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- 1. Underground Cables Submitted to:- Submitted by:- Seema Rizvi Rahul Bishnoi (Assistant professor) 13EAIEE078 Department of Electrical Engg. Electrical Engg. ARYA INSTITUTE OF ENGINEERING & TECHNOLOGY KUKAS,JAIPUR 1
- 2. Introduction Since the loads having the trends towards growing density. This requires the better appearance, rugged construction, greater service reliability and increased safety. An underground cable essentially consists of one or more conductors covered with suitable insulation and surrounded by a protecting cover. The interference from external disturbances like storms, lightening, ice, trees etc. should be reduced to achieve trouble free service. The cables may be buried directly in the ground, or may be installed in ducts buried in the ground. 2
- 4. Advantages & Disadvantages Advantages Better general appearance Less liable to damage through storms or lighting Low maintenance cost Less chances of faults Small voltage drops Disadvantages The major drawback is that they have greater installation cost and introduce insulation problems at high voltages compared with equivalent overhead system. 4
- 6. Properties of Insulating Material High resistivity. High dielectric strength. Low thermal co-efficient. Low water absorption. Low permittivity. Non – inflammable. Chemical stability. High mechanical strength. High viscosity at impregnation temperature. Capability to with stand high rupturing voltage. High tensile strength and plasticity. 6
- 7. CLSSIFICATION OF CABLES Low tension (L.T) ----- up to 1000V High tension (H.T) ----- up to 11, 000V Super tension (S.T) ---- from 22KV to 33KV Extra high tension (E.H.T) cables --- from 33KV to 66KV Extra super voltage cables ------beyond 132KV 7
- 8. Extra High Tension Cable 8
- 11. 3- Core Cables (H-Type) 11
- 12. 3- Core Cables (S.L. Type) 12
- 13. 3- Core Cables (Gas pressure) 13
- 14. 3- Core Cables (Oil filled) 14
- 16. Grading of Cables • Since the stresses are maximum at surface of the conductor or inner most part of the dielectric. • The stress goes on decreasing as outer most layer is reached. • Since the process of achieving the uniform electrostatic stresses on the dielectric of cables is known as Grading of cables 16
- 17. Cables are generally laid in the ground or in ducts in the underground distribution system. For this reason, there are little chances of faults in underground cables. However, if a fault does occur it is difficult to locate and repair the fault because conductors are not visible. Nevertheless, the following are the faults most likely to occur in underground cables 1) open circuit fault 2) short circuit fault 3)earth fault 17
- 18. When there is a break in the conductor of a cable, it is called open circuit fault. The open circuit fault can be checked by megger. For this purpose, the three conductors of the 3-core cable at the far end are shorted and earthed. When two conductors of a multi-core cable come in electrical contact with each other due to insulation failure, it is called a short circuit fault. Again, we can seek the help of a megger to check this fault. 18
- 19. EARTH FAULTS When the conductor of a cable comes in contact with earth, it is called earth fault or ground fault. To identify this fault, one terminal of the megger is connected to the conductor and the other terminal connected to earth. If the megger indicates zero reading, it means the conductor is earthed. The same procedure is repeated for other conductors of the cable. Professional Associates Limited. 19
- 20. THANKS 20