09-12-2022 |
Estudio de desgaste por flujo abrasivo mediante velocimetría acústica
Estamos desarrollando un sistema de monitoreo de desagaste por flujo abrasivo basado en velocimetría acustica. Actividades IPRE (a elegir): 1) Analisis de imagenes acusticas (PIV, particle tracking), 2) Calibración del sistema de adquisición de datos, 3) Caracterización de muestras desgastadas (perfilometría), 4) Reconstrucción del campo de flujo 3D. *Dedicación de 10 cr/sem. o 5 cr /2 sem. *Trabajo en equipo. *Posibilidad de continuar como trabajo de titulo y/o tesis de magister.
Prerequisitos:
ICH1104
Tiene un método de evaluación Nota 1-7, con 10 créditos y tiene 2/5 vacantes disponibles |
Mentor(es): Ver en la plataforma |
03-01-2024 |
Keywords:
Prerequisites:
None.
Evaluation method: Nota 1-7, with 0/1 available vacants |
Mentor(s): Open in the plataform |
21-12-2023 |
Keywords:
Prerequisites:
None.
Evaluation method: Nota 1-7, with 0/1 available vacants |
Mentor(s): Open in the plataform |
14-07-2023 |
Methodology for the optimization of ventilation indoor
This project seeks to develop a methodology capable of optimizing the ventilation of confined spaces, based on the application of numerical modeling techniques and analytical tools. Confined spaces such as industrial sectors, mines, tunnels, among others, present difficulties in air quality and therefore have important effects on the health of people inside. By analyzing components such as spatial geometry, air flows and ventilation needs, it is expected to design a methodology capable of determining the best strategies for the effective exchange of air volumes.
Prerequisites:
None.
Evaluation method: Nota 1-7, with 0/1 available vacants |
Mentor(s): Open in the plataform |
13-07-2023 |
Bio-inspired plants water harvesting
The shape of cacti and other plants from semi- and arid regions have been evolutionarily optimized to increase water harvesting from water vapor and fog. This IPRE aims to carry out a detailed bibliographic review of the collection process from the point of view of fluid mechanics, and to develop experiments with 3D printed structures that allow optimizing the shape according to the physical mechanisms that govern the process of droplet formation and collection. The work involves a theoretical approach, but also experimental. The laboratory work is based on the application of 3D manufacturing techniques, and on the measurement of physical processes by means of optical techniques.
Prerequisites:
None.
Evaluation method: Nota 1-7, with 0/1 available vacants |
Mentor(s): Open in the plataform |
17-04-2023 |
Prerequisites:
None.
Evaluation method: Nota 1-7, with 0/1 available vacants |
Mentor(s): Open in the plataform |
09-03-2023 |
Particle Image Velocimetry in Viscoplastic Fluid Flows
Keywords:
mecánica de fluidos
Prerequisites:
None.
Evaluation method: Nota 1-7, with 0/1 available vacants |
Mentor(s): Open in the plataform |
09-12-2022 |
Prerequisites:
ICH1104
Evaluation method: Nota 1-7, with 2/5 available vacants |
Mentor(s): Open in the plataform |
18-07-2022 |
Analysis of turbulent decay behind a grid.
Experimental study of the turbulence decay behind a grid, using optical methods and image analysis.
Prerequisites:
None.
Evaluation method: Nota 1-7, with 0/1 available vacants |
Mentor(s): Open in the plataform |
06-01-2021 |
Prerequisites:
None.
Evaluation method: Nota 1-7, with 0/1 available vacants |
Mentor(s): Open in the plataform |
03-01-2020 |
Lagrangian dynamics of mixing and transport in turbulent flows
We seek to understand the transport of passive and inertial particles driven by coherent structures in turbulent flows.
Prerequisites:
ICH1104
Evaluation method: Nota 1-7, with 0/1 available vacants |
Mentor(s): Open in the plataform |
22-07-2019 |
Keywords:
turbulencia
helicidad
Prerequisites:
None.
Evaluation method: Nota 1-7, with 0/1 available vacants |
Mentor(s): Open in the plataform |
14-07-2019 |
Prerequisites:
None.
Evaluation method: Nota 1-7, with 0/1 available vacants |
Mentor(s): Open in the plataform |