Power quality improvement in standalone batteryintegrated wind energy system

Varma, Sagiraju Dileep Kumar; Bhavani, N.Vani Annapurna

doi:10.1109/scopes.2016.7955519

Cited by 6 publications

(7 citation statements)

References 14 publications

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“…The Betz limit C p (11) is a function of blade pitch angle β, and tip speed ratio λ (12). Radius of the shaft that is coupled to the rotor of the generator is R, rotating at an angular speed w. Betz limit has a maximum value equal to 0.593 [33].…”

Section: Wind Turbine Modelingmentioning

confidence: 99%

“…The permanent magnet synchronous generator (PMSG) that is coupled to the wind turbine is modeled in direct-quadrature (d-q) synchronous frame [32,33], by the following expressions.…”

Section: Modelling Of Permanent Magnet Synchronous Generatormentioning

confidence: 99%

“…The charging and discharging conditions of the battery energy storage system (BESS) are tied to the state of charge (SOC), DC bus voltage, and net power (P net ) of the microgrid DERs for the rural standalone system. The P net is calculated as ( 25) [33], where the solar PV power is P PV , wind power is P w , and the load is P L .…”

Section: Control Of Battery Energy Storage Systemmentioning

confidence: 99%

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Design of a Hybrid Energy System with Energy Storage for Standalone DC Microgrid Application

et al. 2021

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This paper presents microgrid-distributed energy resources (DERs) for a rural standalone system. It is made up of a solar photovoltaic (solar PV) system, battery energy storage system (BESS), and a wind turbine coupled to a permanent magnet synchronous generator (WT-PMSG). The DERs are controlled by maximum power point tracking (MPPT)-based proportional integral (PI) controllers for both maximum power tracking and error feedback compensation. The MPPT uses the perturb and observe (P&O) algorithm for tracking the maximum power point of the DERs. The PI gains are tuned using the Ziegler–Nichols method. The developed system was built and simulated in MATLAB/Simulink under two conditions—constant load, and step-load changes. The controllers enabled the BESS to charge even during conditions of varying load and other environmental factors such as change of irradiance and wind speed. The reference was tracked extremely well by the output voltage of the DC microgrid. This is useful research for electrifying the rural islanded areas which are too far from the grid.

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Section: Wind Turbine Modelingmentioning

confidence: 99%

“…The permanent magnet synchronous generator (PMSG) that is coupled to the wind turbine is modeled in direct-quadrature (d-q) synchronous frame [32,33], by the following expressions.…”

Section: Modelling Of Permanent Magnet Synchronous Generatormentioning

confidence: 99%

Section: Control Of Battery Energy Storage Systemmentioning

confidence: 99%

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Design of a Hybrid Energy System with Energy Storage for Standalone DC Microgrid Application

et al. 2021

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“…Radius of the shaft that is coupled to the rotor of the generator is R , rotating at an angular speed w . Betz limit has a maximum value equal to 0.593 [18].…”

Section: Wind Turbine Modelingmentioning

confidence: 99%

“…The permanent magnet synchronous generator (PMSG) that is coupled to the wind turbine is modeled in direct-quadrature (d-q) synchronous frame [18], by the following expressions. (15), where p is the number of pole pairs of the PMSG.…”

Section: Modelling Of Permanent Magnet Synchronous Generatormentioning

confidence: 99%

Proposal Design of a Hybrid Solar PV-Wind-Battery Energy Storage for Standalone DC Microgrid Application

Juma¹,

Mwinyiwiwa²,

Msigwa³

et al. 2021

Preprint

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This paper presents a microgrid distributed energy resources (DERs) for a rural standalone system. It is made up of solar photovoltaic (solar PV) system, battery energy storage system (BESS), and wind turbine coupled to permanent magnet synchronous generator (WT-PMSG). The DERs are controlled by maximum power point tracking (MPPT) based proportional intergral (PI) controllers for both maximum power tracking and error feedback compensation. The MPPT uses the perturb and observe (P&O) algorithm for tracking the maximum power point of the DERs. The PI gains are tuned using the Ziegler-Nichol’s method. The developed system was built and simulated in MATLAB/Simulink under two conditions - constant load, and step load changes. The controllers enabled the BESS to charge even during conditions of varying load and other environmental factors such as change of irradiance and wind speed. The reference was tracked very well by the output voltage of the DC grid. This is a useful research for electrifying the rural islanded areas, too far from the grid.

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Improved Voltage Regulation in Hybrid Photovoltaic/Wind Using Modified Dynamic Voltage Restorer with Hybrid Control Scheme

Rani,

Parkash,

Sharma

2024

Lecture Notes in Electrical Engineering

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Power quality improvement in standalone batteryintegrated wind energy system

Cited by 6 publications

References 14 publications

Design of a Hybrid Energy System with Energy Storage for Standalone DC Microgrid Application

Design of a Hybrid Energy System with Energy Storage for Standalone DC Microgrid Application

Proposal Design of a Hybrid Solar PV-Wind-Battery Energy Storage for Standalone DC Microgrid Application

Improved Voltage Regulation in Hybrid Photovoltaic/Wind Using Modified Dynamic Voltage Restorer with Hybrid Control Scheme

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