HIGH VOLTAGE ENGINEERING. Conduction and breakdown in commercial liquids
1. HIGH VOLTAGE ENGINEERING
[2160904]
ACTIVE LEARNING ASSIGNMENT :
TOPIC : CONDUCTION AND BREAKDOWN IN COMMERCIAL LIQUIDS.
UNIVERSITY : GUJARAT TECHNOLOGICAL UNIVERSITY.
COLLEGE : VADODARA INSTITUTE OF ENGINEERING.
DEPARTMENT : ELECTRICAL ENGINEERING [E.E.– I].
SEMESTER : VI.
PREPERED BY :
130800109025 [ MEET K. JANI ]
130800109026 [ BHARGAV M. JAYSWAL ]
130800109027 [ JESTY JOSE ]
130800109028 [ JOBIN ABRAHAM ]
GUIDED BY : ASSO. PROF. ANJALIBA D. RANA.
[ELECTRICAL DEPARTMENT]
ACTIVE LEARNING ASSIGNMENT
1
2. Contents:
Introduction
Suspended Particle Mechanism
Cavitation and Bubble Mechanism
Thermal Breakdown
Stressed Oil Volume Theory
References
ACTIVE LEARNING ASSIGNMENT 2
3. Introduction:
Commercial insulating liquids are not chemically pure and have
impurities like gas bubbles, suspended particles etc. These impurities
reduce the breakdown strength.
When breakdown occurs in these liquids, additional gases and gas
bubbles are evolved and solid decomposition products are formed.
In general the breakdown mechanisms are classified as follows:
Suspended Particle Mechanism
Cavitation and Bubble Mechanism
Thermal Mechanism
Stressed oil volume theory
ACTIVE LEARNING ASSIGNMENT 3
4. Suspended Particle Mechanism:
𝑭 =
𝟏
𝟐𝒓 𝟑
∈2 −∈1
𝟐∈1 +∈2
𝒈𝒓𝒂𝒅𝑬 𝟐
If the voltage is continuously applied (d.c.) or the duration of the
voltage is long (a.c.), then this force drives the particles towards the
areas of maximum stress. If the number of particles present are
large, they becomes aligned due to these forces, and thus form a
stable chain bridging the electrode gap causing a breakdown between
the electrodes.
The larger the size of the particles, the lower is the breakdown
strengths.
ACTIVE LEARNING ASSIGNMENT 4
5. Cavitation and Bubble Mechanism:
The following processes have been responsible for the formation of
the vapor bubbles.
Gas pockets at the surface of the electrodes.
Electrostatic repulsive forces between space charges which may
be sufficient to overcome the surface tension.
Gaseous products due to the dissociation of liquid molecules by
electron collisions.
Vaporization of the liquid by corona type discharge.
E0=
𝟏
∈1 −∈ 𝟐
𝟐𝝅𝝈 𝟐∈1 +∈2
𝒓
𝝅
𝟒
(Vb)
𝟐𝝅(E0)
− 𝟏
ACTIVE LEARNING ASSIGNMENT 5
6. Thermal Breakdown:
Based on the experimental observations of extremely large currents
just before breakdown. The high current pulses originate from the
tips of the microscopic projections on the cathode surface with
densities of the order of 1 A/cm3. This high density current pulses
give rise to localized heating of the oil which may lead to the
formation of vapor bubbles.
When a bubble is formed, breakdown follows, either because of its
elongation to a critical size or when it completely bridges the gap
between the electrodes.
ACTIVE LEARNING ASSIGNMENT 6
7. Stressed Oil Volume Theory:
Breakdown strength is determined by the “largest
possible impurity” or “weak link” in commercial liquids
where minute traces of impurities are present.
The breakdown voltage determined by,
Gas content in the oil
Viscosity of the oil
Impurities present in the oil
ACTIVE LEARNING ASSIGNMENT 7
8. Stressed Oil Volume Theory{cont.}:
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9. References:
1. M.S. Naidu, V. Kamaraju “HIGH-VOLTAGE ENGINEERING”, McGraw
Hill Education (India) Private Limited, Fifth Edition, Second
Reprint, 2014, ISBN : 978-1-25-906289-6.
2. C.L. Wadhwa “HIGH VOLTAGE ENGINEERING”, NEW AGE
INTERNATIONAL (P) LIMITED, PUBLISHERS, THIRD EDITION, Reprint,
2015, ISBN : 978-81-224-3090-5.
3. https://srirajkumar.files.wordpress.com/2012/07/conduction-and-
breakdown-in-pure-liquid-dielectrics.pdf
ACTIVE LEARNING ASSIGNMENT 9