SU1686538A1 - A method for diagnosis of storage batteries serviceability in a set of batteries - Google Patents

Abstract

The invention relates to the electrical industry, in particular, to the operation of electric batteries. The purpose of the invention is to improve the accuracy of diagnostics, expand the field of application and obtain comparable results for different batteries of the same size. The method consists in the discharge of a pre-infected battery by increasing current steps following the next transition to discharge by decreasing current steps. In this step, discharge is performed at each step up to the experimentally established minimum voltage on the battery for the current of this step and complete the diagnosis at the same current for all diagnosed batteries 1 z p f-ly BUT

Description

FIELD OF THE INVENTION The invention relates to the electrical industry, in particular, to the issue of battery operation (AB).

The aim of the invention is to improve the accuracy of diagnostics and the expansion of the field of application to create a bank of backup batteries for the replacement of disabled batteries.

A method for diagnosing the performance of batteries in a battery is carried out as follows.

In order to diagnose batteries, ABs are loaded with a discretely increasing current with a constant step and simultaneously measured at each current step, the voltage at each battery and upon reaching a constantly increasing

the ratio of the minimum allowable when the battery voltage is discharged in a battery is equal to or greater than the experimentally established value of this ratio for this electrochemical system, reduce the value of the current input voltage, where step 1 and the discharge at each stage lead to the minimum the voltage corresponding to the current of this stage, the discharge is completed at the last stage, provided that the ratio of the minimum battery voltage for the last stage to the media Its battery voltage value in the battery is in advance of the value of a battery and the battery voltage is taken from the battery battery.

about ate

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tory by the end of the discharge was less than the minimum allowable for this level of discharge. By reducing the current in n steps, i.e. at lower discharge currents, the voltage drop at the end of the discharge has a flatter character, i.e. during the measurement of the voltage on all the batteries, the range of voltage variation, as well as the capacitance taken at this time, at a lower current, will be smaller.

It would be possible, after reaching the minimum voltage at the maximum current, to go to the last step, but at the same time the time for diagnosis increased, since the battery is detonated at a lower current for longer

In order to obtain comparable results for different batteries and to create a bank of backup batteries, the battery is precharged prior to the start of the discharge before the signs of the end of the charge, the discharge of the diagnosed batteries with step-down current is completed at the same discharge current level for batteries of the same size, and for each battery, the total value of the capacitance at all discharge levels is determined taking into account the return coefficient for each discharge current.

Charging AB is necessary to determine its capacity. The requirement to take into account the recoil coefficient is due to the fact that the capacity of the batteries depends on the discharge current.

The requirement to complete the diagnostics of batteries of the same size with the same magnitude of discharge tokz is necessary so that the diagnostic accuracy is the same and the results are comparable.

For example, consider the process of diagnosing two ABs, each of which consists of six TNZ-250 type batteries. 8 The first battery includes batteries 1 - 6, the second - 6 - 12

For batteries of type TNZh-250, we establish that when the ratio of the minimum permissible voltage / min / reaches / to the average value of the battery voltage is 0.95, the diagnostic process ends. Batteries on which at the time of the end of diagnostics the voltage is less than 1.05 V are excluded from the composition of the battery and transferred to the reserve bank.

Let Ui denote the voltage on the I-th of the battery at the end of each discharge stage, t) time, and Ij - discharge current at the j-th stage. We introduce the coefficient KJ, which is equal to the ratio of the recoil coefficient at the discharge current, equal to Ij to the coefficient of return at the rated discharge current / 0,2Sm /. Then the capacity of the batteries and the battery can be calculated by the formula:

with 2 4-ijtj.

1 1 to

where n is the number of discharge levels.

The calculation of the capacity of the battery included all the time of diagnosis, and to calculate the capacity of the batteries that were in the reserve bank, only the time when the load on them was at the last stage more than the minimum allowable.

Batteries 1 and 2 are charged until signs of termination appear and are discharged according to the above algorithm.

In the re-heel rate, the capacity of AB 1 was 238.9 Ah — the capacity of batteries 2 and 3 was 228.1 Ah and 233.1 Ah, respectively, and they were transferred to a reserve bank.

The capacity of AB 2 was 230.0 A-h. And the capacity of the battery 11 is 221.64 Ah, and it is brought into the backup battery bank. To complete the battery 2 from the backup battery bank, you can take the battery 3.

Formupch invention

Claims (2)

1 Method for diagnosing battery performance P the composition of batteries by discarding the increase in discharge current with a single measurement at each current step of the voltage on individual batteries and when the ratio reaches the minimum allowable when the battery voltage is discharged to the average battery voltage the torus in the battery is larger than the experimentally set r, of this electrochemical system, reduce the magnitude of the discharge current and find the voltage on each battery and terminate the discharge When the above ratio becomes equal to or greater than the predetermined, then the battery is disconnected from the battery, and the battery is removed from it, the voltage on which was less than the experimentally established value before disconnecting, because In order to improve the accuracy of diagnostics and expand the field of application, during discharge, the current is reduced in steps, where step 1, the discharge at each step is performed before any battery reaches the minimum allowable voltage corresponding to the current of this step. and, and at the last stage, the discharge is completed on condition that the ratio of the minimum permissible voltage of the accumulator for the current of the last stage to the average value of the battery voltage, .returned from the battery, is preset. - neither, from the battery output; batteries, the voltage at which h the end of the discharge was less than the minimum permissible for the current of this stage. 2. The method according to claim 1, of which is, in order to obtain for different ba Gorek gu.nogs type compost. results and create a bank reserve-- d - instructors, controlled bater and}; the beginning of the discharge. zyut up to 1, hour, g, .pakchkov end of the discharge; discharge; -. 5 with the current is terminated by n (Pnoy and, + e C, / of the penny of the discharge ton ek a and, moreover, r - kz. Of the second battery is determined. - the measured value of the removed capacitance on coefficient -. - ,; г; тц:; ш дп each current of rachrod