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Shunt reactors are connected with transmission lines for
- a)limiting fault current
- b)limiting fault voltage
- c)absorbing reactive power
- d)absorbing high voltage surges
Correct answer is option 'C'. Can you explain this answer?
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Verified Answer
Shunt reactors are connected with transmission lines fora)limiting fau...
A shunt reactor is connected in parallel with a transmission line or other load. They are used in transmission systems to counteract the effect of line parasitic capacitance. Thus they deal with the reactive component.
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Shunt reactors are connected with transmission lines fora)limiting fau...
Shunt reactors for absorbing reactive power
Shunt reactors are connected with transmission lines for absorbing reactive power.
Benefits of shunt reactors in absorbing reactive power include:
- **Improving power factor:** Shunt reactors help in improving the power factor of the system by absorbing excess reactive power. This results in a more efficient operation of the transmission line.
- **Voltage regulation:** By absorbing reactive power, shunt reactors help in regulating voltage levels in the system. This ensures that the voltage remains within acceptable limits, preventing voltage fluctuations and ensuring stable operation.
- **Reducing line losses:** Shunt reactors reduce line losses by compensating for the reactive power generated in the system. This leads to a more efficient transmission of power and reduces energy wastage.
- **Stabilizing the grid:** Shunt reactors play a crucial role in stabilizing the grid by maintaining the voltage levels within the desired range. This helps in preventing voltage instabilities and blackouts.
In conclusion, shunt reactors are an essential component in power systems for absorbing reactive power, improving power factor, regulating voltage, reducing line losses, and stabilizing the grid.
Shunt reactors are connected with transmission lines for absorbing reactive power.
Benefits of shunt reactors in absorbing reactive power include:
- **Improving power factor:** Shunt reactors help in improving the power factor of the system by absorbing excess reactive power. This results in a more efficient operation of the transmission line.
- **Voltage regulation:** By absorbing reactive power, shunt reactors help in regulating voltage levels in the system. This ensures that the voltage remains within acceptable limits, preventing voltage fluctuations and ensuring stable operation.
- **Reducing line losses:** Shunt reactors reduce line losses by compensating for the reactive power generated in the system. This leads to a more efficient transmission of power and reduces energy wastage.
- **Stabilizing the grid:** Shunt reactors play a crucial role in stabilizing the grid by maintaining the voltage levels within the desired range. This helps in preventing voltage instabilities and blackouts.
In conclusion, shunt reactors are an essential component in power systems for absorbing reactive power, improving power factor, regulating voltage, reducing line losses, and stabilizing the grid.
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Shunt reactors are connected with transmission lines fora)limiting fault currentb)limiting fault voltagec)absorbing reactive powerd)absorbing high voltage surgesCorrect answer is option 'C'. Can you explain this answer?
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