Fluid mechanics and turbulence

Detection and characterization of structures in turbulent fluxes. Measurement and visualization of velocity fields (PIV of 1000fr/s). Direct simulation of turbulent and transition fluxes. Modelization of turbulence. Linear and non-linear stability analysis. Study and modelization of canal fluxes. Study and modelization of chemical reactors.

Computational techniques in fluid mechanics

Generation of computational networks in generalized coordinates. Methods for resolution of linear equation systems. Methods of conjugate and multinetwork gradient. Spatial and temporal discretization techniques. Pattern recognition in turbulent fluxes.

Heat transport

Thermography of liquid thermochromic crystals. Simulation, measurement, and visualization of natural convection fluxes. Prediction of thermic and electric fields in printed circuits. Convective transport in industrial fluxes. Hydrodynamics in bays, ports and maritime coastlines.

Environment

Effect of flux structures in the photolytic cycle of N2. Simulation of oil spills. Simulation of Langmuir cells in the sea. Volatilization of organic compounds in waste disposal facilities. Retention of pollutant particles in waste disposal facilities. Simulation of incinerators of volatile organic compounds. Reactive flux in chimneys. Optimal localization of industrial chimneys. Dispersion models for pollutants in the atmosphere. Ventilation of rooms.

Software

Development of adhoc programmes for industrial fluxes. Development of friendly interfaces for simulation software.

Back