Article Details


The Reasons of Thermal Runaway in Nickel-Cadmium Batteries

[ Vol. 11 , Issue. 1 ]

Author(s):

N. E. Galushkin, N. N. Yazvinskaya, D. N. Galushkin and I. A. Galushkina   Pages 4 - 9 ( 6 )

Abstract:


Background: A thermal runaway phenomenon occurs in batteries of all the electrochemical systems. In the case of the thermal runaway occurrence, a battery heats up sharply and afterwards a battery body inflammation is possible followed by an explosion. In this case inevitably, a system contained the battery goes unserviceable.

Objective: The goal of this work is to review the most important results received on thermal runaway by the present moment.

Results: It has been established experimentally that a probability of a thermal runaway in the nickel-cadmium accumulators KSX-25 grows with an increase of a constant-voltage charge as well as of an environmental temperature and an accumulator time in service. It was shown on the basis of charge cur-rent, terminal voltage, and change in battery temperature that during thermal runaway, the observed changes cannot be explained by the self-acceleration of known reactions (due to overheating), battery charging and electrolyte decomposition. The observed changes can only be explained if we assume, that the thermal runaway is associated with a powerful electrochemical reaction going within the battery with a terminal voltage approximately 0.55 V. It is shown that the recombination reaction of atomic hydrogen accumulated in the electrodes is exothermic thermal runaway reaction in alkaline batteries.

Conclusion: New mechanism of thermal runaway in Ni-Cd batteries, which explains all the experimental data known currently is proposed. Based on the proposed mechanism received patents for a method of diagnosing a predisposition of batteries to thermal runaway.

Keywords:

Battery, dendrites, exothermic reaction, hydrogen accumulation, nickel-cadmium, thermal runaway.

Affiliation:

Laboratory of Electrochemical and Hydrogen Energy, Don State Technical University, P.O. Box: 346500, Shakhty, Rostov Region,, Laboratory of Electrochemical and Hydrogen Energy, Don State Technical University, Shakhty, Rostov Region,, Rostov Branch of Russian Customs Academy, Town of Rostov-on-Don,, Novoshakhtinsk branch, Southern Federal University, Novoshakhtinsk, Rostov Region

Graphical Abstract:



Read Full-Text article