Affiliation:
1. Graduate School, Aire Force Engineering University, Xi’an 710043, China
2. Missile Institute, Aire Force Engineering University, Xi’an 710043, China
Abstract
Electrical systems consist of varied components that are used for power distribution, supply, and transfer. During transmission, component failures occur as a result of signal interruptions and peak utilization. Therefore, fault diagnosis should be performed to prevent fluctuations in the power distribution. This article proposes a fluctuation-reducing fault diagnosis method (FRFDM) for use in power distribution networks. The designed method employs fuzzy linear inferences to identify fluctuations in electrical signals that occur due to peak load demand and signal interruptions. The fuzzy process identifies the fluctuations in electrical signals that occur during distribution intervals. The linear relationship between two peak wavelets throughout the intervals are verified across successive distribution phases. In this paper, non-recurrent validation for these fluctuations is considered based on the limits found between the power drop and failure. This modification is used for preventing surge-based faults due to external signals. The inference process hinders the distribution of new devices and re-assigns them based on availability and the peak load experienced. Therefore, the device from which the inference outputs are taken is non-linear, and the frequently employed wavelet transforms are recommended for replacement or diagnosis. This method improves the fault detection process and ensures minimal distribution failures.
Subject
Process Chemistry and Technology,Chemical Engineering (miscellaneous),Bioengineering
Reference32 articles.
1. A regulating capacity determination method for pumped storage hydropower to restrain PV generation fluctuations;Zhang;CSEE J. Power Energy Syst.,2020
2. Demand-side management based on model predictive control in the distribution network for smoothing distributed photovoltaic power fluctuations;Xu;J. Mod. Power Syst. Clean Energy,2022
3. Control strategy and optimal configuration of energy storage system for smoothing short-term fluctuation of PV power;Zhang;Sustain. Energy Technol. Assess.,2021
4. Hardware implementation of an active learning self-organizing neural network to predict the power fluctuation events of a photovoltaic grid-tied system;Goh;Microprocess. Microsyst.,2022
5. Recreation of voltage fluctuation using basic parameters measured in the power grid;Kuwalek;J. Electr. Eng. Technol.,2020