LIGHTWEIGHT SOLAR PANELS FOR SPACE-BASED SOLAR POWER SYSTEMS

摘要

The main aim of the technical paper is to fabricate highly efficient solar cells that are of lightweight and that will use (CH3NH3)PbI3 nanocrystal. These lightweight solar panels are fabricated to suit the power generation in a space-based solar power. On earth, solar energy is greatly reduced by night, bad weather, atmosphere, and seasonality. Some thirty percent of all incoming radiation does not make it to the ground level. In space the sun is shining, the tilt of the globe doesn't hinder the storage of power and there's no atmosphere to scale back the intensity of the sun's rays. This makes employing solar panels in space a tempting possibility. Additionally, it may be utilized to get reliable and clean energy for individuals in remote communities around the world. The possibility of making such power systems would create a major impact and a vast leap on the existing energy models. However, using a nano-coated solar panel, new goals and records can be created. It increases the efficiency and decreases the size and weight of the panels. An overview of my approach would be to integrate nanotechnology with the design of the satellite, the nanoparticle fabricated from (CH3NH3)PbI3 nanocrystal is able to reduce the weight of the solar panel in a nano perspective. Research has been carried out on the topic of efficient perovskite quantum-dot-sensitized solar cells, where, it is clear that the solar panels that use nanotechnology can be fabricated. With solar power, not limited to daylight hours equipment with any supplemental electrical energy system for nighttime flight is not required. The effective outcome of the project is - lightweight solar panels that can be fabricated in the nano lab with higher efficiency and that decreases the power consumption as it runs on solar energy. As the efficiency of the solar panel is increased by the addition of the nano-coating, a solar panel with a small cross-sectional area can produce and store more energy. Thus, an energy s