<p>This research presents the detailed investigation of coupled-mode flutter and non-synchronous vibration in turbomachinery. Coupled-mode flutter and non-synchronous vibration are two aeromechanical challenges in designing turbomachinery that, when present, can cause engine blade failure. Regarding flutter, current industry design practices calculate the aerodynamic loads on a blade due to a single mode. In response to these design standards, a quasi three-dimensional, reduced-order modeling tool was developed for identifying the aeroelastic conditions that cause multi-mode flutter. This tool predicts the onset of coupled-mode flutter reasonable well for four different configurations, though certain parameters were tuned to agree with exp...
This dissertation provides numerical studies to improve bladed disk assembly design for preventing b...
In turbomachinery, the continuous drive towards low weight and improved efficiency has led to the de...
Prediction of flutter in shrouded turbomachinery cascades is difficult due to i) coupling of aerodyn...
This research presents a detailed study of non-synchronous vibration (NSV) and the development of an...
Current trends in turbomachinery design significantly reduce the mass ratio of structure to air, mak...
<p>One of the grand challenges faced by industry is the accurate prediction of unsteady aerodynamics...
Non-synchronous vibrations arising near the stall boundary of compressors are a recurring and potent...
Modern turbomachinery design is characterized by a tendency towards thinner, lighter and highly load...
In the field of turbomachinery mechanical designs strive for increased efficiency and lighter engine...
Aeroelastic phenomena in turbomachinery are one of the most challenging problems to model using comp...
Modern turbomachines are designed towards thinner, lighter and highly loaded blades. This gives rise...
Aeroelastic phenomena in turbomachinery are one of the most challenging problems to model using comp...
This dissertation provides numerical studies to improve bladed disk assembly design for preventing b...
To save resources and reduce emissions, it is crucial to reduce weight of aircraft engines and furth...
ABSTRACT A three-dimensional nonlinear time-marching method and numerical analysis for aeroelastic b...
This dissertation provides numerical studies to improve bladed disk assembly design for preventing b...
In turbomachinery, the continuous drive towards low weight and improved efficiency has led to the de...
Prediction of flutter in shrouded turbomachinery cascades is difficult due to i) coupling of aerodyn...
This research presents a detailed study of non-synchronous vibration (NSV) and the development of an...
Current trends in turbomachinery design significantly reduce the mass ratio of structure to air, mak...
<p>One of the grand challenges faced by industry is the accurate prediction of unsteady aerodynamics...
Non-synchronous vibrations arising near the stall boundary of compressors are a recurring and potent...
Modern turbomachinery design is characterized by a tendency towards thinner, lighter and highly load...
In the field of turbomachinery mechanical designs strive for increased efficiency and lighter engine...
Aeroelastic phenomena in turbomachinery are one of the most challenging problems to model using comp...
Modern turbomachines are designed towards thinner, lighter and highly loaded blades. This gives rise...
Aeroelastic phenomena in turbomachinery are one of the most challenging problems to model using comp...
This dissertation provides numerical studies to improve bladed disk assembly design for preventing b...
To save resources and reduce emissions, it is crucial to reduce weight of aircraft engines and furth...
ABSTRACT A three-dimensional nonlinear time-marching method and numerical analysis for aeroelastic b...
This dissertation provides numerical studies to improve bladed disk assembly design for preventing b...
In turbomachinery, the continuous drive towards low weight and improved efficiency has led to the de...
Prediction of flutter in shrouded turbomachinery cascades is difficult due to i) coupling of aerodyn...