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Impact of climate change on the design of multi-megawatt spar floating wind turbines

Maria James, Sumanta Haldar, Subhamoy Bhattacharya

2023Marine Structures12 citationsDOIOpen Access PDF

Abstract

Increased frequency and intensity of extreme events can make offshore constructions unsafe due to the rapidly shifting wind-wave pattern. The consequences of climate change are disregarded by the current performance-based design of offshore wind turbines (OWT). The Statistical Downscaling Model (SDSM) and Artificial Neural Network (ANN) algorithm are used to present a simplified approach to enable the inclusion of future climatic projections in the design of spar-floating wind turbines . A two-variable statistical equation employing an Artificial Neural Network is established for calculating wind-induced wave height for the North Sea and West Coast of India, which is a valuable parameter for the site-specific design of offshore constructions. Under the SSP2-4.5 scenario, the North Sea's most likely wind speed is anticipated to decrease by 11 %, whereas the west coast of India experiences a slight decrease in wind speed. Serviceability responses, such as tower deflection, rotation, and nacelle acceleration, are expected to rise by 8–10 %. In contrast, a decrease in these responses is projected in the North Sea due to a decrease in future wind speed and wave height. Climate change has a greater impact on shutdown conditions than on normal operations, primarily due to the pronounced shifts in extreme climate conditions.

Topics & Concepts

Offshore wind powerNacelleDownscalingWind speedTurbineSparEnvironmental scienceWind powerMarine engineeringMeteorologyClimate changeServiceability (structure)Submarine pipelineClimatologyEngineeringGeologyStructural engineeringOceanographyGeographyElectrical engineeringMechanical engineeringWind Energy Research and DevelopmentWind and Air Flow StudiesOcean Waves and Remote Sensing
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