0
Yes. Check published efficiencies from all the industrial gas turbine manufacurers to see for yourself. The 50 Hz versions are significantly more efficient than 60 Hz of the same design without exception. 50 Hz engines for Europe etc. are scaled 1.2X compared with 60 Hz for U.S. market.
What else can I help you with?
Why does size matter with wind turbines?
Size matters with wind turbines because larger turbines are more efficient at capturing wind energy due to their increased rotor diameter and taller tower height. This allows them to generate more electricity at lower wind speeds and produce higher energy outputs. Additionally, larger turbines benefit from economies of scale, making them more cost-effective than smaller turbines in terms of energy production per unit.
Why do humans produce larger fields?
By increasing the size of fields there is less wated space therefor more crop is harvested and it is more efficient use of the land Bigger fields are more efficient to care for. You spend less time moving the tractors and harvesters around, and more time working the soil.
How can we increase the amount of electricity produced by generator?
You can increase the electricity produced by a generator by increasing the rotational speed of the generator, increasing the size of the generator or using a more efficient fuel source. Regular maintenance and tuning of the generator can also help optimize its performance for maximum electricity production.
Do wind farms produce lots of energy?
It depends on the size of the turbines. Generally wind turbines are inefficient.
What is the necessary of compounding in turbines?
compounding of turbines is necessary to make the turbines practically controllable.If compounding is not done the size of the turbine will be huge.Hence by pressure &velocity compounding the turbine becomes small in size &its velocity is also becomes controllable.
What does increasing the airplanes speed or wing size do?
Increasing an airplane's speed enhances its lift and reduces the required wing area for flight, allowing for more efficient travel at higher altitudes. Conversely, increasing the wing size increases lift at lower speeds, improving takeoff and landing performance. However, larger wings can add weight and drag, affecting overall fuel efficiency and maneuverability. Ultimately, the optimal balance between speed and wing size depends on the aircraft's intended use and design specifications.
Why do wind turbines only have three arms and not many as in say a jet engine turbine Also why can't they be horizontal like the wind speed generators at airfields?
Yes, There are wind turbines with more than three blades... Basically that would only apply for the turbines which are not commercial like the turbines which are installed at home etc. and there are also wind turbines with horizontal axis, and again that would not apply to commercial wind farm. Usually Wind Turbines are BIG in size and mostly used to Generate Commercial Electricity so installing a Turbine with more than 3 turbines is not a viable thing.
increasing an airplane's speed or wing size does which of the following?
Generates more lifting force
Increasing an airplane's speed or wing size does what?
Increasing an airplane's speed can help it cover more distance in a shorter amount of time and reduce fuel consumption. Increasing the wing size can increase lift and improve stability during flight, allowing the plane to carry heavier loads or fly more efficiently.
Designed a steam engine that was 40 more efficient half the size and significantly cheaper than standard steam engines.?
designed a steam engine that was 40% more efficient, half the size, and significantly cheaper than standard steam engines.
Designed a steam engine that was 40 more efficient half the size and significantly cheaper than standard steam engines?
designed a steam engine that was 40% more efficient, half the size, and significantly cheaper than standard steam engines.
How much power do wave turbines generate?
Wave turbines can generate varying amounts of power depending on factors such as the size of the turbine, the strength of the waves, and the efficiency of the technology. On average, a single wave turbine can generate between 100kW to 1MW of power, with larger arrays of turbines capable of generating even more electricity.
