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Virendra Yadav
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Asked: 2023-04-27T09:09:40+00:00 In:

Which of the following is the main field of application of pin type insulator? a) EHV transmission system b) Distribution system c) Transmission system d) Transmission and distribution system

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Which of the following is the main field of application of pin type insulator? a) EHV transmission system b) Distribution system c) Transmission system d) Transmission and distribution system
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    11 Answers

    1. This answer was edited.

      Answer: b Explanation: Pin type insulator become very bulky and cumbersome when designed for higher voltage. Pin insulators beyond 50,000 Volts becomes uneconomical. the modern practice is not to use pin type insulator SBI on 33kv so use of pin insulator is limited to distribution level voltage.

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    3. Answer: b

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    4. b) Distribution system

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    6. Answer: b

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    7. b) Distribution system

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    9. Answer: b

      Explanation: Pin type insulator become very bulky and cumbersome when designed for higher voltage. Pin insulators beyond 50,000 Volts becomes uneconomical. the modern practice is not to use pin type insulator SBI on 33kv so use of pin insulator is limited to distribution level voltage.

       

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    10. b) Distribution system

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    12. Answer: b
      Explanation: Pin type insulator become very bulky and cumbersome when designed for
      higher voltage. Pin insulators beyond 50,000 Volts becomes uneconomical. the modern
      practice is not to use pin type insulator SBI on 33kv so use of pin insulator is limited to
      distribution level voltage.

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    13. Answer: b
      Explanation: Pin type insulator become very bulky and cumbersome when designed for
      higher voltage. Pin insulators beyond 50,000 Volts becomes uneconomical. the modern
      practice is not to use pin type insulator SBI on 33kv so use of pin insulator is limited to
      distribution level voltage.

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    15. Answer: b
      Explanation: Pin type insulator become very bulky and cumbersome when designed for
      higher voltage. Pin insulators beyond 50,000 Volts becomes uneconomical. the modern
      practice is not to use pin type insulator SBI on 33kv so use of pin insulator is limited to
      distribution level voltage.

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    16. Answer: b
      Explanation: Pin type insulator become very bulky and cumbersome when designed for
      higher voltage. Pin insulators beyond 50,000 Volts becomes uneconomical. the modern
      practice is not to use pin type insulator SBI on 33kv so use of pin insulator is limited to
      distribution level voltage.

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