Abstract

The results of experimental studies of the electrode degradation caused by electrochemical reactions under the action of high-voltage fields are presented. Under study were technical hydrocarbon and polymethylsiloxane (PMS) liquids, their solutions with iodine (I2) at chemically active (Cu) and indifferent (Ti) electrodes. It is shown that in hydrocarbons the Cu electrodes interact intensively with I2, and the cathodic degradation is more intense than the anodic one. The Ti electrodes do not degrade, but physical adsorption of I2 occurs on them in hydrocarbons, and a polymer film forms on them in PMS. The kinetics of degradation in time was studied.

Highlights

  • The results of experimental studies of the electrode degradation caused by electrochemical reactions under the action

  • the cathodic degradation is more intense than the anodic one

  • The kinetics of degradation in time was studied

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Summary

Объемная ионизация

1. ЭГД-течения в симметричных системах электродов в растворах трансформаторного масла с йодом [15]:. При симметричных электродных системах типа две параллельные проволочки либо лезвие–лезвие течение в растворе ТМ с молекулярным йодом всегда направлено от катода, а вблизи анода течение не формируется Что при Ti электродах электрический ток, а следовательно, ЭГД течение в растворах трансформаторного масла с йодом (ТМ+I2) затухают значительно медленнее, чем при Cu электродах X−n + продукты, Структура приэлектродной области где X-n – электроотрицательная группа с захваченным с поверхности металла электроном e- в ходе электрохимического акта; kок – константа скорости электрохимической реакции; n – целое число. Что любой металл обладает высокой химической активностью, а инертность того или иного металла определяется оксидной пленкой на его.

Область омической проводимости ξ D ξ d
МЕТОДИКА ИЗМЕРЕНИЙ
Токовые характеристики
Федерации в рамках госзадания
КОНФЛИКТ ИНТЕРЕСОВ
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