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Comparative analysis of offshore and onshore wind turbines: Efficiency, design, and environmental impact

Md Tanvir, Amin Etminan

2025Wind Engineering7 citationsDOIOpen Access PDF

Abstract

This study provides a comparative analysis of offshore and onshore wind turbines, focusing on efficiency, design, environmental impacts, and regulatory frameworks. Offshore turbines, benefiting from higher, more consistent wind speeds (∼9 m/s at hub height), achieve capacity factors exceeding 50%, with individual outputs reaching up to 15 MW. Onshore systems operate at lower wind speeds (∼5–8 m/s), achieving capacity factors of 30–40% and outputs of 2–4 MW. Offshore systems, exemplified by Hywind Scotland’s 56% capacity factor, offer scalability but involve higher levelized cost of energy (LCOE) of $80/MWh and potential marine ecosystem impacts. Onshore turbines, more economically viable ($50/MWh LCOE), face land-use conflicts, and biodiversity risks. The study underscores the need for site-specific solutions, balancing energy efficiency, sustainability, and cost-effectiveness, with technological advancements like floating foundations and modular designs enhancing future wind energy scalability. These findings guide investments in clean energy systems tailored to geographic and economic contexts.

Topics & Concepts

Offshore wind powerSea breezeSubmarine pipelineWind powerRenewable energyEnvironmental scienceEnvironmental impact assessmentMarine engineeringCost of electricity by sourceEnvironmental resource managementModular designMarine energyEfficient energy useCruiseEngineeringSustainabilityWind engineeringOperating costObstacleElectricity generationNameplate capacityWind Energy Research and DevelopmentSocial Acceptance of Renewable EnergyIcing and De-icing Technologies