Print Email Facebook Twitter Environmental trade-offs of aerostructures Title Environmental trade-offs of aerostructures: A prospective lifecycle assessment of wing ribs Author Arblaster, Thomas (TU Delft Aerospace Engineering; TU Delft Technology, Policy and Management) Contributor Villegas, I.F. (mentor) Steubing, Bernhard (mentor) Teuwen, Julie J.E. (graduation committee) Dedoussi, I.C. (graduation committee) Degree granting institution Delft University of Technology Corporate name Delft University of Technology Programme Aerospace Engineering Date 2023-09-27 Abstract Emerging in the domain of composite manufacturing, thermoplastic polymers can enable the reduction of process times, costs, and waste. In this study, lifecycle assessment (LCA) is used to evaluate a design for a carbon fibre-reinforced thermoplastic (CFRTP) wing rib, made from carbon fibre and polyetherketoneketone (CF/PEKK). The CF/PEKK rib is compared to several hypothetical alternatives, considering autoclave and resin transfer moulding of CF/epoxy and milled aluminium alloy.The comparison uses novel and state-of-the-art techniques. Using scenario analysis, several perspectives are considered: recyclability, mass-induced energy demand, and alternative energy carriers. The analysis of energy carriers and end-of-life processes incorporates prospective methods to explore the effects of the energy transition. Across these scenarios, it was found that, when there is a mass difference among alternatives of 2% or more, the lighter alternative will be preferred, regardless of other factors. Through sensitivity analyses, potential was found for this margin to grow to 3% under extreme conditions, and to around 5-10% when shifting the whole lifecycle into the future. When dealing with smaller mass differences, material production and manufacturing waste become distinguishers of environmental performance. These insights are valuable when exploring novel materials and manufacturing methods for commercial aviation. The approach defined in this thesis can be extended to any other application which has a lightweighting imperative, such as automotive, shipping, rail, or wind turbines. Building on this thesis, guidance can be provided on how and where to apply novel materials across multiple product lifecycles. Subject AviationLightweightingCFRPThermoplastic compositesAluminium alloysLife Cycle AssessmentLCAex-ante LCAScenario analysisEnvironmental impactSustainability To reference this document use: http://resolver.tudelft.nl/uuid:8e4ca28b-134f-402b-80ea-f3e8f1fc63db Part of collection Student theses Document type master thesis Rights © 2023 Thomas Arblaster Files PDF MSc_thesis_Thomas_Arblaster.pdf 10.84 MB Close viewer /islandora/object/uuid:8e4ca28b-134f-402b-80ea-f3e8f1fc63db/datastream/OBJ/view