TD unit 5-1.ppt
- 2. SUB-STATION Introduction •In present days electrical power system is A.C. i.e. electrical power generated, transmitted and distributed in the form of alternating current. •The electric power generated at suitable places, generally quite away from the consumers. It is delivered to the consumers through a large network of transmission and distribution. •At the many places in the line of the power system, it may be desirable and necessary to change some characteristics (e.g. voltage, A.C to D.C., frequency, p.f., etc.). This is accomplished by some suitable apparatus arrangement is called ‘sub-station’.
- 3. SUB-STATION DEFINITION The assembly of apparatus to change some characteristics of electric power supply is called as “sub-station”. Points to kept in view in laying out sub-station: • it should be located in proper site. •It should provide safety and reliable arrangement. •It should be easily operated and maintained. •It should involve minimum capital cost.
- 4. CLASSIFICATION OF SUB-STATION 1. According to service requirements i) Transformer sub-stations a. step-up sub-stations b. Primary grid sub-stations c. Secondary sub-stations d. Distribution sub-stations ii) Switching sub-stations iii) Power factor correction sub-stations iv) Frequency changer sub-stations v) Converting sub-stations vi) Industrial sub-stations 2. According to constructional features i) Indoor sub-stations ii) Outdoor sub-stations iii) Under ground sub-stations iv) Pole-mounted sub-stations
- 5. 1. According to service requirements i) Transformer sub-stations: Those sub-stations which change the voltage level of electrical power supply are called transformer sub-stations. These sub-stations receive power at some voltage and deliver it in some other voltage. Obviously, transformer will the main component of this sub-stations. Depending upon the purpose served, it may classified into a. step-up sub-stations b. Primary grid sub-stations c. Secondary sub-stations d. Distribution sub-stations a. step-up sub-stations: The generation voltage (11kV- 25kV) is steeped up to high voltage (220kV -765kV) to affect the economy in transmission of the electric power. The sub-stations which accomplished this job are called step-up sub-stations. These are generally located at the power station and are of outdoor type.
- 6. b. Primary grid sub-stations: From step-up sub-station, electric power at 220kV -765kV is transmitted by 3-phase , 3-wire overhead systems to the outskirts of the city. Here, electric power received by the primary sub-station reduced to 66kV for secondary transmission system. This primary grid sub-station is generally of outdoor type. c. Secondary sub-stations: From the primary grid sub-station, electric power is transmitted at 66kV by 3-phase , 3-wire system to various secondary sub-stations located at the strategic points in the city. At a secondary sub-station, the voltage is further stepped down to 11kV. The 11kV lines run along with the important road side of the city. d. Distribution sub-stations: The electric power from 11kV line is delivered to distribution sub- stations. These sub-stations are located near to the consumer localities and step down the voltage to 400V, 3- phase, 4-wire for supplying to the consumers. The voltages between any two phase is 400V and between any phase and neutral is 230V. Majority of the distribution sub-station are pole mounted.
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- 8. ii) Switching sub-stations: These sub-stations do not change any voltage level i.e. incoming and out going lines have the same voltage. However, the simply perform the switching operations of power lines. iii) Power factor correction sub-stations: Those sub-stations which are improve the power factor of the system are called power factor correction sub-stations. Such sub- stations are generally located at the receiving end of the transmission lines. The sub-stations generally use synchronous condenser as the power factor improvement equipment. iv) Frequency changer sub-stations: Those sub-stations which are change the supply frequency are known as frequency changer substations. Such a frequency change may require for industrial utilization. v) Converting sub-stations: Those sub-stations which change a.c power to d.c. power are called converting sub-stations. These sub-stations receive a.c power and convert it into d.c. power which suitable apparatus to supply for such purposes as traction, electroplating, electric welding etc. vi) Industrial sub-stations: Those sub-stations which supply for such power to individual industrial concerns are known as industrial sub-station.
- 9. 2. According to Constructional Features i) Indoor sub-station: For voltage up to 11kV, the equipment of the sub- station is installed indoor because of the economic consideration. However the atmosphere is contaminated with impurities, these sub-station can be erected for voltages up to 66kV. ii) out-door sub-station: For voltages beyond 66kV,equipment is invariably installed in out-door. It is because for such voltages, the clearance between conductors and space required for the switches, circuit breakers and other equipments becomes so great that it is not economical to install the equipment indoor.
- 10. iii) Under ground sub-stations: In thickly populated cities, the space available for equipment and building is limited and the cost of land is high. Under such situation sub-station is created in under ground. Points to kept in view in laying out under ground sub-station: i) The size of the station should be minimum as possible. ii) There should be reasonable access of both equipment and personal. iii) There should be a provision for emergency lightning and protection against fire. iv) There should be good ventilation. v) There should be a provision of remote indication of excessive temperature rise so that H.V. connection is disconnected. vi) The transformers, switches and fuses should be air cooled to avoid bringing oil into the premises.
