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Arturo Molina Gutiérrez, Pedro Ponce Cruz, and Luis Arturo Soriano Avendaño

El conocimiento de los fundamentos técnicos de las smart grid o de las redes inteligentes son una necesidad actual para quienes buscan comprender las evoluciones energéticas globales.

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El conocimiento de los fundamentos técnicos de las smart grid o de las redes inteligentes son una necesidad actual para quienes buscan comprender las evoluciones energéticas globales.

Las smart grids combinan áreas que antes no se encontraban en las redes eléctricas convencionales, como son los sistemas de comunicaciones o los sistemas inteligentes de toma de decisiones.

Sin estas áreas, la integración de fuentes alternas de energía a las redes eléctricas estarían incompletas y no se podrían explotar de la manera eficiente.

Por esta razón es necesario conocer cómo una smart grid se interconecta con los dispositivos inteligentes de casas o edificios en el IoT o Internet de las cosas, que al igual que las compañías de energía pueden suministrar, administrar y vender la energía eléctrica producida.

En este curso el estudiante comprenderá el concepto de red inteligente analizando sus capas inferiores, profundizará en la generación de energía eólica y energía solar de manera experimental y teórica cuando se interconectan a la red inteligente, además podrá comprender la función de los sistemas eléctricos de potencia en las redes inteligentes.

A partir de este MOOC el estudiante podrá:

  • Profundizar en el conocimiento de sistemas eléctricos de potencia
  • Analizar cómo cambian los escenarios energéticos a partir de las smart grid, las cuales predominarán en unos cuantos años y permitirán volvernos consumidores y generadores de energía eléctrica.

La seguridad, en este caso la ciberseguridad, es fundamental en el smard grid, en este curso conoceremos las características de seguridad más relevantes en las redes inteligentes.

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What's inside

Learning objectives

  • Aplicar las bases teóricas de las redes eléctricas inteligentes a partir de cálculos experimentales de generación de energía convencional, eólica y solar; para que comprendas el funcionamiento de una red inteligente
  • La contribución de la energía eólica en una red inteligente
  • La energía solar en la red inteligente
  • Identificar los sistemas de monitoreo para redes inteligentes
  • Conocer cómo se aprovecha la energía renovable en la smart grid

Syllabus

1. Contribución de energía solar en la red inteligente1.1 Introducción a las redes inteligentes y fuentes alternas de energía solar 1.2 Generación de energía solar 1.3 Modelos de celdas solares 1.4 Laboratorio de smart grid: estudio de energía solar
2. Energía eólica en una red inteligente 2.1 introducción a las fuentes alternas de energía eólica en redes inteligentes 2.2 Generación de energía eólica 2.3 Modelos básicos de generadores eólicos 2.4 Laboratorio de smart grid: energía eólica a la red
3. Sistemas de monitoreo para redes inteligentes 3.1 introducción a los sistemas de monitoreo en redes inteligentes 3.2 Control supervisor y adquisición de datos 3.3 Seguridad cibernética 3.4 Monitoreo de una red con un sistema SCADA

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Desarrolla habilidades de Monitoreo de una red con un sistema SCADA, que es una tecnología imprescindible para ingenieros de redes eléctricas
Enseña sobre los sistemas de toma de decisión y comunicaciones, que son áreas claves en las redes eléctricas modernas
Analiza cómo las redes inteligentes están transformando los escenarios energéticos, lo que permite a los estudiantes mantenerse al día con las tendencias de la industria
Incluye laboratorios prácticos de estudio de energía solar y eólica, lo que brinda a los estudiantes experiencia práctica en la integración de energías renovables en las redes inteligentes
Requiere conocimientos previos en sistemas eléctricos de potencia, lo que puede limitar la accesibilidad para principiantes
No cubre aspectos avanzados de ciberseguridad en redes inteligentes, que pueden ser importantes para los profesionales de seguridad

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Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Smart grid: fundamentos técnicos with these activities:
Participa en sesiones de estudio con compañeros
Estudiar con compañeros te permitirá colaborar, intercambiar ideas y reforzar tu comprensión del material del curso.
Show steps
  • Forma un grupo de estudio con compañeros de clase.
  • Reúnanse regularmente para revisar el material del curso, discutir conceptos y resolver problemas juntos.
  • Proporcionen comentarios y apoyo mutuo.
Crea una presentación sobre la integración de fuentes renovables en redes inteligentes
Crear una presentación te ayudará a sintetizar y comunicar tu comprensión de la integración de fuentes renovables en redes inteligentes, mejorando tu capacidad analítica y de presentación.
Browse courses on Smart Grid
Show steps
  • Investiga y recopila información sobre la integración de fuentes renovables en redes inteligentes.
  • Desarrolla una estructura lógica y convincente para tu presentación.
  • Crea diapositivas atractivas y convincentes que transmitan tu mensaje.
Show all two activities

