Development of a model to investigate the yaw behaviour of small horizontal axis wind turbines

Narayana, Mahinsasa; Putrus, Ghanim; Leung, Pak Sing; Jovanović, Milutin; McDonald, S.

doi:10.1177/0957650911421854

Cited by 6 publications

(5 citation statements)

References 15 publications

(23 reference statements)

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“…[117] Dynamic Analysis by MATLAB/SIMULINK Effect of yaw behaviour for power generation in small wind turbines. [118] Gravitational Search Algorithm (GSA)…”

Section: Method/softwarementioning

confidence: 99%

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Wind Energy Harvesting and Conversion Systems: A Technical Review

et al. 2022

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Wind energy harvesting for electricity generation has a significant role in overcoming the challenges involved with climate change and the energy resource implications involved with population growth and political unrest. Indeed, there has been significant growth in wind energy capacity worldwide with turbine capacity growing significantly over the last two decades. This confidence is echoed in the wind power market and global wind energy statistics. However, wind energy capture and utilisation has always been challenging. Appreciation of the wind as a resource makes for difficulties in modelling and the sensitivities of how the wind resource maps to energy production results in an energy harvesting opportunity. An opportunity that is dependent on different system parameters, namely the wind as a resource, technology and system synergies in realizing an optimal wind energy harvest. This paper presents a thorough review of the state of the art concerning the realization of optimal wind energy harvesting and utilisation. The wind energy resource and, more specifically, the influence of wind speed and wind energy resource forecasting are considered in conjunction with technological considerations and how system optimization can realise more effective operational efficiencies. Moreover, non-technological issues affecting wind energy harvesting are also considered. These include standards and regulatory implications with higher levels of grid integration and higher system non-synchronous penetration (SNSP). The review concludes that hybrid forecasting techniques enable a more accurate and predictable resource appreciation and that a hybrid power system that employs a multi-objective optimization approach is most suitable in achieving an optimal configuration for maximum energy harvesting.

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“…[117] Dynamic Analysis by MATLAB/SIMULINK Effect of yaw behaviour for power generation in small wind turbines. [118] Gravitational Search Algorithm (GSA)…”

Section: Method/softwarementioning

confidence: 99%

“…Power generation is highly affected by wind speed and wind directional variations. In turbulent urban conditions, power generation is reduced due to the yaw behavior of small wind turbines, which needs to consider in the design stage for these types of site conditions [118].…”

Section: Optimization Of Wind Turbine Designmentioning

confidence: 99%

Wind Energy Harvesting and Conversion Systems: A Technical Review

et al. 2022

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“…The tested S822 airfoil had a chord (c) of 55 mm for a nominal Re of 10 5 . The airfoil shown schematically in Figure 1 pitches, or oscillates sinusoidally around the c/4 position with a varying angle of attack given by (1) For the oscillating angles of attack, the mean value of 0°, α mean = 0°, and the two amplitude values of 4° and 8°, α amp = 4° and 8°, were considered. With the selected frequency of oscillation ( f ), the reduced frequency (k) of 0.025 was fixed for all cases where the reduced frequency is introduced as Thus the two dynamic cases have a common k and one has twice the amplitude of the other.…”

Section: Methodsmentioning

confidence: 99%

A 2D Blade Element Study of a Wind Turbine Rotor under Yaw Loads

et al. 2015

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Wind turbines operate within an environment of varying wind direction and magnitude leading to misalignment or yaw between the wind and the turbine rotor. Many control techniques have been applied to small horizontal axis wind turbines (HAWTs) to prevent significant yaw loads, but in reality, most of the time the rotor is under some yaw load which may be significant. A blade element of a HAWT rotor under yaw loading is similar to a sinusoidally pitching airfoil. Here a miniaturized pitching S822 airfoil with a reduced frequency k of 0.025 at a Reynolds number ( Re = 105) is considered where the maximum dynamic angle of attack is equal to the static angle where the maximum lift to drag ratio occurs. These dynamic results obtained with laser Doppler anemometry (LDA), particle image velocimetry (PIV) and a numerical simulation with the Transition SST method are compared to a constant wind-loaded blade element. Since direct load measurement for dynamic miniaturized models in wind tunnels is very challenging, the non-intrusive PIV control volume analysis approach has been applied for load determination. Unlike the rotor in an ideal unidirectional freestream flow, a rotor under yaw loads, as presented here, experiences significant unbalanced loading in one cycle and a non-uniform wake. Results may be used to predict the cyclical range of loads a blade element experiences in yaw conditions and effects on the downstream rotor wake.

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“… 85 , 86 Narayana et al. 87 modeled yaw motion with wind vane dynamic response and alternative yaw dynamic equations. Based on field measurements, Evans et al.…”

Section: Wind Energy Rectifiersmentioning

confidence: 99%

Small wind turbines and their potential for internet of things applications

Wang,

Xiong,

Zhang

et al. 2023

iScience

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Development of a model to investigate the yaw behaviour of small horizontal axis wind turbines

Cited by 6 publications

References 15 publications

Wind Energy Harvesting and Conversion Systems: A Technical Review

Wind Energy Harvesting and Conversion Systems: A Technical Review

A 2D Blade Element Study of a Wind Turbine Rotor under Yaw Loads

Small wind turbines and their potential for internet of things applications

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