A Methodology to Optimize PMSM Driven Solar Water Pumps Using a Hybrid MPPT Approach in Partially Shaded Conditions

Solar water pumps are crucial for farmers, significantly reducing energy costs and providing independence from conventional fuels. Their adoption is further incentivized by government subsidies, making them a practical choice that aligns with sustainable agricultural practices. However, the cost of...

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Bibliographic Details
Published inClean technologies Vol. 6; no. 3; pp. 1229 - 1259
Main Authors Shetty, Divya, Sabhahit, Jayalakshmi N., Kudva, Ganesh
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.09.2024
Subjects
Agricultural practices
Agriculture
Algorithms
Artificial intelligence
Control methods
Control systems
Convergence
Efficiency
Electricity
Energy conservation
Energy consumption
Energy costs
Farmers
Fuzzy logic
hybrid MPPT
Incremental conductance
India
Magnets, Permanent
Mathematical optimization
Maximum power tracking
Methods
Optimization
Oscillations
partial shading
Particle swarm optimization
Permanent magnets
PMSM
Pumping
Pumps
Rural areas
Sensors
Shading
Solar energy
Solar panels
solar water pumping system
Sustainable agriculture
Sustainable practices
Synchronous motors
V/f control
Water
India
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Summary:Solar water pumps are crucial for farmers, significantly reducing energy costs and providing independence from conventional fuels. Their adoption is further incentivized by government subsidies, making them a practical choice that aligns with sustainable agricultural practices. However, the cost of the required solar panels for the chosen power makes it essential to optimize solar water pumping systems (SWPS) for economic viability. This study enhances the efficiency and reliability of permanent magnet synchronous motor (PMSM)-driven SWPS in rural areas using hybrid maximum power point tracking (MPPT) algorithms and voltage-to-frequency (V/f) control strategy. It investigates the sensorless scalar control method for PMSM-based water pumps and evaluates various MPPT algorithms, including grey wolf optimization (GWO), particle swarm optimization (PSO), perturb and observe (PO), and incremental conductance (INC), along with hybrid combinations. The study, conducted using MATLAB Simulink, assesses these algorithms on convergence time, MPPT accuracy, torque ripple, and system efficiency under different partial shading conditions. Findings reveal that INC-GWO excels, providing higher accuracy, faster convergence, and reduced steady-state oscillations, thus boosting system efficiency. The V/f control strategy simplifies control mechanisms and enhances performance. Considering system non-idealities and maximum duty cycle limitations, PMSM-based SWPS achieve superior efficiency and stability, making them viable for off-grid water pumping applications.
ISSN:2571-8797
2571-8797
DOI:10.3390/cleantechnol6030060