Final answer:
The difference in kilowatt hours of monthly energy production between a wind speed of 15 mph and a wind speed of 10 mph can vary based on the specific wind turbine model and its power curve. However, generally, as wind speed increases, the power output of a wind turbine also increases, following a cubic power law. Without specific information, it is difficult to provide an exact answer, but assuming certain values, we can calculate the difference in energy production.
Step-by-step explanation:
The difference in kilowatt hours of monthly energy production between an average local wind speed of 15 miles per hour and an average local wind speed of 10 miles per hour can be determined by considering the relationship between wind speed and power output of a wind turbine.
Generally, wind turbines have a power curve that shows how much power they can produce at different wind speeds. As wind speed increases, the power output of a wind turbine increases. It's important to note that the relationship between wind speed and power output is not linear, but follows a cubic power law. This means that a small increase in wind speed can result in a significant increase in power output.
Without specific information about the wind turbine model and its power curve, it is difficult to provide an exact answer. However, as an example, let's assume that at 10 miles per hour (mps), the wind turbine produces 100 kilowatt hours (kWh) of energy per month, and at 15 mph, it produces 200 kWh of energy per month. The difference in energy production between the two wind speeds would be 200 kWh - 100 kWh = 100 kWh.