Abstract
For low carbon and non-fossil fuel production, solar energy technology was considered as one of the most promising sources. The poly-crystalline solar PV module is susceptible to dust accumulation, ambient temperature, humidity, wind speed. The main objective of this experiment is to analyze how solar photovoltaic panel is affected by various environmental factors. Because nowadays, the effect of greenhouse gas on the atmosphere is increasing day by day due to fossil fuel energy production for increasing demand. Solar energy is known as the fresh and unpolluted form of energy, but it is necessary to know how a PV system is reliable and efficient to atmospheric condition to give maximum output. This solar panel is hinged on various factors like irradiance, temperature, dust, tilt angle. Because the output power and efficiency always depend on different factors affecting the system input. Here the experiment has been carried out with different types of factors to verify how the i-v and p-v characteristics of the system are changing. To simulate the efficiency and power of the system, the below experimental data are carried out.
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Patnaik, B., Swain, S.C., Rout, U.K. (2020). Modelling and Performance of Solar PV Panel with Different Parameters. In: Nayak, J., Balas, V., Favorskaya, M., Choudhury, B., Rao, S., Naik, B. (eds) Applications of Robotics in Industry Using Advanced Mechanisms. ARIAM 2019. Learning and Analytics in Intelligent Systems, vol 5. Springer, Cham. https://doi.org/10.1007/978-3-030-30271-9_23
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DOI: https://doi.org/10.1007/978-3-030-30271-9_23
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