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Andres J. Diaz

Director de Escuela

Universidad Diego Portales

Santiago, Chile

Líneas de Investigación


Thermal design, Thermal management, Computational fluids mechanics and heat and mass transfer, Thermodynamics, Electronics cooling, Data center energy and thermal management

Educación

  •  Mechanical Engineering, VILLANOVA UNIVERSITY. Estados Unidos, 2011
  •  Mechanical Engineering, UNIVERSIDAD DE SANTIAGO DE CHILE. Chile, 2006
  •  Mechanical Engineering, UNIVERSIDAD DE SANTIAGO DE CHILE. Chile, 2006

Experiencia Académica

  •   Profesor Asistente Full Time

    UNIVERSIDAD DE SANTIAGO DE CHILE

    Ingeniería

    Santiago, Chile

    2011 - 2012

  •   Profesor Asociado Full Time

    UNIVERSIDAD DIEGO PORTALES

    Ingeniería y Ciencias

    Santiago, Chile

    2013 - 2019

  •   Director de Escuela Full Time

    UNIVERSIDAD DIEGO PORTALES

    Ingeniería y Ciencias

    Santiago, Chile

    2020 - At present

Experiencia Profesional

  •   Research Assistant Part Time

    Laboratory for Advanced Thermal and Fluids Systems/Villanova University

    Villanova, Estados Unidos

    2007 - 2011

Premios y Distinciones

  •   Premio Liderazgo Docente

    UNIVERSIDAD DIEGO PORTALES

    Chile, 2014

    Premio otorgado al mejor docente de la Facultad de Ingeniería de la Universidad Diego Portales por tener una práctica docente rigurosa y mostrar compromiso para introducir mejoras pedagógicas.


 

Article (13)

Effect of climate conditions on the thermodynamic performance of a data center cooling system under water-side economization
Cooling Effectiveness of a Data Center Room under Overhead Airflow via Entropy Generation Assessment in Transient Scenarios
Reply to "Comment on "Thermodynamic evaluation of solar-geothermal hybrid power plants in northern Chile" [Energy Convers. Manage. 2016;123=>348-361] by Cardemil et al"
Enhancement of the cooling capability of a high concentration photovoltaic system using microchannels with forward triangular ribs on sidewalls
Optimization of an Organic Rankine Cycle Through a Control Strategy for Waste Heat Recovery
Parametrized analysis of a carbon dioxide transcritical Rankine cycle driven by solar energy
Energy and exergy assessment in a perimeter cooled data center: The value of second law efficiency
Meteorological assessment and implementation of an air-side free-cooling system for data centers in Chile
Gas-assisted droplet impact on a solid surface
Thermodynamic evaluation of solar-geothermal hybrid power plants in northern Chile
Flow and heat transfer characteristics in micro and mini communicating pressure driven channel flows by numerical simulations
Investigation of a gas-propelled liquid droplet impinging onto a heated surface
Determining flow mixing characteristics in low reynolds numbers micro wavy channels by the lattice-boltzmann method

ConferencePaper (12)

Droplet Impact Behavior by an Improved Lattice Boltzmann Method
Heat transfer enhancement due to gas-assisted droplet impingement
Enhancement of the optical efficiency in organic and non-organic photovoltaic cells with inclusion of metallic nanoparticles
Numerical investigation of flow over an airfoil by the Lattice Boltzmann method
Numerical investigation of flow over an airfoil by the Lattice-Boltzmann method
A numerical and experimental investigation of a gas propelled liquid droplet impinging onto a heated surface
Determining Flow Mixing Characteristics in Low Reynolds Numbers Micro Wavy Channels by the Lattice-Boltzmann Method
Numerical investigation of a liquid droplet transported by a gas stream impinging on a heated surface: single-phase regime
Numerical investigation of a liquid droplet impinging on a heated surface
Observations on the Behavior of a Liquid Droplet Transported by a Gas Stream Impinging on an Isothermal Surface
Flow Characteristics of Rarified Gases in Micro-Grooved channels by the Lattice-Boltzmann Method
Stretching Fields and Flow Mixing Enhancement of Rarified Gases in Micro-Grooved Channels by the Lattice-Boltzmann Method

Proyecto (8)

Development, Characterization and Optimization of Hybrid Solar Energy Conversion Systems (Phase two)
Diseño, desarrollo y validación de un servicio de simulación de flujos de mineral y otros con geometrías complejas para el mercado minero
Sistema constructivo mediante residuos térmicos para viviendas sustentables
Nueva Ingeniería para el 2030 - Etapa I
Development, Characterization and Optimization of Hybrid Solar Energy Conversion Systems
INVESTIGATION OF A GAS PROPELLED LIQUID DROPLET IMPINGING ONTO A HEATED SURFACE=> SINGLE AND TWO-PHASE REGIMES
Electrokinetic Flow Mixing And Electric Double Layer (EDL) Characteristics And Properties In Microchannels
Chaotic Advection and Heat (and Mass) Transport Enhancement in Time-periodic and Quasiperiodic Transitional Confined Flows
15
Andres Diaz

Director de Escuela

Escuela de Ingeniería Industrial

Universidad Diego Portales

Santiago, Chile

3
Jose Cardemil

Profesor Asociado

Ingeniería Mecánica y Metalúrgica

Pontificia Universidad Católica de Chile

Santiago, Chile

2
Luis Silva

Investigador asociado

UNIVERSIDAD DE LA SERENA

La Serena, Chile

2
Rodrigo Cáceres

Académico

Ingeniería Civil Industrial

Universidad Diego Portales

Santiago, Chile

2
Amador Guzman

Principal Investigator

STECTEC

Santiago, Chile

1
Rodrigo Escobar

Associate Professor

Mechanical and Metallurgical Engineering

Pontificia Universidad Catolica de Chile

Santiago, Chile

1
Iván Muñoz

Ingeniero investigador

Sistemas solares térmicos

Fundación Fraunhofer Chile Research

Santiago, Chile