Ultimate Question: Can Floating solar power plants hinder the effects of global warming and be an effective solution to combat an increasing demand in energy?
|
Capture your final version here.
Is there an alternative yet efficient power source that works the same way solar panels work? Trial and error, research, past experiments and results will help us answer those questions. Some of the issues involved with land or roof solar panels are that they take up alot of space, have costly maintenance, and provide no power storage. They are also not very efficient and are not easy to align with the sun. By studying the results we get from past research and experiments, we can improve current designs of solar panels to make them more effective. Floating solar panels is a recent idea that is being proposed. Through experimentation and researches floating solar panels have shown that they are more efficient than the regular land or roof solar panels. Because of their location and design they also include many benefits over traditional solar panels. |
Can floating solar power plants provide a sustainable energy source and solve those problems related to more tradition alternative energy methods? Research of current and past energy expenditure patterns and predictability of future usage and potential. Some limitations possed on floating solar power plants include lack of space and the difference in exposure to sunlight based on location. Qualifications include large bodies of water (making up more of the earth than land does) which the power plants can be installed on they are also fairly easy to move following the direction of sunlight. Floating solar power plants will utilizing the bodies of water to build floating solar power plants to reduce the burning of fossil fuels and carbon emissions, which will reduce the need to burn fossil fuels and decrease the negative effects of global warming. To achieve this we will follow a trial and error method to find the best ways to optimize the efficiency of these power plants.
P(2.u)