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Optimized Hybrid Power System Using Superconducting Magnetic Energy Storage System: Hybrid Power System Using SMES

Optimized Hybrid Power System Using Superconducting Magnetic Energy Storage System: Hybrid Power System Using SMES
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Author(s): Sandeep Bhongade (Shri G. S. Institute of Technology and Science, India) and Ritu Verma (Shri G. S. Institute of Technology and Science, India)
Copyright: 2020
Pages: 50
Source title: Novel Advancements in Electrical Power Planning and Performance
Source Author(s)/Editor(s): Smita Shandilya (Sagar Institute of Research, Technology and Science, India), Shishir Kumar Shandilya (Vellore Institute of Technology, India), Tripta Thakur (Maulana Azad National Institute of Technology, India) and Atulya K. Nagar (Liverpool Hope University, UK)
DOI: 10.4018/978-1-5225-8551-0.ch002

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Abstract

Renewable energy sources always drag the attention of researchers as alternate sources of power generation. These sources are inexhaustible and free of cost, which makes them very important for fulfilling electrical load demand. Due to stochastic nature of these sources as these are nature dependent, power generation from these sources varies. In order to mitigate this issue, these sources are integrated with distributed generation along with energy storage system so as to maintain the system stability. This chapter focuses on diminishing the frequency variation of microgrid incorporated hybrid power system. A hybrid system consisting of solar, wind, diesel along with a controller and superconducting magnetic energy storage unit is simulated. Whenever load demand of the system increases, frequency falls as a result deviation occurred in the system. This is overcome by the automatic generation control mechanism. Superconducting magnetic energy storage unit absorbs the excessive power available during offload condition and injects the same during peak load condition.

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