中英文翻译--电力系统继电保护(适用于毕业论文外文翻译+中英文对照).doc
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1、外文资料Power System ProtectionsIntroductionThe steady-state operation of a power system is frequently disturbed by various faults on electrical equipment. To maintain the proper operation of the power system, an effective, efficient and reliable protection scheme is required. Power system components ar
2、e designed to operate under normal operating conditions. However, if due to any reason, say a fault, there is an abnormality, it is necessary that there should be a device which senses these abnormal conditions and if so, the element or component where such an abnormality has taken place is removed,
3、 i.e. deleted from the rest of the system as soon as possible. This is necessary because the power system component can never be designed to withstand the worst possible conditions due to the fact that this will make the whole system highly uneconomical. And therefore, if such an abnormality takes p
4、lace in any element or component of the power system network, it is desirable that the affected element / component is removed from the rest of the system reliably and quickly in order to restore power in the remaining system under the normal condition as soon as possible.The protection scheme inclu
5、des both the protective relays and switching circuits, i.e. circuit breakers. The protective relay which functions as a brain is a very important component. The protective relay is a sensing device, which senses the fault, determines its location and then send command to the proper circuit breaker b
6、y closing its trip coil. The circuit breaker after getting command from the protective relay, disconnects only the faulted element. This is why the protective relay must be reliable, maintainable and fast in operation.In early days, there used to be electromechanical relay of induction disk-type. Ho
7、wever, very soon the disk was replaced by inverted cup, i.e. hollow cylinder and the new relay obtained was known as an induction cup or induction cylinder relay. This relay, which is still in use, possesses several important features such as higher speed, higher torque for a given power input and m
8、ore uniform torque.However, with the advent of electronic tubes, electronic relays having distinct features were developed during 1940s. With the discovery of solid state components during 1950s, static relays with numerous advantages were developed. The use of digital computers for protective relay
9、ing purposes has been engaging the attention of research and practicing engaging the attention of research and practicing engineers since late 1960s and 1980s. Now, the microprocessor/mini computer-based relaying scheme, because of its numerous advantages such as self-checking feature and flexibilit
10、y, has been widely used in power systems all over the world.The overall system protection is divided into following sections: (i) Generator protection, (ii) Transformer protection, (iii) Bus protection, (iv) Feeder protection, (v) Transmission line protection.Basic Requirements to Protective RelaysA
11、ny protection scheme, which is required to safeguard the power system components against abnormal conditions such as faults, consists basically of two elements: (i) Protective relay and (ii) Circuit breaker. The protective relay which is primarily the brain behind the whole scheme plays a very impor
12、tant role. Therefore proper care should be taken in selecting an appropriate protective relay which is reliable, efficient and fast in operation. The protective relay must satisfy the following requirements:(1)Since faults on a well designed and healthy system are normally rare, the relays are calle
13、d upon to operate only occasionally. This means that the relaying scheme is normally idle and must operate whenever fault occurs. In other words, it must be reliable.(2)Since the reliability partly depends upon the maintenance, the relay must be easily maintainable.(3)The maloperation of the relay c
14、an be in two ways. One is the failure to operate in case a fault occurs and second is the relay operation when there is no fault. As a matter of fact, relay must operate if there is a fault and must not operate if there is no fault.(4)Relaying scheme must be sensitive enough to distinguish between n
15、ormal and the faulty system.Protective RelaysThe function of the protective relays is to sense the fault and energize the trip coil of the circuit breaker. The following types of protective relays are used for the apparatus such as synchronous machines, bus bar, transformer and the other apparatus a
16、nd transmission line protection.(1)Overcurrent relays.(2)Undervoltage relays.(3)Underfrequency relays.(4)Directional relays.(5)Thermal relays.(6)Phase sequence relays such as (i) negative sequence relays and, (ii) zero sequence relays.(7)Differential relays and percentage differential relays.(8)Dist
17、ance relays such as (i) plane impedance relays, (ii) angle impedance relays, i.e. Ohm or reactance relays, (iii) angle admittance relays, i.e. Mho relays and, (iv) offset and restricted relays.(9)Pilot relays such as (i) wire pilot relays, (ii) carrier channel pilot relays, (iii) microwave pilot rel
18、ays.There are different types of the relaying scheme based on construction. They are: (i) electromechanical type, (ii) thermal relays, (iii) transductor relays, (iv) rectifier bridge relay, (v) electronic relays, (vi) static relays, (vii) digital relaying schemes.Faults and Their Damages on Power Sy
19、stemsFaults on Transmission LinesBecause transmission lines are exposed to lightning and other atmospheric hazards, faults on them occur more frequently than those in apparatus. The types of faults taking place on a transmission line are listed, in the order of severity, as following:(1)3- fault (LL
20、L fault) or 3- to ground fault (LLLG fault) with or without fault impedance. This fault which is most severe but least common is only one in number.(2)Double line to ground (LLG) fault with or without fault impedance. This fault is less severe but more common than 3- fault. However, this type of fau
21、lts are three in number.(3)Line to line (LL) fault. This fault is more common but less severe than the above faults. These faults are also three in number.(4)Single line to ground (LG) fault. This fault is the least severe but the most common one. These faults are also three in number.From the above
22、, we conclude that are four types of faults which are ten in number. The first three faults such as LLL or LLLG, LLG and LL faults involving two or more phases are known as phase fault while the fourth fault, namely, LG fault, is called ground fault. All of the line faults will bring the system into
23、 abnormal operating conditions, and may damage electrical equipment. Therefore, the faulty lines must be isolated from the system by protection relays.Faults in Synchronous MachinesGenerators are subjected to varieties of possible hazards when they are in operation. The possible hazards or faults wh
24、ich may occur in a synchronous generator can broadly be classified into two categories: (i) internal faults within the generator, (ii) abnormal operating and/or abnormal system conditions caused by external faults. Internal faults of a generator mainly include stator faults and rotor faults.Stator F
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