Alberto Arroyo Gutiérrez

A.Arroyo

ALBERTO ARROYO GUTIÉRREZ

 

Alberto Arroyo received the PhD in electrical engineering at University of Cantabria (UC) in 2012. In 2009 he joined at the UC Department of the Electrical and Energy Engineering where he currently works as PhD. assistant lecturer. His main research lines are simulation of electric systems and optimization of renewable energies. He has published 2 chapters in international books, 15 works in international conferences, and 8 papers in journals included in the Journal of Citation Report. As a result of these research lines, he obtained 2 patents. Additionally, he worked as electrical engineer in Gamesa Electric from 2007 to 2009.


icono-mail alberto.arroyo@unican.es

molumen_phone_icon+34 942 201371

474487-icono-ubicacion School of Industrial and Telecommunications Engineering. Floor: -2. Office: S2-26

PROJECTS

  • REDACTIVA: Innovation on Isolated Neural Distribution Grid Automation

  • Dynamic Management in Lines, Fail Analysis in High Voltage Lines and Quality of Supply in Distribution EON Network

  • SPADI: Predictive System for Dynamic Management of Overhead and Underground Power Lines

  • Quality Power Supply

  • Electric Measurements in GSW Factory in Santander

  • Dynamic Integration of Wind Energy in Electrical Networks

  • Development of Dynamic Model of Airline Capacity

  • Harmonics in Electrical Power Systems

  • Design of a Measuring System Wave Quality of Power Supply in Network Measurement And High Tension of E.ON Distribution

  • PROFIT DYNELEC: Dynamic Calibration of Electrical Lines

  • Data Capture and Sustainable Energy in Edification

  • Feasibility Study of a Power Cable in Offshore Wind Turbines of Deepwater

  • Leader in Ocean Renewable Energies- Ocean Leader

  • System for Control of the Quality in Energy Supply and Monitoring the State in Traffic Lights

  • Optimization of Energy Efficiency of Followers Plots

  • Design of a Homopolar Generator for Application in Renewable Energies

  • Campaign of Measures of the Quality Supply in Buen Pastor Company

  • Design Electrical Propulsion Systems for Heavy Vehicles

PUBLICATIONS

  • Study of Different Mathematical Approaches in Determining the Dynamic Rating of Overhead Power Lines and a Comparison with Real Time Monitoring Data

  • Comparison between IEEE and CIGRE Thermal Behaviour Standards and Measured Temperature on a 132-kV Overhead Power Line

  • The Effect of the Rear Cavity Wall Ingot Shape on the Evolution of the Liquid–Solid Interface During Melting for the Eutectic Pt-C

  • Evaluating the Supply of the Future Spanish Generating System

  • A Methodology for the Low-Cost of Small Wind Turbine Performance

  • Power Quality Behavior of Commercial Grade LED Lamps

  • Biodiversity Indexes Applied to the Analysis of Supply Security in Power Systems

  • Field Winding Fault Diagnosis in DC Motors During Manufacturing Using Thermal Monitoring

  • Design of Electrical Equipment for Wind Turbines

  • Methodology for the Low-Cost Optimisation of Small-Wind Turbines

  • Power Quality Instrumentation and Measurement in a Distributed and Renewable Environment

  • Operational Aspects of Dynamic Line Rating. Application to a Real Case of Grid Integration of Wind Farms

  • A Comparison of Mechanical and Ultrasonic Anemometers for Ampacity Thermal Rating in Overhead Lines

  • Differences Using Measured and Calculated Solar Radiation in Order to Estimate the Temperature of the Conductor in Overhead Lines

  • A Comparison of Different Methodologies for Rating Definition in Overhead Lines

  • Dynamic Calibration of Overhead Power Networks Based on Environmental Parameters

  • Aspectos Operativos de la Gestión Dinámica de Capacidad en Líneas Aéreas de Distribución. Aplicación al Caso Real de la Integración en Red de Parques Eólicos

  • Analysis of a Real Case of Ampacity Management in a 132 kV Network Integrating High Rates of Wind Energy

  • Preliminary Results of a Power Quality Survey in a Distribution Network Based on No-Gap PQ Meters

  • Indirect Estimation of Overhead Line Ampacity in Overhead Lines Integrating Wind Farms

  • Ampacity Forecasting Using Neural Networks

  • Power Flow Analysis of Distribution Systems with Large-Scale Wind and Conventional Energy Generation

  • Increasing Grid Integration of Wind Energy by using Ampacity Techniques

  • Analysis and Optimization of Small Wind Turbines with Permanent Magnet Synchronous Machines

PATENTS

  • Methodology for the Calculation and Prediction of Ampacity on Overhead Power Lines According to the Choice of Crtitical Sites

  • Method and System for Direct Measurement and no Contact of Surface Temperature in a Cable