RU2531012C1 - Method for consumable electrode input to aluminium-air power supply source - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: consumable electrode is shaped as a rod with helical surface and moved inside a body of aluminium-air power supply source as power is generated, at that movement of the consumable electrode takes place in result of its screwing into hydrophobic covers made of hydrophobic material (fluorine plastic, polyethylene), moreover electrolyte remains inside a fuel cell and hydrogen released during operation is removed along helical surface from the body of aluminium-air power supply source. The suggested method allows automation of the consumable electrode replacement process in aluminium-air power supply source without interruption of the power supply circuit.

EFFECT: providing automatic input of the electrode into aluminium-air power supply source without interruption of the power supply circuit with removal of hydrogen released during operation and improving power performance of the fuel cell.

2 dwg

Description

The invention relates to energy sources, in particular to air-aluminum current sources.

Known chemical current source (Pat. RU 2127932), in which the replacement of the aluminum electrode is also carried out by opening the battery housing with the subsequent installation of a new electrode.

A disadvantage of the known method of introducing an electrode into a battery is that for the period of replacing the electrode, the battery must be taken out of the power supply circuit.

A fuel battery is known (application RU 2011127181), in which consumable electrodes in the form of tapes are pulled through the battery housing through the pressure glands and the pressure glands as they are developed using long drums, which ensures that the consumable electrodes enter the battery without interrupting the power supply circuit.

The disadvantage of this method is that the gas inlets and gas inlets do not remove hydrogen released from the battery during operation.

The technical result of the invention is the provision of automatic input of the electrode into an air-aluminum current source without interrupting the energy supply circuit, removing hydrogen released during operation and increasing the energy performance of the fuel cell.

The specified technical result is achieved by the fact that a consumable electrode in the form of a rod with a helical surface moves inside the air-aluminum current source body as it is generated, the movement of the consumable electrode occurs as a result of screwing it into hydrophobic covers that are made of hydrophobic material (fluoroplastic, polyethylene) while the electrolyte remains inside the fuel cell, and the hydrogen released during operation is removed along the helical surface from the fuel cell housing.

The core of the consumable electrode rod is made in the form of a helical surface, which allows to increase the active area of the consumable electrode and thus increase the energy characteristics (amount of current taken) of the air-aluminum fuel cell.

The essence of the method is illustrated by drawings, where: figure 1 shows an air-aluminum current source, figure 2 is a view A.

The air-aluminum current source consists of a metal housing 1 with openings 2 for air to pass to the three-phase boundary, a gas diffusion cathode 3-air-electrolyte 4, 2 hydrophobic covers 5 located on both sides of the metal housing 1, an aluminum rod 6 with a screw surface.

As the air-aluminum current source is working, corrosion and passivation of the helical surface of the aluminum rod 6 occurs, which leads to a decrease in the magnitude of the removed current and the attenuation of the electrochemical process. To activate the process, it is necessary to screw the aluminum rod 6 into the hydrophobic caps 5. The hydrogen is released through the screw surfaces of the hydrophobic caps 5, while the electrolyte remains inside the metal housing 1 of the air-aluminum current source.

This method allows you to automate the process of replacing the anode (consumable electrode) in an air-aluminum current source (VAIT) without interrupting the energy supply circuit, as well as removing hydrogen released during operation.

Claims (1)

The method of introducing a sacrificial electrode into an air-aluminum current source consists in the fact that a consumable electrode in the form of a rod with a helical surface moves inside the air-aluminum current source body as it is generated, the movement of the consumable electrode occurs as a result of screwing it into hydrophobic covers, which are made from a hydrophobic material, such as fluoroplastic or polyethylene, while the electrolyte remains inside the air-aluminum current source, and released during operation during Orod removed on a screw surface of the housing air-aluminum current source.

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