Print Email Facebook Twitter Inverse design of a cyclorotor using Bayesian inference and CFD simulations Title Inverse design of a cyclorotor using Bayesian inference and CFD simulations Author Bisbal Regidor, Àlex (TU Delft Aerospace Engineering) Contributor De Tavernier, D. (mentor) Hoogreef, M.F.M. (mentor) van Rooij, A. (mentor) Degree granting institution Delft University of Technology Programme Aerospace Engineering Date 2024-05-15 Abstract Within the context of the new wave of eVTOL aircraft development, Cyclotech GmbH has been working on the development of cyclorotors, a type of propeller consisting of rotating blades along a common longitudinal axis, where the pitch angle of the blades is actively controlled through what is known as a pitch curve. This thesis proposes a methodology to solve an inverse design of this pitch curve, which results in a certain target lift distribution. A framework using Bayesian inference is proposed, altogether with CFD simulations for the aerodynamic solution of the cyclorotor. To reduce the number of CFD evaluations and improve the framework efficiency, gradient descent methods are used altogether with semi-transient adjoint CFD gradients. Furthermore, low-fidelity information is added to the framework through the definition of a prior model to help speed up the inference. Using this methodology, three different test cases, from lower to higher complexity, are defined and successfully solved. Subject Inverse designBayesian inferenceCFDCyclorotoreVTOLAdjoint OptimisationUnsteady Aerodynamics To reference this document use: http://resolver.tudelft.nl/uuid:d8a63990-3d95-46b0-8f75-c786a3d3d9a1 Embargo date 2029-05-15 Part of collection Student theses Document type master thesis Rights © 2024 Àlex Bisbal Regidor Files file embargo until 2029-05-15