Article: Power quality improvement for microgrid-connected PV-based converters under partial shading conditions using mixed optimisation algorithms Journal: International Journal of Bio-Inspired Computation (IJBIC) 2023 Vol.21 No.3 pp.123 - 136 Abstract: This paper outlines a method to reduce harmonic injection for PV-based distributed generation units using search-based optimisation techniques. The motivation to design such a scheme is due to the difficulty of keeping the DC bus and output voltage constant under partial shading conditions (PSCs) with a single boost converter. Novel series compensation supported by the auxiliary unit has been introduced to highlight new aspects in this area. Selective harmonic elimination pulse width modulation (SHEPWM) is used to selectively choose the order of harmonics to be removed and keep a check on the other harmonics within specified ranges. The metaheuristic technique fetches five optimised switching angles for driving inverters, and an auxiliary inverter is used to mitigate lower and higher order harmonics as well as regulate the wide voltage variation on the grid side using novel series compensation. These angles were preserved in processor memory for an online application using the 'piecewise mixed model of approximation'. The THD obtained was 1.48%. The proposed method has been modelled in MATLAB/Simulink and verified experimentally in a practical PV system. The cuckoo search and proposed IPSO have outperformed in terms of MPP tracking under PSC and harmonic reduction, respectively. The proposed scheme was simple yet efficient in terms of power quality, easier computation, and faster tracking of maximum power point (MPP). Inderscience Publishers - linking academia, business and industry through research

Title: Power quality improvement for microgrid-connected PV-based converters under partial shading conditions using mixed optimisation algorithms

Authors: S. Suman; D. Chatterjee; R. Mohanty

Addresses: Department of EE, Jadavpur University, Kolkata-700032, West Bengal, India ' Department of EE, Jadavpur University, Kolkata-700032, West Bengal, India ' Department of EE, Jadavpur University, Kolkata-700032, West Bengal, India

Abstract: This paper outlines a method to reduce harmonic injection for PV-based distributed generation units using search-based optimisation techniques. The motivation to design such a scheme is due to the difficulty of keeping the DC bus and output voltage constant under partial shading conditions (PSCs) with a single boost converter. Novel series compensation supported by the auxiliary unit has been introduced to highlight new aspects in this area. Selective harmonic elimination pulse width modulation (SHEPWM) is used to selectively choose the order of harmonics to be removed and keep a check on the other harmonics within specified ranges. The metaheuristic technique fetches five optimised switching angles for driving inverters, and an auxiliary inverter is used to mitigate lower and higher order harmonics as well as regulate the wide voltage variation on the grid side using novel series compensation. These angles were preserved in processor memory for an online application using the 'piecewise mixed model of approximation'. The THD obtained was 1.48%. The proposed method has been modelled in MATLAB/Simulink and verified experimentally in a practical PV system. The cuckoo search and proposed IPSO have outperformed in terms of MPP tracking under PSC and harmonic reduction, respectively. The proposed scheme was simple yet efficient in terms of power quality, easier computation, and faster tracking of maximum power point (MPP).

Keywords: DC-AC power converters; harmonic analysis; harmonic suppression; selective harmonic elimination pulse width modulation; SHEPWM; inverters; search-based optimisation techniques.

DOI: 10.1504/IJBIC.2023.131918

International Journal of Bio-Inspired Computation, 2023 Vol.21 No.3, pp.123 - 136

Received: 30 Dec 2021
Accepted: 21 Apr 2023
Published online: 04 Jul 2023 *

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Title: Power quality improvement for microgrid-connected PV-based converters under partial shading conditions using mixed optimisation algorithms

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