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Stand‐alone PV water pumping system based on high‐gain resonant inverter fed induction motor serving two‐head for permanent water supply
Author(s) -
Tripathi Prabhat R.,
Thakura Parashuram,
Laxmi Vijay,
Keshri Ritesh Kumar
Publication year - 2021
Publication title -
international journal of circuit theory and applications
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.364
H-Index - 52
eISSN - 1097-007X
pISSN - 0098-9886
DOI - 10.1002/cta.2983
Subject(s) - induction motor , water pumping , inverter , engineering , operability , voltage , control theory (sociology) , automotive engineering , computer science , electrical engineering , control (management) , mechanical engineering , artificial intelligence , reliability engineering , inlet
Summary A vast community of developing countries, like India, is still deprived of a proper water supply system. Such communities often depend on hand‐pumps, ponds, and ravines for their daily water needs. Government‐subsidized PV‐based water pumps have emerged as a boon for such communities. But intermittent nature of solar irradiation and unavailability at night time poses a big challenge. To mitigate this challenge, the present article proposes a stand‐alone PV‐based induction motor‐driven water pumping system serving a dual‐head, that is, an overhead storage tank and ground level supply. A single‐stage three‐phase high‐gain resonant inverter (HGRI) is proposed for driving the induction motor. A back‐ended wide bandgap (WBG) device‐based boost converter is used to extract maximum power from PV by employing the MPPT algorithm. HGRI injects sinusoidal current to the induction motor while operating it through PV power matched modified V/f control algorithm, thus minimizing the torque ripple. HGRI coupled with boost converter provides a high‐gain voltage boost at the output; enabling wide input voltage operation, which increases the operability of the system in high as well as low irradiation level. The practicality of the system is validated on a laboratory‐developed hardware test bed with a 1.5HP induction motor.

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