High Power Neutral Electrolyte Metal-Air Battery System and Method of Use
An air battery and electrolyte technology, which is applied in the direction of electrolyte flow treatment, fuel cell additives, fuel cell type half cells and primary cell type half cells, etc. It is difficult to remove the material, the temperature of the battery plate rises, etc., to achieve the effect of low cost, simple start-up and use, and load cut off at any time.
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Embodiment 1
[0030] A high-power neutral electrolyte metal-air battery system. The battery system is composed of two or more (serial or parallel) basic battery units 20, electrolyte filter box 10, circulation pump 102, control valve 111, electrolyte input distributor 112, electrolyte discharge main pipe 114, drain valve 117, electrolyte overflow main pipe 116, control circuit 12, controller and connecting pipeline etc. are formed. The basic battery unit is composed of a reaction box 200, an anode 203, a cathode 201, an electrolyte, a cathode bus bar 202, and an anode bus bar 204. The two sides of the reaction box are provided with an electrolyte input port 207, an electrolyte outlet port 206, and an electrolyte overflow port. Exhaust port 208 .
Embodiment 2
[0032] In a high-power neutral electrolyte metal-air battery system, the metal-air battery is composed of at least two basic battery cells 20 connected in series or in parallel to form a battery pack 11 . When the battery pack 11 is running, the control valve 111 is opened, and the circulation pump 102 located in the circulation filter box 10 pumps the filtered electrolyte into the battery pack 11 . An electrolyte input distributor 112 is arranged above the battery pack 11 , and the electrolyte input distributor 112 sends the electrolyte to the electrolyte input port 207 of each reaction box 200 through the electrolyte input communication pipe 113 . The excess electrolyte input into the reaction box 200 is discharged to the electrolyte overflow main pipe 117 through the electrolyte overflow exhaust port 208 on the upper part of the reaction box 200 through the electrolyte overflow pipe 118 . The electrolyte solution overflowed from each reaction box 200 flows into the circulat...
Embodiment 3
[0034] The use method of the air battery comprises the following steps:
[0035] Step A: Open the control valve 111, and under the drive of the circulating pump 102, pump the pre-filtered electrolyte into the electrolyte input distributor 112, and then flow into the reaction tank 200 of each basic battery unit 20, according to the temperature of the electrolyte Control the switch of the drain valve 116 to discharge the high-temperature electrolyte and the reaction residue in the reaction tank 200 to the filter tank 10;
[0036] Step B: Start the circulation pump 102 to pump the electrolyte into the reaction tank 200 through the water inlet pipe to control the water level of the reaction tank 200. After the water levels of all the reaction tanks 200 reach the working water level, start the drain valve 116 of the battery system to drain the water generated during the reaction. The reaction residue together with the electrolyte is exported to the filter box 10 through the electroly...
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