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Kenneth C Hall

Kenneth C Hall

Duke University

H-index: 47

North America-United States

Contact Kenneth C Hall

About Kenneth C Hall

Kenneth C Hall, With an exceptional h-index of 47 and a recent h-index of 23 (since 2020), a distinguished researcher at Duke University, specializes in the field of Aerodynamics, Unsteady Aerodynamics, Dynamics, Aeroelasticity.

His recent articles reflect a diverse array of research interests and contributions to the field:

Identification of the Aeromechanical Parameters of a Compressor Rotor from Blade Tip Timing Data

A fluid–structure interaction tool using a van der pol-based reduced-order model for buffet and nonsynchronous vibrations

Blade vibration and its effect on the optimal performance of helicopter rotors

An improved preliminary design tool for turbomachinery blades using van der pol based reduced-order model for non-synchronous vibrations

Extending a Van Der Pol-Based Reduced-Order Model for Fluid–Structure Interaction Applied to Non-Synchronous Vibrations in Turbomachinery

Modeling of fluid-structure interaction

Modern analysis for complex and nonlinear unsteady flows in turbomachinery

Kenneth C Hall Information

University

Position

Professor of Mechanical Engineering

Citations(all)

9079

Citations(since 2020)

2351

Cited By

9171

hIndex(all)

47

hIndex(since 2020)

23

i10Index(all)

115

i10Index(since 2020)

56

Email

University Profile Page

Google Scholar

Kenneth C Hall Skills & Research Interests

Aerodynamics

Unsteady Aerodynamics

Dynamics

Aeroelasticity

Top articles of Kenneth C Hall

Title

Journal

Author(s)

Publication Date

Identification of the Aeromechanical Parameters of a Compressor Rotor from Blade Tip Timing Data

Journal of Turbomachinery

Kenneth C Hall

Steven R Hall

2024/7/1

A fluid–structure interaction tool using a van der pol-based reduced-order model for buffet and nonsynchronous vibrations

Journal of Turbomachinery

Richard Hollenbach

Robert Kielb

Kenneth Hall

2023/1/1

Blade vibration and its effect on the optimal performance of helicopter rotors

Journal of Aircraft

Matthew B Tedesco

Kenneth C Hall

2022/1

An improved preliminary design tool for turbomachinery blades using van der pol based reduced-order model for non-synchronous vibrations

Richard Hollenbach

Robert Kielb

Kenneth Hall

2022/6/13

Extending a Van Der Pol-Based Reduced-Order Model for Fluid–Structure Interaction Applied to Non-Synchronous Vibrations in Turbomachinery

Journal of Turbomachinery

Richard Hollenbach

Robert Kielb

Kenneth Hall

2022/3/1

Modeling of fluid-structure interaction

A Modern Course in Aeroelasticity

Earl H Dowell

Kenneth Hall

2022

Modern analysis for complex and nonlinear unsteady flows in turbomachinery

A Modern Course in Aeroelasticity

Kenneth Hall

2022

See List of Professors in Kenneth C Hall University(Duke University)