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Fernando Yanine Misleh

Academico de Planta Full Time, Investigador

Universidad Finis Terrae

Santiago, Chile

Líneas de Investigación


Design and development of intelligent micro grids; Homeostatic control of Electric Power Systems; Energy Management and Energy Efficiency; Sustainable Energy Systems; Energy Storage Systems; Service Science & Engineering; Systems Optimization

Educación

  •  Doctorado en Ciencias de la Ingenieria, PONTIFICIA UNIVERSIDAD CATOLICA DE CHILE. Chile, 2014
  •  Bachelor of Science in Electrical Engineering, UNIVERSITY OF TEXAS AT EL PASO. Estados Unidos, 1988
  •  Magister en Ciencias de la Ingenieria, UNIVERSIDAD DE SANTIAGO DE CHILE. Chile, 1997
  •  Magister en Ciencias de la Ingenieria, PONTIFICIA UNIVERSIDAD CATOLICA DE CHILE. Chile, 2014
  •  Ingeniero Civil Industrial, UNIVERSIDAD ARTURO PRAT. Chile, 2006
  •  Licenciado en Ciencias de la Ingeniería, UNIVERSIDAD ARTURO PRAT. Chile, 2006

Experiencia Académica

  •   Profesor del MBA Other

    UNIVERSIDAD TECNICA FEDERICO SANTA MARIA

    Santiago, Chile

    2015 - At present

  •   Académico de Planta, Investigador, Profesor Asociado Full Time

    Universidad Finis Terrae

    Ingeniería

    Santiago, Chile

    2016 - At present

  •   Docente e Investigador Full Time

    UNIVERSIDAD TECNICA FEDERICO SANTA MARIA

    Santiago, Chile

    2014 - 2016

Experiencia Profesional

  •   Investigador y Docente Full Time

    Universidad Técnica Federico Santa Maria

    Santiago, Chile

    2013 - 2016

  •   Investigador de Postgrado Full Time

    Pontificia Universidad Catolica de Chile, Escuela de Ingenieria

    Santiago, Chile

    2010 - 2014

  •   Gerente de Proyecto Full Time

    Wood Group - Turbine Control Services Division

    Loveland, Colorado, Estados Unidos

    2008 - 2010

  •   Académico, Investigador, Jornada completa, planta Full Time

    Universidad Finis Terrae

    Santiago, Chile

    2016 - At present

Premios y Distinciones

  •   The Emerging Leaders in the Americas Program (ELAP) scholarship

    GOVERNMENT OF CANADA

    Canada, 2012

    Fui galardonado con la beca The Emerging Leaders in the Americas Program (ELAP) scholarship para realizar una pasantia doctoral en la University of Waterloo, Ontario, Canada. Estuve realizando investigación en el Systems Design Engineering Department bajo la supervision del Dr. Kumaraswamy Ponnambalam.


 

Article (41)

