Litcius/Paper detail

Life Cycle Environmental Impact of Wind Turbines: What are the Possible Improvement Pathways?

A Guilloré, Helena Canét, CL Bottasso

2022Journal of Physics Conference Series14 citationsDOIOpen Access PDF

Abstract

Abstract This study explores the effect of different technology choices on the life cycle Greenhouse Gases (GHG) emissions of wind turbines. It aims at identifying possible improvement pathways and quantifying potential benefits. First, an automated Life Cycle Assessment (LCA) model is developed and validated against other studies. The breakdown of the resulting Impact Of Energy (IOE) by life stages, components and materials is presented for a selected reference turbine. Sensitivity analyses are conducted on the different hypotheses to model the turbine life cycle. The model is then applied to analyze the potential effect of turbine size, foundation type, tower type, drivetrain technology, carbon-fiber blades and thermoplastic polymer resin for the blades. The tower type (especially wooden tower) and the thermoplastics (allowing to recover materials at the end-of-life) are identified to have the biggest potential to reduce the life cycle environmental impact of wind energy.

Topics & Concepts

Life-cycle assessmentTurbineWind powerTowerGreenhouse gasDrivetrainEnvironmental scienceTurbine bladeEngineeringMechanical engineeringStructural engineeringBiologyTorquePhysicsMacroeconomicsThermodynamicsProduction (economics)EcologyEconomicsElectrical engineeringWind Energy Research and DevelopmentFiber-reinforced polymer compositesCellular and Composite Structures