Study of produced harmonics in DFIG powered by wind turbines over linear and nonlinear loads

• Published in: E3S web of conferences Vol. 563; p. 1006
• Main Authors: Pant, Rajesh, Kumar C, Vivek, Muhsen, Muntadar, Rani, D. Sandhya, Vokhidov, Akmal, Daminova, Barno, Bhatia, Harpreet S.
• Format: Journal Article
• Language: English
• Published: EDP Sciences 2024
• ISSN: 2267-1242; 2267-1242
• DOI: 10.1051/e3sconf/202456301006

Due to the growing interest in electricity, both conventional and non-conventional energy sources are growing. As the number of powertrains increases, just as the interconnectivity of these components grows terrifyingly, so does the power response along with the variable overcurrent. Which acquires the majority of power shares in an environmentally responsible manner. One thing that sets wind power apart is how little it costs. With a proven capacity of around 21262 MW, India's wind farm ranks fifth in the world with an exceptionally high annual expansion rate [1]. Management New Harmless to Ecosystem Strength (MNRE) and association of Tamil Nadu, Maharashtra and Gujarat movements. Considering the 7.6 Gw of wind cap that has been produced in the last 15 months, the target is to produce an additional 10 Gw in FY 2019[2]. The Twofold Dealt with Acknowledgement Generator (DFIG) structure was found to be affected by the wind in uneven stacking. The electricity produced makes endless sounds available [3]. The proposed study depicts the evaluation of noise produced by wind-related electricity. The combined dynamic channel uses the DFIG system for both direct and indirect loads. This work recreates the sounds produced by direct and indirect loads using mutt dynamic channel reduction for Grid Side Control (GSC) and Rotor Side Control (RSC). The end product of this effort shows that using the unequal weight system, the value of sounds dropped to 4.96% from 29.66%. Additionally, it shows that in cases where the nonlinear weight has no effect on the structure, the consonant value is exactly 0.14%. Various research projects are now being carried out in an effort to develop channels that can suppress consonant levels higher than the dedicated hybrid feed channel. MATLAB R2018a variant is used to generate the model for the proposed work. The model is shown in the Simulink section of MATLAB under Programming.