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Gustavo Andrés Ramos López, Paulo Manuel De Oliveira De Jesús, and Mario Alberto Ríos Mesías

En nuestra sociedad, nos hemos fijado metas que permitan reducir nuestra dependencia de recursos energéticos no renovables, en especial de los combustibles fósiles. Por lo tanto, se han planteado incentivos hacia lo que se denomina transición energética. En el ámbito del sector eléctrico, esa transición se ha centrado principalmente en la integración de fuentes no convencionales de energías renovables (FNCER) como la energía solar y eólica, así como el almacenamiento de esta en baterías, además de promover el desarrollo de la movilidad eléctrica. Es importante tener en cuenta que en la medida que aumenta la integración de las FNCER se debe reconocer los posibles impactos en la operación del sistema de potencia. Estos impactos se podrán establecer con las técnicas analíticas de los sistemas de potencia.

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En nuestra sociedad, nos hemos fijado metas que permitan reducir nuestra dependencia de recursos energéticos no renovables, en especial de los combustibles fósiles. Por lo tanto, se han planteado incentivos hacia lo que se denomina transición energética. En el ámbito del sector eléctrico, esa transición se ha centrado principalmente en la integración de fuentes no convencionales de energías renovables (FNCER) como la energía solar y eólica, así como el almacenamiento de esta en baterías, además de promover el desarrollo de la movilidad eléctrica. Es importante tener en cuenta que en la medida que aumenta la integración de las FNCER se debe reconocer los posibles impactos en la operación del sistema de potencia. Estos impactos se podrán establecer con las técnicas analíticas de los sistemas de potencia.

En este curso queremos brindarle un panorama del análisis de los sistemas eléctricos de potencia teniendo en cuenta la transición energética en la cadena de valor del sector eléctrico: generación, transmisión, distribución y uso final de la energía eléctrica. Este panorama te permitirá entender los impactos de la transición energética en los sistemas de potencia, y la manera como se pueden formalizar desde las técnicas de análisis de sistemas de potencia.

El curso provee conceptos y técnicas de análisis de manera práctica, de fácil uso y apropiación, para que se aprenda sobre el rol de los ingenieros de sistemas de potencia que afrontan la transición energética, e identifiquen, además, las oportunidades de formación y desarrollo profesional en el sector energético, y, en particular, en la interesante área de los sistemas eléctricos de potencia.

Adicionalmente, el curso propone realizar una evaluación al final de cada módulo que le permitirá revisar los aprendizajes con las realimentaciones registradas en la plataforma, de manera que se pueda continuar progresando al conectarse nuevamente; en el caso de que decida optar por el certificado entregado por la Universidad de los Andes.  

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What's inside

Syllabus

Transición energética
Los sistemas eléctricos de potencia desempeñarán un factor fundamental en el proceso de descarbonización de la economía. En este módulo se exploran los indicadores energéticos que evidencian el proceso de transformación del sector eléctrico en el contexto de la transición energética.
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Nuevas tecnologías e infraestructura en la integración energética regional latinoamericana​.
La transición energética será posible en la medida que se integren los recursos energéticos renovables no convencionales en sistemas de transmisión y distribución. Este módulo revisa algunos impactos que resultan de la conexión a gran escala de estos recursos.
Técnicas de análisis ​de sistemas eléctricos de potencia Parte I
Realizar un estudio de impacto de la integración de fuentes de energía renovables no convencionales será fundamental para garantizar la correcta operación de los sistemas de potencia. En este módulo se profundizará en las técnicas de análisis ​de sistemas eléctricos de potencia en el contexto de la transición energética.
Técnicas de análisis ​de sistemas eléctricos de potencia Parte II
Realizar un estudio de impacto de la integración de fuentes de energía renovables no convencionales será fundamental para garantizar la correcta operación de los sistemas de potencia. En este módulo se profundizará en las técnicas de análisis ​de sistemas eléctricos de potencia en el contexto de la transición energética.

