Dr. Marzocca research efforts
focus on fluid-structure interactions, aeroelastic and flow
control of aerospace and structural systems, structural dynamics,
structural health monitoring, dynamic system modeling, reliability
and physical based modeling of complex industrial systems, unmanned
aerial vehicles (UAVs) design and operations, wind turbine
technologies. List of projects: |
|
Current Projects |
Reliability Model for Gas Turbine |
Design Tool for Blade Outer Air
Seals (P&W) |
Urban Airshed Monitoring: New
Tools for Aerosol Characterization at Meso-Scale Spatial Resolution
(SOE-EPA) |
Optiwind Wind Turbine Design and Testing (Optiwind) |
Nucleation In
ForesTs: NIFTY Project (IU, NSF) |
Marketing
and Commercialization of Smart Wind Turbine Blade
(CAP-IV-Vento Tek-MDA) |
Investigations of Thin Elastic
Structures under Electromagnetic and Aerodynamic Loading Conditions
(NSF, Armenian Foundation) |
Fluid-Structure Interaction of
Flexible Suspended Bridges Exposed to Severe Environmental
Conditions (NSF) |
Smart Wind Turbine Blade
(MDA-Vento Tek) |
Advanced Wind Turbine Concept (SOE) |
Development of Higher-Order Spectras for Randomly Excited Non Linear
Multi-Degrees-of-Freedom Systems (NRL, ASEE) |
Flow Control of Aerospace Systems |
Reduced Order Modeling of
Aeroservoelastic Systems
|
MRI: Scanning Laser Vibrometer
for Smart-Structures Research (NSF) |
MRI: Stereoscopic Molecular
Tagging Velocimetry / Molecular Tagging Thermometry System (NSF) |
Collaborative Research with Delft
University of Technology, The Netherlands |
Other Aeronautical
and Aerospace Projects |
|
|
|
Other Projects |
CLARKSON UNIVERSITY
RASC-AL
|
Novel Wind Turbine Design
|
Aero-thermo-elasticity and
Control of Aerospace Vehicles
|
Other Research Interests |
Design of Acoustic and Flow
Visualization Experiments with a Remote Controlled Helicopter (ESMD-NASA
Space Grant) |
Non-destructive flutter
predictions |
|
Completed Projects |
Open/Closed-Loop Nonlinear
Aeroelasticity of Aircraft Wings (NASA LaRC) |
Nonlinear Aeroelasticity of
Lifting Surfaces by Functional Series Techniques: Subcritical
Response and Character of the Flutter Boundary (NASA LaRC) |
Aeroelastic Modeling and Behavior
of Lifting Surfaces Incorporating Aerodynamic and Structural
Nonlinearities: Volterra Series and Indicial Function Approach (NASA
LaRC) |