Title
Surrogate Model Based Diagnostics for the GEnx-1B Turbofan Engine
Author
de Bruin, Bram (TU Delft Aerospace Engineering)
Contributor
Colonna, Piero (mentor) 
Visser, W.P.J. (mentor)
Roling, P.C. (graduation committee)
Rootliep, T. O. (graduation committee)
Degree granting institution
Delft University of Technology
Programme
Aerospace Engineering
Date
2022-12-15
Abstract
Over the years, aero engines have evolved into the efficient turbofans present on commercial airliners today. Although these engines are very reliable, they still experience degradations in performance and reductions in component health. The degradation affects the operation of the engine, which can be measured using the pressure, temperature, and rotational speed sensors. Using accurate engine models together with engine sensor measurements, the condition of individual components can be determined. Surrogate models of a non-linear Gas Path Analysis model have been developed for the GEnx-1B turbofan in the form of High Dimensional Model Representations. It is determined that the surrogate models developed are able to determine component conditions with a high accuracy and low computational complexity. The models are able to properly identify the effects of water-washes and turbine failures when applied to real-world on-wing data. Due to the low computational complexity of the models, they provide the possibility for fleet-wide continuous engine diagnostics.
Subject
Surrogate Model
Turbofan
GEnx-1B
Engine Modelling
Engine Diagnostics
Condition Based Maintenance
HDMR
To reference this document use:
http://resolver.tudelft.nl/uuid:f2424334-caeb-410e-a3d6-4ed642288fa7
Embargo date
2027-12-15
Part of collection
Student theses
Document type
master thesis
Rights
© 2022 Bram de Bruin