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xray.greyb.com
article
https://xray.greyb.com/wind-turbines/increase-power-efficiency-from-wind-turb…
* **Dynamic Power Limit Management** – Terminal voltage monitoring for boost operation, thermal hotspot-driven knee region power boost, time-averaged deviation control, adaptive limits based on cooling capacity and component temperatures. * **Blade Aerodynamic Enhancement** – Serrated spike features for low air density induction factor increase, trailing edge profile elements with adjustable pitch control, site-specific vortex generator distribution, periodic pitch angle modulation for wake disruption. Method for Wind Farm Power Output Adjustment Using Turbine Cluster Identification and Machine Learning-Based Wake Mitigation. The method identifies turbine clusters based on wind direction and determines the optimal operating setpoints for each turbine in the cluster to maximize overall farm power output. The method uses machine learning models to predict the power output of downwind turbines affected by upwind turbine wakes, and adjusts the operating setpoints of both upwind and downwind turbines to balance their power output and maximize the overall farm power output.
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orbit.dtu.dk
article
https://orbit.dtu.dk/en/publications/enhancing-data-analytics-for-dynamic-fat…
by MK Dhadwal · 2025 — Dynamic fatigue testing of wind turbine blades is crucial for ensuring structural integrity and endurance under varying operational
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mdpi.com
article
https://www.mdpi.com/2071-1050/18/2/1067
For articles published under an open access Creative Common CC BY license, any part of the article may be reused without permission provided that the original article is clearly cited. Editor’s Choice articles are based on recommendations by the scientific editors of MDPI journals from around the world. Editors select a small number of articles recently published in the journal that they believe will be particularly interesting to readers, or important in the respective research area. The aim is to provide a snapshot of some of the most exciting work published in the various research areas of the journal. Based on the interpreted data, temperature, wind direction, and wind speed data from three turbines located at altitudes of 432, 454, and 492 m in the Sebenoba area of Yayladağ, Hatay, where wind potential is high, were collected at 10 min intervals between 1 January 2017, and 19 September 2018, yielding a total of 50,986 data points.
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sciencedirect.com
article
https://www.sciencedirect.com/science/article/pii/S2666519025000573
by ZA Shawket · 2025 · Cited by 11 — This review investigates innovative technologies—such as nozzle lenses, diffusers, and solar chimneys—that aim to improve turbine efficiency and energy output.
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bvna.com
article
https://www.bvna.com/power/technical-article/performance
This article explores key aspects of performance guarantees, testing methodologies, and actionable strategies to address challenges in ensuring wind turbine
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blog.eddyfi.com
article
https://blog.eddyfi.com/en/enhancing-wind-turbine-reliability-the-critical-ro…
# Enhancing Wind Turbine Reliability: The Critical Role of NDT in Ensuring Structural Integrity. By capturing the natural power of the wind, turbines provide a sustainable alternative to fossil fuels, playing a critical role in reducing carbon emissions and mitigating climate change. Countries like China, the United States, and Germany are leading the way in wind energy production, with both onshore and offshore wind farms helping to drive the transition toward cleaner power sources. As of 2023, wind energy accounts for approximately 10% of the electricity generated in the U.S. electricity generation1, a testament to the sector’s rapid growth fueled by significant investments in renewable energy infrastructure. As wind turbine technology evolves, ensuring the reliability and durability of critical components becomes more important than ever. By detecting potential flaws early, advanced inspection techniques—such as Phased Array Ultrasonic Testing (PAUT), Full Matrix Capture (FMC) and Total Focusing Method (TFM), Time-of-Flight Diffraction (ToFD), and Eddy Current Testing (ECT)—help minimize maintenance costs, prevent unexpected failures, and extend the lifespan of wind turbines.
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ui.adsabs.harvard.edu
research
https://ui.adsabs.harvard.edu/abs/2016nsf....1634396S/abstract
by KA Stelson · 2016 — The research objective of this project is to understand the transient response of wind turbines to control law and time varying wind and blade pitch. In
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ecommons.cornell.edu
research
https://ecommons.cornell.edu/entities/publication/fd2a855a-14d7-46ea-9ebc-e12…
In the second paper, a wake mitigation technique, called dynamic induction control, was studied. With this technique, the set point of the turbine is