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Non-stationary seawater battery

A seawater battery, non-fixed technology, applied in submerged batteries, delayed action cells, etc., can solve the problems of difficult electrode replacement and complex assembly structure of seawater batteries, and achieve the effects of easy replacement, reduced complexity, and reduced manufacturing costs

Active Publication Date: 2019-05-24
TAIWAN CARBON NANO TECHNOLOGY CORPORATION
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Problems solved by technology

[0005] The main purpose of the present invention is to solve the problems of complex assembly structure of seawater battery and difficult replacement of electrodes

Method used

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  • Non-stationary seawater battery

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Embodiment Construction

[0012] Relating to the detailed description and technical contents of the present invention, it is now described as follows with regard to the accompanying drawings:

[0013] see figure 1 Shown is a schematic cross-sectional structure diagram of a preferred embodiment of the present invention. The present invention is a non-fixed seawater battery, which includes a first battery 10, a second battery 20 disposed on the first battery 10, and a conductive component 30, and the first battery 10 includes a first tank 11 , a first seawater electrolyte 12 and a first electrode assembly 13, the first seawater electrolyte 12 is housed in the first tank body 11, the first electrode assembly 13 is in contact with the first seawater electrolyte 12, It also includes a first anode 131 disposed at the bottom of the first tank 11 and a first cathode 132 that is separated from the first anode 131 and suspended on the first seawater electrolyte 12. The second battery 20 includes There is a sec...

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Abstract

PROBLEM TO BE SOLVED: To provide a seawater battery that is improved in assembly configuration and easy in exchange of a battery.SOLUTION: In a seawater battery, a first battery 10 includes a first slot body 11, first seawater electrolytic solution 12, and a first electrode component 13. The first electrode component includes a first anode 131 installed at the bottom of the first slot body, and a first cathode 132 floating on the first seawater electrolytic solution. A second battery 20 includes a second slot body 21, second seawater electrolytic solution 22, and a second electrode component 23. The second electrode component includes a second anode 231 installed at the bottom of the second slot body, and a second cathode 232 floating on the second seawater electrolytic solution. A electrically conductive component 30 is electrically connected to the first electrode component and the second electrode component. An electrode can be easily exchanged by merely taking out old first anode and second anode, and inserting new first anode and second anode.SELECTED DRAWING: Figure 1

Description

technical field [0001] The invention relates to a seawater battery, in particular to a non-fixed seawater battery. Background technique [0002] With the increasing global population and the advancement of science and technology, people's demand for energy continues to rise. The supply of traditional fossil energy such as oil and coal has gradually exceeded demand. Therefore, renewable energy has gradually attracted attention. Therefore, using seawater to generate electricity has also become a development focus. [0003] The methods of using seawater to generate electricity are mainly tidal power generation, seawater temperature difference power generation, and seawater batteries. Among them, seawater batteries use seawater as the electrolyte, as long as the electrodes are immersed in seawater, they can generate electricity, making them particularly attractive in applications. In order to obtain greater power output, most of the applications are to design multiple seawater ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01M6/34
CPCH01M6/34
Inventor 李光哲蔡群贤蔡群荣李庭鹃
Owner TAIWAN CARBON NANO TECHNOLOGY CORPORATION
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