Career center

Learners who complete Smart grid: fundamentos técnicos will develop knowledge and skills that may be useful to these careers:
Energy Analyst
Energy Analysts research and analyze data on energy production, consumption, and prices. They use this information to make recommendations on energy policy and investment decisions.
Energy Auditor
Energy Auditors assess the energy efficiency of buildings and make recommendations for improvements, such as installing more efficient appliances or upgrading insulation. This course can be useful for Energy Auditors as it discusses the basics of how renewable energy systems, including solar PV and wind power, help improve the overall efficiency of a grid, and how efficiency is optimized at the building level through decisions about energy generation and use.
Data Scientist
Data Scientists use statistical and analytical techniques to extract insights from data. This course may be useful for Data Scientists as it covers the basics of data analysis for smart grids, which are increasingly being used to collect and analyze data on energy consumption and production.
Cybersecurity Analyst
Cybersecurity Analysts protect computer networks and systems from unauthorized access, use, disclosure, disruption, modification, or destruction. This course may be useful for Cybersecurity Analysts since it covers the basics of cybersecurity for smart grids, which are increasingly being targeted by cyberattacks.
Renewable Energy Engineer
Renewable Energy Engineers design, build, and operate systems that generate electricity from renewable sources, such as solar and wind power. This course may be useful for Renewable Energy Engineers since it covers the fundamentals of integrating renewable energy sources into smart grids. 
Project Manager
Project Managers plan, organize, and execute projects to achieve specific goals. This course may be useful for Project Managers as it covers the basics of project management for smart grid projects.
Consultant
Consultants provide expert advice and guidance to businesses and organizations. This course may be useful for Consultants since it covers the basics of smart grid technology and its applications in various industries.
Electrical Engineer
Electrical Engineers research, design, develop, and supervise the manufacturing, installation, and operation of electrical equipment and systems. This course may be useful to Electrical Engineers since it covers the technical fundamentals of smart grids, which are increasingly being used to improve the efficiency and reliability of electrical systems.
Power Systems Engineer
Power Systems Engineers solve engineering problems in connection with the generation, transmission, distribution and utilization of electric power, by evaluating technical and economic feasibility and reliability. This course may be useful for Power Systems Engineers as it can help build a foundation in smart grid fundamentals, which play an increasingly important role in power systems today.
Technical Writer
Technical Writers create instruction manuals, technical reports, and other documents that explain complex technical information.
Teacher
Teachers plan, organize, and deliver instruction to students in a variety of academic subjects.
Researcher
Researchers conduct original research to advance knowledge in a particular field.
Policy Analyst
Policy Analysts research and analyze public policy issues and make recommendations to policymakers.
Systems Analyst
Systems Analysts analyze business processes and design and implement computer systems to improve efficiency.
Software Developer
Software Developers design, develop, and test software applications.

Reading list

We've selected ten books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Smart grid: fundamentos técnicos.
Proporciona una guía práctica para construir e implementar redes inteligentes, complementando el enfoque del curso en los aspectos técnicos.
Un texto completo sobre análisis y diseño de sistemas de potencia, que proporciona una base sólida en los principios y métodos utilizados para analizar y comprender las redes eléctricas.
Provides a comprehensive overview of power system analysis. It covers various aspects of power systems, including generation, transmission, distribution, and protection. It also discusses the use of computer tools in power system analysis.
Provides a comprehensive overview of power system engineering. It covers various aspects of power systems, including generation, transmission, distribution, and protection. It also discusses the use of renewable energy sources in power systems.
Provides a comprehensive overview of power system protection. It covers various aspects of power system protection, including overcurrent protection, overvoltage protection, and ground fault protection.
Provides a comprehensive overview of wind and solar power systems. It covers various aspects of wind and solar power systems, including the design, installation, and operation of these systems.
This textbook provides a comprehensive foundation in power system analysis and design, covering topics such as load flow, fault analysis, and power system control. Serves as a prerequisite or background knowledge for understanding the operation and challenges of smart grids.
This textbook provides a comprehensive introduction to solar energy technologies and applications. Covers topics such as solar radiation, photovoltaic systems, and solar thermal systems. Provides a foundation for understanding the role of solar energy in smart grids, including the challenges and opportunities of integrating solar energy into the grid.
This textbook provides a comprehensive overview of wind energy systems, including wind turbine design, siting, and operation. Offers insights into the challenges and opportunities of integrating wind energy into the smart grid, providing a foundation for understanding the contribution of wind energy in smart grids.

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