A method for determining the liquid injection volume of a lithium battery
A technology for liquid injection and determination of lithium batteries, which is applied in battery pack components, electrolyte storage battery manufacturing, non-aqueous electrolyte storage batteries, etc., and can solve problems such as safety accidents, insufficient gas production, and low battery capacity.
Active Publication Date: 2022-01-07
上海国轩数字能源科技有限公司
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AI Technical Summary
Problems solved by technology
Generally speaking, due to the existence of the formation process, lithium batteries include primary liquid injection and secondary liquid injection. If the primary liquid injection is insufficient, it will lead to insufficient formation of the battery and insufficient gas production, resulting in low battery capacity and easy swelling; Insufficient secondary liquid injection will lead to faster capacity decay and reduced battery life in later use
In addition, whether it is one-time injection or two-time injection, insufficient electrolyte volume is prone to "lithium precipitation" phenomenon, resulting in rapid capacity decay and even safety accidents
However, it is not easy to inject too much liquid. In addition to increasing the weight of the battery itself and reducing the energy density, too much electrolyte will reduce the remaining space inside the battery, resulting in an increase in the internal pressure of the battery and easily causing accidents.
Method used
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Experimental program
Comparison scheme
Effect test
Embodiment
[0034] (1) For the liquid injection volume of the 48Ah ternary battery, the total liquid injection volume m = 48*2.9 = 139.3g, the initial value of the total liquid injection volume is set at 140g, and the one-time injection volume m1 = m*82% = 114.5g , the initial value of one injection is set to 115g, and the gradient is 3g, that is, it is divided into four gradients of 115g, 118g, 121g, and 124g; then, the lithium battery after the one injection is left still and formed is disassembled and measured. Mass of residual electrolyte m 3 , it is found that the injection volume m 1 When it is 118g, condition 1 is satisfied, and the results of the maximum gas production show that one injection volume m 1 When it is 118g, condition 2 is satisfied; the final injection volume is determined to be 118g;
[0035] (2), the amount of the second injection m2 = m - m1 = 140-118 = 22g, the gradient is 3g, which is divided into four gradients 22g, 25g, 28g, 31g; Disassemble the lithium batt...
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The invention discloses a method for determining the liquid injection volume of a lithium battery. The liquid injection of a lithium battery is divided into primary liquid injection and secondary liquid injection. Firstly, experiments with different primary liquid injection volumes are designed to determine the amount of formed gas and disassemble the battery to determine Determine the amount of residual electrolyte to determine the appropriate primary liquid injection volume; then conduct experiments on different secondary liquid injection volumes, and determine the appropriate secondary liquid injection volume by disassembling the battery to determine the residual electrolyte volume and subsequent gas production. The invention is simple and fast in operation, can be applied to different types of batteries, and can quickly determine the suitable liquid injection volume of different batteries in a relatively short period of time. For power batteries, it can quickly and safely formulate the appropriate liquid injection volume, and has the advantages of Certain practical value.
Description
technical field [0001] The invention relates to the field of lithium battery manufacture, in particular to a method for determining the liquid injection volume of the lithium battery. Background technique [0002] With the large-scale application of lithium batteries, their performance has attracted much attention, especially the vigorous promotion of new energy vehicles, which has directly promoted the development of power lithium batteries, which also put forward higher requirements for the performance of lithium batteries. [0003] Users are most concerned about the performance of lithium batteries, including capacity, life and safety performance, and the amount of liquid injection is inseparable from the above points. Generally speaking, due to the existence of the formation process, lithium batteries include primary liquid injection and secondary liquid injection. If the primary liquid injection is insufficient, it will lead to insufficient formation of the battery and ...
Claims
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IPC IPC(8): H01M50/609H01M10/058H01M50/60
CPCH01M10/058H01M50/60Y02E60/10Y02P70/50
Inventor 吴昊天汪亚军厉运杰
Owner 上海国轩数字能源科技有限公司