Abstract
For several years, energy storages have attracted the focus of the transport society. Recent advances in hybrid and plug-in electric vehicles along with new transport ideas such as electric vehicles are the reason why energy storage has played such a large part in transport. The requirements for energy storage solutions differ considerably from transport implementation to implementation, rendering it hard for the scientific community to merge into one, all-encompassing energy storage alternative. Due to its quick response, a high energy storage efficiency and, in particular, large quantities of load energy during small periods of time, the SMES schemes have drawn the notice of electrical companies. This paper provides efficient and dynamic power monitoring for low-voltage manufacturing grids using superconducting magnetic energy storage (SMES) systems via non-linear input control. The SMES unit is linked to the system with a current source converter with a pulse width modulation (PWM-CSC). The dynamic model has a non-linear property which is controlled by the non-linear controller with feedback mechanism based on the estimated behavior of the closed loop system. In order to monitor the stability features of the suggested device, the continuous condition assessment under the time-dome reference system is used.
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