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A rapid assessment method for the health status of decommissioned battery modules of electric vehicles

A battery module, electric vehicle technology, applied in the direction of measuring electricity, measuring electrical variables, instruments, etc., can solve the problems of high cost, time-consuming and laborious, and achieve the effects of fast sorting, low cost, and accurate fitting results

Active Publication Date: 2020-04-21
北京赛德美资源再利用研究院有限公司
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Problems solved by technology

[0004] Aiming at the time-consuming, labor-intensive and high-cost problems of residual energy detection in the process of reusing decommissioned batteries, the present invention proposes a rapid evaluation method for the health status of decommissioned battery modules of electric vehicles, which compares the health status SOH of the battery with the voltage during the discharge process Lorenz dispersion To compare and analyze the SOH and discharge process The correlation between values, in order to achieve the purpose of consistent and rapid sorting of decommissioned batteries, and truly realize the low-cost goal of reusing decommissioned batteries

Method used

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  • A rapid assessment method for the health status of decommissioned battery modules of electric vehicles
  • A rapid assessment method for the health status of decommissioned battery modules of electric vehicles
  • A rapid assessment method for the health status of decommissioned battery modules of electric vehicles

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Embodiment Construction

[0023] This test uses the decommissioned lithium iron phosphate battery module (15P4S, 15 in parallel and 4 strings) on Chery EQ electric vehicles, with a nominal capacity of 40Ah, consisting of 4 strings of 15P1S modules. The rated voltage of the 15P1S module is 3.2V.

[0024] Further description will be given below in conjunction with the accompanying drawings and actual experimental data. First, calibrate the actual capacity of the decommissioned battery module and calculate its SOH, Actual capacity measurement steps: (1) Charge with C / 3 constant current and constant voltage to the upper limit specified by the company; (2) Stand still for 30 minutes; (3) Discharge with C / 3 constant current to the lower limit specified by the company; (4) Stand still for 30min. Take the discharge capacity as the actual capacity.

[0025] Then the battery management system collects the voltage data of the 15P1S module under different SOCs in the battery module during the discharge process...

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Abstract

The invention relates to a rapid evaluation method for a state of health of an ex-service battery module of an electric vehicle. According the rapid evaluation method, the state of health (SOH) of thebattery is compared with voltage Lorenz dispersion sigma<-> in a discharging process, the correlation between the SOH and a sigma<-> value during the discharging process are analyzed, and the workload is not increased since an operating voltage during the charging and discharging processes of the battery can be acquired in real time by means of a battery management system without additional acquisition; the acquired operating voltage is not limited to a certain state of charge (SOC) value as long as it is in a corresponding SOC interval, and the method is more convenient; and the calculationof the voltage Lorenz dispersion sigma<-> is based on a result of voltage equalization in the SOC interval, and the calculation result is more precise. The rapid evaluation method can realize rapid evaluation of the SOH of an ex-service battery of the electric vehicle by just calculating the voltage Lorenz dispersion sigma<-> during the discharging process of the ex-service battery module to be detected, so as to carry out consistent rapid sorting, thereby achieving the purposes of simple, convenient and low-cost recycling of the ex-service battery.

Description

technical field [0001] The invention relates to an energy reuse technology, in particular to a method for rapidly evaluating the health state of a decommissioned battery module of an electric vehicle. Background technique [0002] In 2017, the sales volume of electric vehicles in my country exceeded 770,000. With the rapid development of the electric vehicle industry, the cascade utilization of decommissioned power batteries is becoming a new research hotspot. It is generally believed that when the capacity of the power battery drops to about 80% of the nominal capacity, these power batteries need to be decommissioned from the electric vehicle due to reasons such as frequent charging and mileage anxiety, but the decommissioned battery still has a certain remaining capacity. It can still be reused in some energy storage situations, such as portable backup power supply, electric forklift power supply and renewable energy storage. [0003] Because the power battery has been u...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01R31/367G01R31/392
Inventor 廖强强张友琅谭轶童周鹏李新周刘鑫鑫冯家辉
Owner 北京赛德美资源再利用研究院有限公司
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