pump DAP-15 manufactured by ASONE Co., Ltd. can be used) can be used. .
In the present invention, it is preferable to have such a configuration, but it is not essential.

  When removing the sludge, the sludge is intermittently sucked and removed, so that a large amount of sludge existing in the cell portion of the stack structure of the air battery can be efficiently removed without almost decomposing the stack structure. Can be removed well.

  As mentioned above, although this invention was demonstrated by some embodiment, this invention is not limited to these, A various deformation | transformation is possible within the range of the summary of this invention.

  For example, in the above-described embodiment, the case where the present invention is applied to an air battery having a bicell structure has been described with reference to the drawings, but the present invention can also be applied to an air battery having a full cell structure, although not illustrated. Such a case is also included in the scope of the present invention.

DESCRIPTION OF SYMBOLS 10 Air battery regeneration apparatus 12 Sludge removal means 12a Filter part 12b Drain part 12c Pump part 12d Pipe 14 Liquid supply means 14a Liquid tank 14b Liquid intake part 14c Pump part 14d Filter part 50 Air battery 52 Stack structure 54 Cell part 54a Negative electrode (Metal pole)
54b Positive electrode (air electrode)
55 Air flow path part 56 Liquid junction part 56a Narrowest part 58 Cell supply part E Electrolyte

Claims (4)

When the discharge of the reusable air battery is completed, it comprises sludge removing means for removing sludge present in the cell portion of the stack structure of the air battery,
The sludge removing means has a filter part, a drain part, and a pump part,
The sludge removing means is connected to a liquid junction provided at a lower portion of the cell portion and connecting the cell portions;
When the sludge removing means removes the sludge, the pump part sucks the sludge intermittently ,
The air battery regenerating apparatus , wherein the sludge removing means discharges the sludge through the liquid junction . A when the discharging of the air battery reusable has been completed, before the sludge removal means starts the removal of the sludge, wherein, characterized in that it comprises a liquid supply means for supplying liquid to the sludge Item 2. The air battery regenerator according to Item 1 .   The air battery regenerator according to claim 1, wherein the filter unit is detachable. An air battery system comprising the air battery regenerator according to any one of claims 1 to 3 and a reusable air battery.

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