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Alejandro Sebastián Aguirre Ruz

Professor Assistant

Universidad de Santiago de Chile

Santiago, Chile

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.

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

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


Stress-displacement stabilized finite element analysis of thin structures using Solid-Shell elements, Part II: Finite strain hyperelasticity Castanar, I. Article ISI SCOPUS FINITE ELEMENTS IN ANALYSIS AND DESIGN (2024)
Stress–displacement stabilized finite element analysis of thin structures using solid-shell elements, Part I: On the need of interpolating the stresses Article SCOPUS FINITE ELEMENTS IN ANALYSIS AND DESIGN (2024)
A variational multiscale stabilized finite element formulation for Reissner-Mindlin plates and Timoshenko beams Article ISI SCOPUS FINITE ELEMENTS IN ANALYSIS AND DESIGN (2023)
Numerical study of the effect of blockage ratio on the flow past one and two cylinders in tandem for different power-law fluids Article ISI APPLIED MATHEMATICAL MODELLING (2021)
Forced convection of elastoviscoplastic fluids in non-circular tubes Letelier M.F. Article ISI SCOPUS (2020)
Numerical study of bifurcation blood flows using three different non-Newtonian constitutive models Abugattas, C. Article ISI APPLIED MATHEMATICAL MODELLING (2020)
Pseudoplastic fluid flows for different Prandtl numbers: Steady and time-dependent solutions Article ISI SCOPUS INTERNATIONAL JOURNAL OF THERMAL SCIENCES (2019)
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 Codina R.; Baiges J. Article ISI SCOPUS JOURNAL OF NON-NEWTONIAN FLUID MECHANICS (2018)
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 Alejandro Aguirre, Ernesto Castillo; Marcela Cruchaga, Joan Baiges Article Journal of non-Newtonian Fluids (2018)


PROGRAMA EXTRAORDINARIO “CONTRATACIÓN DE POSTDOCTORANDO O AYUDANTES DE INVESTIGACIÓN” Dirección de Investigación Científica y Tecnológica de la Universidad de Santiago de Chile Proyecto 2019-2019 Investigador(a)
Modeling of vibrating fluid-fluid and fluid-structure systems=> numerical simulation and experimental validation FONDECYT (1170620) Proyecto 2017-2020 Tesista
Efficiency optimization in heat transfer processes using non-Newtonian fluids in laminar and turbulent regimes via numerical simulation FONDECYT (11160160) Proyecto 2016-2019 Tesista

Marcela Cruchaga

Académico / Full Prof.

MECÁNICA

UNIVERSIDAD DE SANTIAGO DE CHILE - DEPTO. ING. MECÁNICA

Santiago de Chile, Chile

Ernesto Castillo

Professor (Asocciate)

UNIVERSIDAD DE SANTIAGO DE CHILE

Santiago, Chile

Alejandro Aguirre

Professor Assistant

Ingeniería Mecánica

Universidad de Santiago de Chile

Santiago, Chile

Alejandro Sebastián Aguirre Ruz

Líneas de Investigación

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

Profesor Asistente Part Time

Profesor Asistente Part Time

Profesor Asistente Full Time

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

Marcela Cruchaga

Ernesto Castillo

Alejandro Aguirre