Overview
-Abstract: One of the ways to provide enough space for solar panels due to their size is to roll them into cylinders.
-Problems to be solved:
1- The deformation of residential buildings and palaces, especially with the presence of energy panels covering the facade of the building with a tiled roof, the buildings become like metallic scaffolding and energy panels.
2- The exorbitant cost of iron tents to secure a complete roof to put the panels on.
3- There are no enough spaces to place solar panels on the roofs of residential buildings, especially in multi-apartment buildings
-Hypothesis: The use of vertical cylindrical panels provides higher energy in less space in addition to the removal of visual distortion..
-Test the hypothesis: Using new technology by creating new models of solar panels in a cylindrical shape to provide much larger areas using a large number of panels. If we roll the board longitudinally approximately one meter of width we obtain a cylindrical panel of diameter 0.3 m according to the rule: p = 2π r So the equation becomes: D= 𝑝/𝜋=1/3.14=0.3𝑚
Then the surface of the base of each cylindrical panel= πr2=3.14x(0.3/2 “)” ^2=0.07m2 less than to that of the board panel of 2m2.
-Analysis: Surrounding the cylindrical solar panels with mirrors helps them consume more sunlight and maintain the same amount of heat no matter where the sun is. As the mirrors, reflect the light to the panels. Also, cylindrical panels provide more space less than 25 times at more than the usual form. especially on the rooftops of residential buildings of a big number of apartments.
-Conclusion: We conclude that cylindrical solar panels provide less space with more energy and better view.
-Participating in BIIS offers a unique opportunity to engage in cutting-edge scientific research, collaborate with experts in your field, and contribute to the advancement of knowledge. It provides a platform to expand your skills, gain valuable experience, and make meaningful connections within the scientific community. Ultimately, your involvement in BIIS can lead to personal and professional growth while making a positive impact on the world through scientific exploration and discovery.
