Aerodynamic loads on wind turbine nacelles under different inflow turbulence conditions

Goit, Jay Prakash; Ishihara, Takeshi

doi:10.1002/we.2449

Cited by 2 publications

(1 citation statement)

References 21 publications

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“…However, Noda and Ishihara (2014) have covered only rectangular type nacelles. Goit and Ishihara (2020) conducted a series of wind tunnel experiments on the rectangular and the ellipsoidal nacelles with the different turbulence intensities in the incident flow. They investigated the effects of the turbulence intensity on the aerodynamic coefficients acting on the nacelles, however, the formulas of the mean wind force coefficients for each yaw angle were not proposed, and the maximum and minimum peak pressure coefficients in all yaw angle were not investigated.…”

Section: Introductionmentioning

confidence: 99%

Wind tunnel test on mean wind forces and peak pressure acting on ellipsoidal nacelles of wind turbine

Noda

Ishihara

2021

Wind Engineering

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Mean wind forces and peak pressures acting on ellipsoidal nacelles are investigated by wind tunnel tests. The wind force coefficients of the ellipsoidal nacelles for the wind turbine design and the peak pressure coefficients for the nacelle cover design are proposed based on the experimental data. The wind force coefficients are expressed as functions of yaw angles. The proposed formulas are compared with Eurocode, Germanischer Lloyd and ASCE7-16. It is found that the mean wind force coefficients for the wind turbine nacelles are slightly underestimated in Eurocode. The equivalent maximum and minimum mean pressure coefficients are proposed for use in Design Load Case 6.1 and Design Load Case 6.2 of IEC 61400-1. The peak pressure coefficients are derived using a quasi-steady theory. The proposed equivalent maximum and minimum mean pressure coefficients are much larger than those specified in Germanischer Lloyd.

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Section: Introductionmentioning

confidence: 99%

Wind tunnel test on mean wind forces and peak pressure acting on ellipsoidal nacelles of wind turbine

Noda

Ishihara

2021

Wind Engineering

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Experimental study of non-stationary aerodynamic effects on the wind turbine nacelles under extreme wind events

Yan,

Yuan,

Zhou

et al. 2024

Physics of Fluids

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The wind pressure coefficients on the nacelle model of a typical wind turbine are experimentally examined in nonstationary wind flows adopting an active-controlled multi-blade system installed in an atmospheric boundary layer wind tunnel. Various nonstationary winds, characterized by flow parameters of acceleration and initial velocity, are grouped as ramp-up and ramp-down flows. Particular attention is devoted to the influence of nonstationary attributes of incoming flow on the wind pressures acting on the nacelle envelope. The experimental results indicate that the wind pressures on the nacelle surfaces are significantly modified by the incoming nonstationary wind conditions. The overshoot ratios of wind pressure on the nacelle's top surface is increased with the increasing acceleration in the ramp-up flows, while the maximum overshoot ratio occurs at a middle-level acceleration magnitude. Moreover, the overshoot ratios increase with the reduction in the initial velocity of nonstationary winds. Additionally, the extreme pressure coefficients of the nacelle in the ramp-down flow are much increased compared with those in ramp-up winds with equivalent acceleration magnitude. The findings from this study are expected to be instrumental in improving the understanding of the unique characteristics of nonstationary wind pressures and their effect on the nacelle envelope.

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Aerodynamic loads on wind turbine nacelles under different inflow turbulence conditions

Cited by 2 publications

References 21 publications

Wind tunnel test on mean wind forces and peak pressure acting on ellipsoidal nacelles of wind turbine

Wind tunnel test on mean wind forces and peak pressure acting on ellipsoidal nacelles of wind turbine

Experimental study of non-stationary aerodynamic effects on the wind turbine nacelles under extreme wind events

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