Short communication
Saumyadip Hazra and Souvik Gan
Abstract
First of all, its environmentally friendly nature has greatly helped its development because they generate renewable energy. The solar plants are capable of varying from large to small and need a great deal of money to invest. Poor performance and poor energy level are two of the major solar power drawbacks. The equipment used for solar electricity, which needs to be disposed of properly every year, produces a significant quantity of e-waste. Solar power demerits have become a common trend in recent years for research and development. There has been a lot of success. For example, there has been significant growth in-cell efficiency. There are many types of solar panels on the market. Those include solar panels of monocrystalline, polycrystalline, organic and thin film. Single crystal silicone is used in the monocrystalline solar panels, using silicone bars drawn in wafers. Polycrystalline solar panels are built with separate silicone bars melted together for a single wafer. Organic solar panels are used for the manufacture of semiconducting material with carbon-based materials, and may also be referred to as plastic solar cells. The thin-film solar panels that are especially applicable to this article are made of delicate, semiconductor material sheets that are much thinner than the traditional silicone-based panel. They are the lightest and most flexible solar panels available and offer a lot of versatility in operation. In terms of performance they do not have the conventional panels as they range from 6-10%. It is important to gain an understanding of the accurate behaviour of the panel and its characteristics based on the exact mathematical model for the correct estimation of solar panel efficiency. The exact voltage current plots for the cell can be achieved. Awareness of the activity of the cell is also important to regulate the entire system. The cell's performance and efficiency parameters depend in large measure on the model selected and can be accurately calculated by intrinsic parameters. Due to operating conditions, which include various types of faults or operations, minor changes can occur with passing time. Sadly, the supplier will not have these criteria for the panel assessment. A job is therefore to determine the cell parameters and carry out further calculations. The panel's performance depends on the irradiance level, which is very well established. This fact was used to determine the inherent parameters of manufacturers' data sheet details. The panel's performance evaluation can be used therefore by choosing the right mathematical model and making acceptable calculations.