Computation of Power Generation of Green Power Unit based on Probability Distribution Parameter

  • Upadhyay* P
  • et al.
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Abstract

Today’s power systems era is speedily going towards natural sources of power. The power system is also in the mode of decentralization. Decentralize means to split a large power system into small, safe and smart power grid or to create microgrid. This decentralization required separate control of each part of the power system. It can reduce the complexity of the large power system; provide efficient and economical installation and easy operation. To keep our globe healthy; green sources of electrical energy like solar, wind tidal, biomass are the best option for the power sector. Integrating green power sources in a decentralized power system needs better planning and upgraded technology. To deal with uncertainties of Green power sources, the first step is to estimate output power. In this paper output power with the uncertain nature of sources is estimated and analyzed to integrating green power sources. For it, the statistic model of solar and wind power generation has been discussed. Probable distribution of wind speed and solar irradiation is found using available mean data. Output power Generation of wind and solar sources are estimated based on the probability distribution curve and power equation. It has analyzed for different value of shape parameter Here mean wind speed and mean solar irradiation data of one town of Gujarat state, India has been collected for the planning of microgrid.

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Upadhyay*, P. A., & Joshi, S. K. (2020). Computation of Power Generation of Green Power Unit based on Probability Distribution Parameter. International Journal of Recent Technology and Engineering (IJRTE), 8(6), 4447–4452. https://doi.org/10.35940/ijrte.e6677.038620

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