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Switch Gear & Protective Devices

by Jntu Heroes
Type: NoteInstitute: JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY Downloads: 409Views: 6035Uploaded: 8 months agoAdd to Favourite

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Switch Gear & Protective Devices by Jntu Heroes

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LECTURE NOTES ON SWITCHGEAR PROTECTION IV B. Tech I semester (JNTUH-R13)
Circuit Breaker UNIT - I Introduction: During the operation of power system, it is often desirable and necessary to switch on or off the various circuits (e.g., transmission lines, distributors, generating plants etc.) under both normal and abnormal conditions. In earlier days, this function used to be performed by a switch and a fuse placed in series with the circuit. However, such a means of control presents two disadvantages. 1. Firstly, when a fuse blows out, it takes quite sometime to replace it and restore supply to the customers. 2. Secondly, a fuse cannot successfully interrupt heavy fault currents that result from faults on modern highvoltage and large capacity circuits.   circuits where to these disadvantages, the use of switches and fuses is limited to low voltage and small capacity  Due frequent operations are not expected e.g., for switching and protection of distribution transformers,   lighting circuits, branch circuits of distribution lines etc.   With the advancement of power system, the lines and other equipment operate at very high voltages and carry large  currents. The arrangement of switches along with fuses cannot serve the desired function of switchgear   in such high capacity circuits. This necessitates employing a more dependable means of control such as is  obtained by the use of circuit breakers.   a circuit either manually or automatically under all conditions viz., no-load, fullA circuit breaker can make or break  load and short-circuit conditions.   characteristic of  the circuit breaker has made it very useful equipment for switching and protection of various parts  This of the power system.   A circuit breaker is a piece of equipment which can  (i) Make or break a circuit either manually or by remote control under normal conditions. (ii) Break a circuit automatically under fault conditions (iii) Make a circuit either manually or by remote control under fault conditions Thus a circuit breaker incorporates manual (or remote control) as well as automatic control for switching functions. The latter control employs relays and operates only under fault conditions.
Operating principle: A circuit breaker essentially consists of fixed and moving contacts, called Electrodes. Under normal operating conditions, these contacts remain closed and will not open automatically until and unless the system becomes faulty. Of course, the contacts can be opened manually or by remote control whenever desired. When a fault occurs on any part of the system, the trip coils of the circuit breaker get energized and the moving contacts are pulled apart by some mechanism, thus opening the circuit.      When the contacts of a circuit breaker are separated under fault conditions, an arc is struck between them. The current is thus able to continue until the discharge ceases. The production of arc not only delays the current interruption process  but it also generates enormous heat which may cause damage to the system or to the circuit breaker itself. Therefore, the main problem in a circuit breaker is to extinguish the arc within the shortest possible time so  that heat generated by it may not reach a dangerous value. Arc Phenomenon: When a short circuit occurs, a heavy current flows through the contacts of the circuit breaker before they are opened by the protective system. At the instant when the contacts begin to separate, the contact area decreases rapidly and large fault current causes increased current density and hence rise in temperature. The heat produced in the medium between contacts (usually the medium is oil or air) Is sufficient to ionize the air or vaporize and ionize the oil. The ionized air or vapor acts as conductor and an arc is struck between the contacts.    The potential difference between the contacts is quite small and is just sufficient to maintain the arc.  The arc provides a low  resistance path and consequently the current in the circuit remains UN interrupted so  long as the arc persists.  During the arcing period, the current flowing between the contacts depends upon  the arc resistance. The greater the arc resistance, the smaller the current that flows between the contacts. The arc resistance depends upon the following factors: 1. Degree of ionization- the arc resistance increases with the decrease in the number of ionized particles between the contacts. 2. Length of the arc— the arc resistance increases with the length of the arc i.e., separation of contacts. 3. Cross-section of arc— the arc resistance increases with the decrease in area of X-section of the arc.
Principles of Arc Extinction: Before discussing the methods of arc extinction, it is necessary to examine the factors responsible for the maintenance of arc between the contacts. These are: 1. Potential difference between the contacts. 2. Ionized particles between contacts taking these in turn.   difference becomes inadequate to maintain the arc. However, this method is impracticable in high voltage  system where a separation of many meters may be required.      When the contacts have a small separation, the Potential difference between them is sufficient to maintain the arc. One way to extinguish the arc is to separate the contacts to such a distance that Potential The ionized particles between the contacts tend to maintain the arc. If the arc path is demonized, the arc extinction will be facilitated. This may be achieved by cooling the arc or by bodily removing the ionized particles from the space between the contacts.  Methods of Arc Extinction (or) Interruption: There are two methods of extinguishing the arc in circuit breakers viz. 1. High resistance method. 2. Low resistance or current zero method High resistance method: In this method, arc resistance is made to increase with time so that current is reduced to a value insufficient to maintain the arc. Consequently, the current is interrupted or the arc is extinguished.  The principal disadvantage of this method is that enormous energy is dissipated  in the arc. Therefore, it is employed only in D.C. circuit breakers and low-capacity a.c. circuit breakers. The resistance of the arc may be increased by: 1. Lengthening the arc: The resistance of the arc is directly proportional to its length. The length of the arc can be increased by increasing the gap between contacts. 2. Cooling the arc: Cooling helps in the deionization of the medium between the contacts. This increases the arc resistance. Efficient cooling may be obtained by a gas blast directed along the arc.

Lecture Notes