"Capacity," in the diagram, is the maximum rate of electricity production that was possible for all the wind turbines in each country.In 2013, Spain had wind power capacity of 23,000 megawatts (MW). But it didn't achieve that rate of electricity output at any time during that year. Explain why.
Question
"Capacity," in the diagram, is the maximum rate of electricity production that was possible for all the wind turbines in each country.In 2013, Spain had wind power capacity of 23,000 megawatts (MW). But it didn't achieve that rate of electricity output at any time during that year. Explain why.
Solution
There could be several reasons why Spain did not achieve its maximum wind power capacity of 23,000 MW in 2013:
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Wind Speed Variability: Wind power is dependent on wind speed. If the wind speed is too low, turbines cannot produce electricity. Conversely, if the wind speed is too high, turbines may need to be shut down for safety reasons. Therefore, the variability of wind speed can significantly affect the electricity output.
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Maintenance and Breakdowns: Wind turbines require regular maintenance to ensure optimal performance. During these maintenance periods, the turbines are not producing electricity. Additionally, unexpected breakdowns can also reduce the overall output.
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Grid Limitations: Sometimes, the electricity grid cannot handle the full capacity of the wind turbines. This could be due to a lack
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