|
Year |
Type of Activity |
Activity |
Area |
1 |
2011 |
Research Project |
MODELOS DEL COMPORTAMIENTO DINAMICO DE PARQUES EOLICOS |
Engineering, Aerodynamics
|
2 |
2012 |
Thesis |
Efficient numerical methods for global linear instability. Analysis and modeling of non-orthogonal swept attachment-line boundary layer flow |
Fluid mechanics, Computacional fluid dynamics, Aerodynamics
|
3 |
2015 |
Book chapters |
The Low Reduced Frequency Limit of Vibrating Airfoils. Part IIIb: Numerical Quantification of the Unsteady Loading Parameter |
Aeronautical engineering, Aerodynamics, Aeroelastics, Turbomachinery
|
4 |
2016 |
Patents |
Computer aided-method for a quick prediction of vortex trajectories on aircraft components checking high pressure gradients and high drag friction components |
Computacional fluid dynamics, Aerodynamics, Aircraft external noise
|
5 |
2017 |
Research Publications in journals |
A new approach to correct yaw misalignment in the spinning ultrasonic anemometer |
Aerodynamics, Aeroacustics and vibrations
|
6 |
2012 |
Research Publications in journals |
Comparison of Mesh Adaptation Using the Adjoint Methodology and Truncation Error Estimates |
Error analysis, Numerical analysis on equations on partial differential, Computacional fluid dynamics, Aerodynamics
|
7 |
2015 |
Thesis |
AEROACOUSTICS IN HIGH SPEED TRAINS |
Aerodynamics, Aeroacustics and vibrations
|
8 |
2015 |
Thesis |
AEROACOUSTICS IN HIGH SPEED TRAINS |
Aerodynamics, Aeroacustics and vibrations
|
9 |
2016 |
Patents |
Computer aided-method for a quick prediction of vortex trajectories on aircraft components |
Computacional fluid dynamics, Aerodynamics, Aircraft external noise
|
10 |
2017 |
Research Publications in journals |
A new approach to correct yaw misalignment in the spinning ultrasonic anemometer |
Aerodynamics, Aeroacustics and vibrations
|
11 |
2018 |
Communications at congresses |
Sensitivity analysis of supersonic turbine trailing edges |
Hidrodynamics stability, Turbomachinery, Aerodynamics
|
12 |
2018 |
Conferences |
Sensitivity Analysis of Supersonic Turbine Trailing Edges |
Hidrodynamics stability, Turbomachinery, Computacional fluid dynamics, Aerodynamics
|
13 |
2015 |
Research Publications in journals |
Simplified simulations of wind turbine wakes by using porous discs in atmospheric wind tunnel |
Aerodynamics
|
14 |
2016 |
Research Publications in journals |
A dynamic mode decomposition of the saturation process in the open cavity flow |
Computacional fluid dynamics, Aerodynamics
|
15 |
2018 |
Conferences |
Sensitivity Analysis of Supersonic Turbine Trailing Edges |
Hidrodynamics stability, Turbomachinery, Computacional fluid dynamics, Aerodynamics
|
16 |
2012 |
Courses, Seminars and tutorials |
Computational Fluid Dynamics Expert System using Artificial Neural Networks, ICCSE Madrid 2012 |
Biology and other natural sciences, Computacional fluid dynamics, Aerodynamics
|
17 |
2015 |
Book chapters |
The Low Reduced Frequency Limit of Vibrating Airfoils: Part I - Theoretical Analysis |
Aeronautical engineering, Aerodynamics, Aeroelastics, Turbomachinery
|
18 |
2016 |
Communications at congresses |
A numerical study of the saturation process in an open cavity flow |
Computacional fluid dynamics, Aerodynamics
|
19 |
2015 |
Book chapters |
The Low Reduced Frequency Limit of Vibrating Airfoils. Part II: Numerical Experiments |
Aeronautical engineering, Aerodynamics, Aeroelastics, Turbomachinery
|
20 |
2012 |
Thesis |
Análise da estabilidade global de escoamentos compressiveis |
Fluid mechanics, Computacional fluid dynamics, Aerodynamics
|
21 |
2015 |
Book chapters |
The Low Reduced Frequency Limit of Vibrating Airfoils. Part IIIa: Theoretical Quantification of the Unsteady Loading Parameter |
Aeronautical engineering, Aerodynamics, Aeroelastics, Turbomachinery
|
22 |
2016 |
Thesis |
Discrete linear stability and sensitivity analysis of fluid flows |
Engineering, Aeronautical engineering, Computacional fluid dynamics, Aerodynamics
|