Fibonacci Solar Panel Design

The fibonacci tree design performed better than the flat panel model.

Fibonacci solar panel design.

The detailed comparative study of the two technologies is explained in table 1 the comparison is prepared considering a solar tree design hypothesized model as explained by mazumder et. 13 year old boy named aidan dwyer has an idea that can vastly improve solar energy technology. But the most interesting results were in december when the sun was at its lowest point in the sky. When he recognized this design in the placement of tree branches he began applying the secret knowledge to solar panel designs.

The fibonacci tree design performed better than the flat panel model. While spending time in the woods aidan noticed that the trees branch out in a pattern that when simplified resembles a fibonacci series spiral. Aidan dwyer a 13 year old long island resident has made some big news this week with his astute observations and experiments on solar power efficiency. The tree design made 20 more electricity and collected 2 1 2 more hours of sunlight during the day.

The solar tree has many differences with the traditional flat panel fixed tilt solar pv system on the ground. The future of our planet lies in the hands of our children and when a 13 year old boy aidan dwyer uncovers the mystery of how trees get enough of sunlight in a crowded forest and applies it to solar energy you know that all is not lost. Aidan replicated the fibonacci sequence in trees to invent a new way of harnessing solar energy. But the most interesting results were in december when the sun was at its lowest point in the sky.

His idea is so revolutionary that it might make flat panel solar designs extinct. Fibonacci solar panels the american museum of natural history recognizes students in grades 7 12 with their young naturalist awards for research based science. He determined the tree s fibonacci pattern allowed some solar panels to collect. Aiden is a 13 year old 7th grader from ny who won one of these awards for his research on optimizing solar panels by mimicking nature.

Aidan discovered a spiral mathematical formula in trees based on the fibonacci sequence. Al in their simulation study using monte carlo simulations on a solar tree. Familiar with the concept of biomimetics in design he wondered if the geometry that the trees have evolved for maximizing the efficiency of their solar. Aidan dwyer s fibonacci solar geometry.

Aidan reports the results. At that point the tree design generated 50 percent more power without any adjustments to its declination angle. The fibonacci tree design performed better than the flat panel model. The tree design made 20 more electricity and collected 2 1 2 more hours of sunlight during the.