Integration of dispersed renewable energy generating in power distribution network
Full Text |
Pdf
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Author |
Abinash Kumar Singh, P. K. Dhal and Vempalle Rafi
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e-ISSN |
1819-6608 |
On Pages
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101-113
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Volume No. |
19
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Issue No. |
2
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Issue Date |
March 18, 2024
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DOI |
https://doi.org/10.59018/012422
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Keywords |
synchronous generator, power plant simulation, distributed generation, steam turbine, solar power, DC-AC inverter, low pass filter, grid simulation.
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Abstract
As traditional sources of energy recede and demand for energy rises at an unprecedented pace, it is difficult for the available sources to satisfy demands. As a result, this research focuses on combining conventional generation with distributed generation, each of which can be used independently. For both industrial and residential electricity suppliers, providing a secure, continuous, and safe electrical supply is a critical necessity. As we progress toward a more sustainable approach to generating electricity (both renewable and nuclear) from the currently prevalent non-renewable sources, a hybrid supply system is an intermediate phase. This project aims to simulate a three-phase power plant that incorporates a conventional steam turbine and a DC-AC inverter generation device powered by solar to produce a total of 100kW of power with a power factor of 1. The input torque to the synchronous generator and the DC voltage to the distributed system vary depending on the output power potential of each system. Both devices achieve a constant voltage at the load. When the two systems work independently, the voltages produced by both are in phase and have the same amplitude.
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