Question

The chart given below compares the Installed Capacity (MW) of four power generation technologies, T1, T2, T3, and T4, and their Electricity Generation (MWh) in a time of 1000 hours (h). The Capacity Factor of a power generation technology is: \[ \text{Capacity Factor} = \frac{\text{Electricity Generation (MWh)}}{\text{Installed Capacity (MW)} \times 1000 \, (\text{h})}. \] Which one of the given technologies has the highest Capacity Factor? \includegraphics[width=0.7\linewidth]{q8 CE.PNG}

• A. T1
• B. T2
• C. T3
• D. T4

Hint:

To calculate the Capacity Factor, ensure consistent units (MW for capacity, MWh for generation, and hours for time). Compare values directly after substitution.

Answer 1

The Correct Option is A

Step 1: Understand the Capacity Factor formula. The Capacity Factor is calculated as: \[ \text{Capacity Factor} = \frac{\text{Electricity Generation (MWh)}}{\text{Installed Capacity (MW)} \times 1000 \, (\text{h})}. \] Step 2: Compare the Capacity Factor for each technology. Using the values provided in the chart (not shown here), calculate the Capacity Factor for T1, T2, T3, and T4. Step 3: Identify the highest Capacity Factor. After calculation, T1 has the highest Capacity Factor. Step 4: Conclusion. The technology with the highest Capacity Factor is \( \text{T1} \).