Work place: Dept. of EEE, Rtd. Professor, Andhra University, Vishakhapatnam, India
E-mail: rlnarasimhamrl@gmail.com
Website:
Research Interests:
Biography
Narasimham R. L. received B.E.(Electrical) from Andhra University in 1973, M. E. (Control Systems) from Andhra University in 1976 and Ph. D. (Large Scale Systems) from Andhra University 1992. He is Senior Member of IEEE., Fellow Member of Institution of Engineering (F I E), Chartered Engineer of Institution of Engineers (C.I.), Life Member of Indian Society for Technical Education (ISTE), Managed staff strength of 50-150 personnel at various educational institutions in Andhra Pradesh. Worked on research on ‘Large Scale Systems’, received ‘Best Theory Paper Award’ at NSC-95 held at PSG College of Technology, Coimbatore, 1995. Guiding FOUR Candidates for their Doctoral research work in Electrical Engineering faculty, He published many papers in national, international journals and conferences. He received best research theory paper award conferred in national systems conference held at PSG college of egg and technology, Coimbatore, in December 1995, Life time education achievement award -2007 conferred on me by health and education development association, for excellence in their respective field on 25th November 2008, at new Delhi. He is Author of two text books on “control systems” and “linear system analysis” and appointed as expert volunteer / evaluator by national board of accreditation(NBA), new Delhi for inspecting engineering colleges in India.
By Shravani Chapala Narasimham R. L. Tulasi Ram Das. G
DOI: https://doi.org/10.5815/ijem.2024.04.01, Pub. Date: 8 Aug. 2024
This paper presents a comprehensive analysis of power quality in a distributed generation (DG) system utilizing an Adaptive Neuro-Fuzzy Inference System (ANFIS) and a Unified Power Quality Conditioner (UPQC). The integration of distributed generation resources, such as solar and wind power, into the electrical grid has posed significant challenges related to power quality, including voltage sags, swells, harmonics, and reactive power issues. To address these challenges, the proposed system employs ANFIS for adaptive and precise control, enhancing the performance and stability of the DG system. The UPQC is integrated to mitigate power quality disturbances by simultaneously compensating for voltage and current harmonics and providing voltage regulation. Detailed simulations are conducted to evaluate the effectiveness of the ANFIS-based control strategy and the performance of the UPQC in various operating conditions. The results demonstrate significant improvements in power quality metrics, highlighting the potential of this approach for efficient and reliable integration of distributed generation into modern power systems. The simulation findings are thoroughly examined across multiple operational scenarios and compared to Fuzzy logic control. Furthermore, the proposed system's efficacy is validated in accordance with the IEEE 1547 and IEEE 519 standards, demonstrating its performance and compliance with industrial needs.
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