NSC Electrical Technology Power Systems Three-Phase Systems: 4.1 Name the processes at A, B a

4.1 Name the processes at A, B and C - NSC Electrical Technology Power Systems - Question 4 - 2021 - Paper 1

Question 4

4.1 Name the processes at A, B and C. 4.1.2 Draw the voltage waveforms generated at A. 4.1.3 Explain why Transformer 1 is a step-up transformer. 4.1.4 Determine t... show full transcript

Worked Solution & Example Answer:4.1 Name the processes at A, B and C - NSC Electrical Technology Power Systems - Question 4 - 2021 - Paper 1

Step 1

Name the processes at A, B and C.

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Answer

A - Generation B - Transmission C - Distribution

Step 2

Draw the voltage waveforms generated at A.

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Answer

The voltage waveforms can be represented as follows:

   +V   +V   +V
   |    |    |
 -V   -V   -V
   |    |    |
    -----------
   R   Y   B

The three waveforms are 120 degrees apart.

Step 3

Explain why Transformer 1 is a step-up transformer.

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Answer

Transformer 1 is a step-up transformer because it increases the voltage from the generation process to reduce the current in the transmission lines. This reduction in current leads to lower copper losses (I²R losses) in transmission, making it more efficient.

Step 4

Determine the type of connection used on the secondary windings of Transformer 3 and motivate your answer.

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Answer

The type of connection used on the secondary windings of Transformer 3 is a star connection. This configuration allows for both three-phase and single-phase equipment to be powered efficiently, which is essential for compatibility with various load types. Additionally, it facilitates the use of neutral for single-phase equipment.

Step 5

Calculate the phase current.

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Answer

To find the phase current ( I_{PH} ), we use the formula:

I_{PH} = \frac{I_L}{\sqrt{3}} = \frac{15}{\sqrt{3}} \approx 8.66 \, A

Step 6

Calculate the apparent power.

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Answer

The apparent power (S) can be calculated using the formula:

S = \sqrt{3} \times V_L \times I_L = \sqrt{3} \times 380 \times 15 \approx 9.87 \, kVA

Step 7

Calculate the phase angle.

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Answer

The phase angle ( θ ) can be calculated using the power factor:

θ = \cos^{-1}(0.9) \approx 25.84°

Step 8

Calculate the reactive power.

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Answer

The reactive power (Q) can be calculated using the formula:

Q = \sqrt{3} \times V_L \times I_L \times \sin θ = \sqrt{3} \times 380 \times 15 \times \sin(25.84°) \approx 4.3 \, kVAR

Step 9

State TWO advantages of power factor correction to the consumer.

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Answer

Reduced current drawn from the supply, leading to a lower electricity bill.
Improved efficiency and longevity of equipment, as reduced heat generation results in less wear and tear.

Step 10

Does the reading show a leading or lagging power factor?

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Answer

The meter reading indicates a lagging power factor.

Step 11

State the cause of this type of reading.

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Answer

The lagging power factor is caused by predominantly inductive loads connected to the system.

Step 12

State how the meter reading could be brought closer to unity.

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Answer

The reading can be brought closer to unity by connecting capacitors in parallel with the load or using synchronous motors.

Step 13

Calculate the total power of the load.

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Answer

The total power (P_T) is calculated by summing the individual powers:

P_T = P_1 + P_2 = 250 + 460 = 710 \, W

Step 14

State TWO quantities, other than power, that can be determined by using the two-wattmeter method.

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Answer

Reactive power (Q)
Phase angle (θ)

Step 15

Explain why the two-wattmeter method is preferred over the three-wattmeter method.

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Answer

The two-wattmeter method is preferred as it can be easily connected to the lines without requiring additional equipment, making it more economical for load measurement.

4.1 Name the processes at A, B and C - NSC Electrical Technology Power Systems - Question 4 - 2021 - Paper 1

Worked Solution & Example Answer:4.1 Name the processes at A, B and C - NSC Electrical Technology Power Systems - Question 4 - 2021 - Paper 1

Name the processes at A, B and C.

Draw the voltage waveforms generated at A.

Explain why Transformer 1 is a step-up transformer.

Determine the type of connection used on the secondary windings of Transformer 3 and motivate your answer.

Calculate the phase current.

Calculate the apparent power.

Calculate the phase angle.

Calculate the reactive power.

State TWO advantages of power factor correction to the consumer.

Does the reading show a leading or lagging power factor?

State the cause of this type of reading.

State how the meter reading could be brought closer to unity.

Calculate the total power of the load.

State TWO quantities, other than power, that can be determined by using the two-wattmeter method.

Explain why the two-wattmeter method is preferred over the three-wattmeter method.

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