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Alejandro Sebastián Aguirre Ruz

Professor Assistant

Universidad de Santiago de Chile

Santiago, Chile

Líneas de Investigación


My research consists in developing techniques to solve Fluid-Structure Interaction problems using Finite Elements. Therefore, I am well versed in Computer Fluid Dynamic and Computer Solid Mechanics.

Educación

  •  Ingeniería Civil Mecánica, UNIVERSIDAD DE SANTIAGO DE CHILE. Chile, 2018
  •  Magister en Ingeniería Mecánica, UNIVERSIDAD DE CHILE. Chile, 2018
  •  PhD. Structural Analysis, UNIVERSIDAD POLITECNICA DE CATALUNA. Chile, 2024

Experiencia Académica

  •   Profesor instructor Part Time

    UNIVERSIDAD DE SANTIAGO DE CHILE

    Ingeniería

    Santiago, Chile

    2017 - 2019

  •   Profesor Asistente Part Time

    UNIVERSIDAD DE CHILE

    Ingeniería

    Santiago, Chile

    2020 - 2021

  •   Profesor Asistente Part Time

    UNIVERSIDAD DE CHILE

    Ingeniería

    Santiago, Chile

    2021 - 2024

  •   Profesor Asistente Full Time

    UNIVERSIDAD DE CHILE

    Ingeniería

    Santiago, Chile

    2024 - At present


 

Article (9)

Stress-displacement stabilized finite element analysis of thin structures using Solid-Shell elements, Part II: Finite strain hyperelasticity
Stress–displacement stabilized finite element analysis of thin structures using solid-shell elements, Part I: On the need of interpolating the stresses
A variational multiscale stabilized finite element formulation for Reissner-Mindlin plates and Timoshenko beams
Numerical study of the effect of blockage ratio on the flow past one and two cylinders in tandem for different power-law fluids
Forced convection of elastoviscoplastic fluids in non-circular tubes
Numerical study of bifurcation blood flows using three different non-Newtonian constitutive models
Pseudoplastic fluid flows for different Prandtl numbers: Steady and time-dependent solutions
Stationary and time-dependent numerical approximation of the lid-driven cavity problem for power-law fluid flows at high Reynolds numbers using a stabilized finite element formulation of the VMS type
Stationary and time-dependent numerical approximation of the lid-driven cavity problem for powerlaw fluid flows at high Reynolds numbers using a stabilized finite element formulation of the VMS type

Proyecto (3)

PROGRAMA EXTRAORDINARIO “CONTRATACIÓN DE POSTDOCTORANDO O AYUDANTES DE INVESTIGACIÓN”
Modeling of vibrating fluid-fluid and fluid-structure systems=> numerical simulation and experimental validation
Efficiency optimization in heat transfer processes using non-Newtonian fluids in laminar and turbulent regimes via numerical simulation
8
Alejandro Aguirre

Professor Assistant

Ingeniería Mecánica

Universidad de Santiago de Chile

Santiago, Chile

4
Marcela Cruchaga

Académico / Full Prof.

MECÁNICA

UNIVERSIDAD DE SANTIAGO DE CHILE - DEPTO. ING. MECÁNICA

Santiago de Chile, Chile

1
Ernesto Castillo

Professor (Asocciate)

UNIVERSIDAD DE SANTIAGO DE CHILE

Santiago, Chile