Aeroelastic instabilities such as flutter have a crucial role in limiting the operating range and reliability of turbomachinery. This paper offers an alternative approach to aeroelastic analysis, where the sensitivity of aerodynamic damping with respect to main flow and structural parameters is quantified through a surrogate-model-based investigation. The parameters are chosen based on previous studies and are represented by a uniform distribution within applicable intervals. The surrogate model is an artificial neural network, trained and tested to achieve an error within 1% of the test data. The quantity of interest is aerodynamic damping and the datasets are obtained from a linearised aeroelastic solver. The sensitivity of aerodynamic da...
Abstract: The study described in this article is the application of energy method for the predic-tio...
A probabilistic approach is described for aeroelastic analysis of turbomachinery blade rows. Blade r...
Turbojet compressors are subject to numerous vibration phenomena that limit their good operability. ...
In this paper, the rotor geometries of two consecutive design loops are compared numerically with r...
Structural health monitoring spans many decades of research across multiple engineering fields. Howe...
Abstract The application of machine learning to aerospace problems faces a particular...
The accuracy of flutter or forced response analyses of turbomachinery blade assemblies strongly depe...
Modern turbomachinery design is characterized by a tendency towards thinner, lighter and highly load...
A reliable determination of the unsteady aerodynamic loads acting on the blades is essential to pred...
Abstract: Flight flutter testing is a crucial part in the certification of a prototype aircraft. To ...
Flutter is an aeroelastic instability phenomenon that can result either in serious damage or complet...
State-of-the-art prediction of the aeroelastic stability of cascades in axial-flow turbomachines is ...
Aeroelastic phenomena in turbomachinery are one of the most challenging problems to model using comp...
In this job new approaches to the mistune effects evaluation on turbomachine are presented that cann...
Aeroelastic phenomena in turbomachinery are one of the most challenging problems to model using comp...
Abstract: The study described in this article is the application of energy method for the predic-tio...
A probabilistic approach is described for aeroelastic analysis of turbomachinery blade rows. Blade r...
Turbojet compressors are subject to numerous vibration phenomena that limit their good operability. ...
In this paper, the rotor geometries of two consecutive design loops are compared numerically with r...
Structural health monitoring spans many decades of research across multiple engineering fields. Howe...
Abstract The application of machine learning to aerospace problems faces a particular...
The accuracy of flutter or forced response analyses of turbomachinery blade assemblies strongly depe...
Modern turbomachinery design is characterized by a tendency towards thinner, lighter and highly load...
A reliable determination of the unsteady aerodynamic loads acting on the blades is essential to pred...
Abstract: Flight flutter testing is a crucial part in the certification of a prototype aircraft. To ...
Flutter is an aeroelastic instability phenomenon that can result either in serious damage or complet...
State-of-the-art prediction of the aeroelastic stability of cascades in axial-flow turbomachines is ...
Aeroelastic phenomena in turbomachinery are one of the most challenging problems to model using comp...
In this job new approaches to the mistune effects evaluation on turbomachine are presented that cann...
Aeroelastic phenomena in turbomachinery are one of the most challenging problems to model using comp...
Abstract: The study described in this article is the application of energy method for the predic-tio...
A probabilistic approach is described for aeroelastic analysis of turbomachinery blade rows. Blade r...
Turbojet compressors are subject to numerous vibration phenomena that limit their good operability. ...