DESIGN AND DEVELOPMENT OF GRID CONNECTED HOME AUTOMATION SYSTEM FOR PROSUMERS
Design of an EEG analytical methodology for the analysis and interpretation of cerebral connectivity signals
Energy homeostasis management strategy for building rooftop nanogrids, considering the thermal model and a HVAC unit installed
Forecasting Electric Power Generation in a Photovoltaic Power Systems for Smart Energy Management
Smart Renewable Energy Communities Existing and Future Prospects
Green Energy Generation in Buildings: Grid-Tied Distributed Generation Systems (DGS) With Energy Storage Applications to Sustain the Smart Grid Transformation
Grid-Tied Distributed Generation Systems to Sustain the Smart Grid Transformation: Tariff Analysis and Generation Sharing
The Impact of Dynamic Balanced Scorecard in Knowledge-Intensive Organizations’ Business Process Management: A New Approach Evidenced by Small and Medium-Size Enterprises in Latin America
A Fresh Look at an Old Problem: Saturation in the Retail Market and How it Affects Both Retailers and Consumers
Design and Simulation of an Energy Homeostaticity System for Electric and Thermal Power Management in a Building with Smart Microgrid
Design and simulation of an energy homeostaticity system for electric and thermal power management in a building with smart microgrid.
Grid-tied distributed generation with energy storage to advance renewables in the residential sector: tariff analysis with energy sharing innovations; Part I.
Homeostaticity of energy systems: How to engineer grid flexibility and why should electric utilities care
Investigation of wireless power transfer applications with a focus on renewable energy
Investigation of wireless power transfer applications with a focus on renewable energy.
Review and comparative study of single-stage inverters for a PV system
Review and comparative study of single-stage inverters for a PV system.
Reviewing homeostasis of sustainable energy systems: How reactive and predictive homeostasis can enable electric utilities to operate distributed generation as part of their power supply services.
Reviewing homeostasis of sustainable energy systems=> How reactive and predictive homeostasis can enable electric utilities to operate distributed generation as part of their power supply services
Smart Energy Systems: The Need to Incorporate Homeostatically Controlled Microgrids to the Electric Power Distribution Industry: An Electric Utilities' Perspective.
Smart Energy Systems=> The Need to Incorporate Homeostatically Controlled Microgrids to the Electric Power Distribution Industry=> An Electric Utilities’ Perspective
When energy efficiency is not enough: Homeostaticity of energy systems and why electric utilities should care.
When energy efficiency is not enough=> Homeostaticity of energy systems and why electric utilities should care
Design and testing of an on-grid power converter used to connect a variable speed low voltage generator.
Engineering sustainable energy systems: how reactive and predictive homeostatic control can prepare electric power systems for environmental challenges.
Engineering Sustainable Energy Systems=> How Reactive and Predictive Homeostatic Control Can Prepare Electric Power Systems for Environmental Challenges
A Sustainable Performance Measurement System for the Chilean Wine Industry's Supply Chain.
Data, information, knowledge and intelligence: The mega-nano hypothesis and its implications in innovation.
Rethinking enterprise flexibility: a new approach based on management control theory.
Sustainable Hybrid Energy Systems: An Energy and Exergy Management Approach with Homeostatic Control of Microgrids.
An Exergy and Homeostatic Control Approach to Sustainable Grid-Connected Microgrids without Energy Storage
Building sustainable energy systems: Homeostatic control of grid-connected microgrids, as a means to reconcile power supply and energy demand response management
Homeostatic Control, Smart Metering and Efficient Energy Supply and Consumption Criteria: A Means to Building More Sustainable Hybrid Micro-generation Systems
Homeostatic control, smart metering and efficient energy supply and consumption criteria: A means to building more sustainable hybrid micro-generation systems.
Business optimal design of a grid-connected hybrid PV (photovoltaic)-wind energy system without energy storage for an Easter Island's block
Business optimal design of a grid-connected hybrid PV (photovoltaic)-wind energy system without energy storage for an Easter Island's block.
Homeostatic control in grid-connected micro-generation power systems: A means to adapt to changing scenarios while preserving energy sustainability.
Homeostatic control of sustainable energy grid applied to natural disasters.
Review of grid-tie micro-generation systems without energy storage: Towards a new approach to sustainable hybrid energy systems linked to energy efficiency.
An Intelligent Supervising System for the Operation of an Underground Mine.
Simulation Model Linked to a Knowledge Based System for Evaluating Policies in the Operation of an Underground Mine.

BookSection (4)

Grid-tied distributed generation with energy storage to advance renewables in the residential sector: tariffs analysis with energy sharing innovations
Integrating green energy into the grid: how to engineer energy homeostaticity, flexibility and resiliency in electric power distribution systems and why should electric utilities care
Linking energy homeostasis, exergy management, and resiliency to develop sustainable grid-connected distributed generation systems for their integration into the distribution grid by electric utilities
Smart energy systems and the need to incorporate homeostatically controlled microgrids to the electric power distribution industry: an electric utilities’ perspective

Proyecto (2)

BUILDING SUSTAINABLE ENERGY SYSTEMS TIED TO GRID=> A RESEARCH PROJECT PARTNERSHIP WITH CHILECTRA TO INSTALL HOMEOSTATICALLY CONTROLLED MICROGRIDS IN APARTMENT BUILDINGS.
Exploracion Geofisica Mediante Vehiculos Aereos Autonomos
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Fernando Yanine

Academico de Planta Full Time, Investigador

Facultad de Ingeniería

Universidad Finis Terrae

Santiago, Chile

1
Antonio Sánchez

Profesor Auxiliar

UNIVERSIDAD TECNICA FEDERICO SANTA MARIA

Santiago, Chile

1
Felisa Córdova

Directora Nacional de Investigación Facultad de Ingeniería, Arquitectura y Diseño

Universidad San Sebastián

Santiago, Chile

1
Rodrigo Barraza

Professor

Mechanical Engineering

Universidad Técnica Federico Santa Maria

Santiago, Chile