- 12. iv) Pole-mounted sub-stations: • It is a distribution sub-station placed overhead on a pole. It is the cheapest form of sub-station as it does not involve any building work. • The transformer and other equipment are mounted on H-type pole or 4-pole structure. • The 11kV line is connected to the transformer (11kV/400V) through gang isolator and fuses. The lightening arrester are installed on the H.T. side to protect the sub-station from the lightening strokes. • The transformer steps down the voltage to 400V, 3-phase, 4-wire supply. • The oil circuit breaker installed in the L.T. side automatically isolates the transformer from the consumer in the event of fault. • The points to be noted about the pole mounted sub-station, a. There should be the periodical check up of the dielectric strength of oil in the transformer and O.C.B. b. In case of repair of transformer or O.C.B., both gang isolator and O.C.B should be shut off.
- 15. Equipment in a Transformer sub-station • The equipment of the transformer sub-station, service requirement and the degree of protection desired. However, in general, a transformer sub-station has the following main equipments, 1. Bus-bars 2. Insulators 3. Isolating switches or isolators 4. Circuit breaker 5. Power transformer 6. Instrument transformer i) Current transformer (C.T.) ii) Potential transformer (P.T.) 7. Metering and indicating instruments 8. Miscellaneous instruments
- 16. 1.Bus-bars • When a number of lines operating at the same voltage have to be directly connected electrically, bus-bars are used as the common electrical component. Bus-bars are copper aluminum bars (generally of rectangular x- section) and operate at constant voltage. • The incoming out going lines in sub-station connected in bus-bars. The most commonly used bus-bar arrangements in sub-stations are, i) Single bus-bar arrangement ii) Single bus-bar with sectionalisation iii) Double bus-bar arrangement
- 17. 2.Insulators • The insulators serve two purposes. To support the conductors and confine current to the conductors. • The most commonly used material for the manufacture of the insulators porcelain. There are several type of insulators (e.g. Pin type, Suspension type and post insulators etc.) used in sub-station depends upon the service requirements. • For example, post insulators used for the bus-bars. A post insulator consists of porcelain body, cast iron and flanged cast iron base. The hole in the cape is threaded so that the bus-bars directly bolted to the cape.
- 18. 3. Isolating switches (or) isolators – In sub-stations, it is often desired to disconnect a part of system for general maintenance and repairs. This is accomplished by an isolating switch or isolator. – An isolator is essentially a knife switch and is designed to open a circuit under no load condition. In other words isolator switches are operated only when the lines in which they are carry no current. – The entire sub-station is divided into V-sections which can be disconnected with the help of isolators for repair and maintenance. – The procedure of disconnecting is that first open CB and then open isolators 1 and 2.
- 19. 4. Circuit Breaker(CB) • A CB is an equipment which open or close a circuit under normal as well as fault conditions. • Generally, bulk oil CB used for voltage upto 66kV and low oil CB for high (>66kV). • For still higher voltages, air-blast, vacuum or SF6 CB are used.
- 20. POWER TRANSFORMER • A power transformer is used in a sub-station to step up or step down the voltage. • Except at the power station all the subsequent substations use step down transformers to gradually reduce voltage of electric supply and finally deliver it at utilisation voltage. • The use of 3ph transformer permits 2 advantages. Firstly only 0ne 3ph load tap changing mechanism can be used. Secondly its utilisation is much simpler than the 3 single ph. Transformers • For ratings up to 10MVA naturally cooled oil immerse transformer are used.
- 21. INSTRUMENT TRANSFORMERS • The lines in sub station operate at high voltages and carry current of 1000 of amps. The measuring inst. And protective devices are designed for low voltages and currents. • They will not work satisfactorily if mounted directly on the power lines. • The function of these inst. Transformers is to transfer voltages or currents in power lines to values which are convenient for the operation of measuring instruments and relays. • There are 2 types of instrument transformers viz.. 1.Current Transformer(CT) 2.Potential Transformer(PT)
- 22. CURRENT TRANSFORMER • A current transformer is essentially a step up transformer which steps down the current to a known ratio. • Primary of transformer consists of one or more turns of thick wire connected in series with the line. • Secondary consists of a large number of turns of wire and provides for measuring instruments and relays a current which is a constant fraction of current in line. • Suppose a CT rated at 100/5 A is connected in the line to measure current. If the current in line is 50A the sec. of CT will have a current of 2.5A.
- 23. VOLTAGE TRANSFORMER • It is essentially a step down transformer and steps down the voltage to a known ratio. • The primary of a transformer consists of large number of turns of fine wire connected across the line. • The secondary windings consists of few turns and provides for measuring instruments and relays a voltage which is a known fraction of line voltage. • Suppose a potential transformer rated at 66kv/110v is connected to power line. If line voltage is 66kv then voltage across the secondary will be 110v.
- 24. METERING AND INDICATING INSTRUMENTS • There are several metering and indicating instruments(e.g., ammeters ,voltmeters, energy meters etc.)installed in a substation to maintain watch over the circuit quantities. • The instruments transformers are invariably used with them for satisfactory operation.
- 25. MISCELLANEOUS EQUIPMENTS • In addition to above, there may be following equipment in a substation: 1.Fuses 2.Carrier current equipment 3.Sub-station auxiliary supplies
- 26. Thank You