Modelling and Control Design for Variable Speed Wind Turbine Energy System

Karthik, R.; Hari, Aparna; Kumar, Y. V. Pavan; Pradeep, D. John

doi:10.1109/aisp48273.2020.9073080

Cited by 26 publications

(16 citation statements)

References 14 publications

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“…A simulated system of modelling of wind turbine using differential equations has been simulated in [16]. The overall analysis of modelling and control design for variable speed wind turbine systems has been presented in [17]. A combination of the wind turbine models based on their strength in predicting desirable factors in the operating regions have been suggested in [18].…”

Section: Figure1horizontal Wind Turbine Generatormentioning

confidence: 99%

Modelling design of wind turbine generator

2022

IJATEE

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Section: Figure1horizontal Wind Turbine Generatormentioning

confidence: 99%

Modelling design of wind turbine generator

2022

IJATEE

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“…This paper analyzes the dependence between the optimal mechanical angular speed, ωOPTIM(V), and the wind speed, V. Knowing that the function ωOPTIM(V) is essential for the management of wind systems (ωOPTIM being the reference parameter [1,2]) and for determining the mathematical model of a wind turbine [3][4][5][6], the efficient control of a wind system is achieved by determining the function ωOPTIM(V).…”

Section: Introductionmentioning

confidence: 99%

“…The conditions for operating a wind turbine (WT) at its maximum power point (MPP) at varying wind speeds over time can be derived from the kinetic moment equation [2,5,12,13] in the form…”

Section: Introductionmentioning

confidence: 99%

The Dependence Between the Optimal Mechanical Angular Speed and the Variable Wind Speed From an Energetic Point of View

LUPUTI,

SALINSCHI,

BABESCU

et al. 2024

RRST-EE

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This paper examines the fundamental elements required for operating a wind turbine (WT) at its maximum power point (MPP). It focuses on measuring the wind speed and the power output from the electric generator (EG) over time to establish the relationship between the optimal mechanical angular velocity (MAV) and the wind speed, denoted as the function ωOPTIM(V). This function is crucial for controlling the power output of the electric generator, ensuring that the WT operates at its maximum power point. The study analyzes the measurements taken from the turbines in Siliștea in Dobrogea, Romania. The paper concludes by presenting an algorithm to determine the function ωOPTIM(V).

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“…Some researchers improve these controllers by using different algorithms.to choose the best gain of their controller ACO is used [21] to choose the gain of PI controller that achieve the minimum cost for TSR method for speed in second region. different types of optimization algorithm of open loop transfer function (OLTR), Error performance index (EPI) and ultimate cycles (UC) methods are applied to choose gains of PID controller [22]. Ziegler-Nichols (ZN-1) from open loop transfer function methods give the best performance (zero overshoot and small rising time and settling time).…”

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confidence: 99%

Wind-Based Multi-Regional Modelling and Control of Wind Turbines Generation

Gabr

Razik

Dorrah

2022

Benha Journal of Applied Sciences

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Modelling is important in studying systems. It shows the system from different angles, help in analysing and understanding the system, analysis the causes and effects, can discover the defects in the system and treat it, illustrates the alternatives and studies their effects. Research looks for appropriate models of low, medium, high and very high wind speed. ARMA can be used in making time series models. It can get models with similar properties of original data. This research develops several ARMA models for wind speed data classified according to its value in four groups. The least mean square error (MSE) is the criteria to choose between models, for each wind speed model gets the appropriate wind turbine model that tells the predicted output power. The original data is taken to its group according to its value and taken to its appropriate power model. Turbine stops for low and very high speed. MPPT is used for medium speed. High speed models need pitch angle control. The model is implemented to Zafranaa wind speed data. It is divided into three groups. There were no data points for fourth group, Max point was 17m/s. Third group has appropriate amount of data and most of data are in second group, Finally the implementation procedure has demonstrated the applicability of the preferred method

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Modelling and Control Design for Variable Speed Wind Turbine Energy System

Cited by 26 publications

References 14 publications

Modelling design of wind turbine generator

Modelling design of wind turbine generator

The Dependence Between the Optimal Mechanical Angular Speed and the Variable Wind Speed From an Energetic Point of View

Wind-Based Multi-Regional Modelling and Control of Wind Turbines Generation

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