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Curso ofrece panorama del análisis de sistemas eléctricos de potencia en contexto de transición energética
Dirigido a ingenieros de sistemas de potencia involucrados en la transición energética
Incorpora técnicas analíticas prácticas y fáciles de usar
Instructores son reconocidos expertos en el campo
Evalúa aprendizajes con realimentación continua
Cubre los impactos de las FNCER en los sistemas de potencia

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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 Análisis de Sistemas Eléctricos y Transición Energética with these activities:
Brush up on power electronics and control
Enhance skills relevant to power systems operation
Browse courses on Power Electronics
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  • Review fundamental concepts in power electronics
  • Refresh knowledge on control system analysis and design
  • Apply concepts through simulations or small-scale projects
  • Study case studies and research papers
Review AC circuit analysis and power systems
Revisiting a deeper understanding of these critical topics
Browse courses on AC Circuit Analysis
Show steps
  • Start by reviewing AC Circuit fundamentals
  • Review phasor representation and impedance
  • Go over the concept of power factor
  • Finally, examine different types of power system components
Teach a peer on a specific topic
Reinforce learning by teaching
Browse courses on Electrical Engineering
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  • Pick a topic that interests you
  • Prepare your material and practice
  • Find a peer who is willing to learn
  • Teach the topic to your peer
  • Get feedback and improve your teaching
Five other activities
Expand to see all activities and additional details
Show all eight activities
Seek a mentor in the energy industry
Tap into valuable expertise and guidance
Browse courses on Mentorship
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  • Network at industry events and conferences
  • Reach out to professionals in your field through LinkedIn or email
  • Ask for informational interviews
  • Identify potential mentors and build relationships
Attend a workshop on renewable energy integration
Network and develop skills in renewable energy
Browse courses on Renewable Energy
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  • Find a workshop focused on renewable energy integration
  • Register for the workshop
  • Attend the workshop and participate actively
  • Network with other attendees and experts
Follow online tutorials on computational tools for power systems
Gain proficiency in industry-standard software
Browse courses on Computational Tools
Show steps
  • Identify online resources and tutorials for computational tools used in power systems
  • Follow the tutorials step-by-step
  • Practice using the tools to solve problems
  • Explore advanced features and applications
Volunteer for a nonprofit organization in the energy sector
Apply your skills to make a tangible impact
Browse courses on Nonprofit Management
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  • Research nonprofit organizations in the energy sector
  • Identify an organization that aligns with your interests
  • Contact the organization and inquire about volunteer opportunities
  • Attend training and orientation sessions
Develop a project and create a presentation
Showcase your understanding through a comprehensive project
Browse courses on Project Management
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  • Identify a project topic and scope
  • Plan and execute the project
  • Create a presentation that showcases your findings
  • Present your project to your peers or a wider audience

Career center

Learners who complete Análisis de Sistemas Eléctricos y Transición Energética will develop knowledge and skills that may be useful to these careers:
Power Systems Engineer
Power systems engineers design, operate, and maintain the electrical power grid. They work to ensure that the grid is reliable, efficient, and safe. The course on Analysis of Electrical Systems and Energy Transition provides a strong foundation in the analysis of electrical systems, which is essential for power systems engineers. The course also covers the impact of renewable energy sources on electrical systems, which is a growing area of focus for power systems engineers.
Renewable Energy Engineer
Renewable energy engineers design, install, and maintain renewable energy systems, such as solar and wind farms. They work to reduce our dependence on fossil fuels and transition to a clean energy future. The course on Analysis of Electrical Systems and Energy Transition provides a strong foundation in the analysis of electrical systems, which is essential for renewable energy engineers. The course also covers the impact of renewable energy sources on electrical systems, which is a critical area of focus for renewable energy engineers.
Electrical Engineer
Electrical engineers design, develop, test, and supervise the installation of electrical systems and equipment. They work in a variety of industries, including utilities, manufacturing, construction, and transportation. The course on Analysis of Electrical Systems and Energy Transition provides a strong foundation in the analysis of electrical systems, which is essential for electrical engineers. The course also covers the impact of renewable energy sources on electrical systems, which is a growing area of focus for electrical engineers.
Energy Analyst
Energy analysts collect, analyze, and interpret data on energy production, consumption, and prices. They use this data to make recommendations on how to improve energy efficiency and reduce energy costs. The course on Analysis of Electrical Systems and Energy Transition provides a strong foundation in the analysis of electrical systems, which is essential for energy analysts. The course also covers the impact of renewable energy sources on electrical systems, which is a growing area of focus for energy analysts.
Energy Consultant
Energy consultants provide advice to businesses and governments on how to reduce energy costs and improve energy efficiency. They also help clients develop and implement renewable energy projects. The course on Analysis of Electrical Systems and Energy Transition provides a strong foundation in the analysis of electrical systems, which is essential for energy consultants. The course also covers the impact of renewable energy sources on electrical systems, which is a growing area of focus for energy consultants.
Environmental Consultant
Environmental consultants provide advice to businesses and organizations on how to comply with environmental regulations and reduce their environmental impact. They also help clients develop and implement sustainability programs. The course on Analysis of Electrical Systems and Energy Transition provides a strong foundation in the analysis of electrical systems, which is essential for environmental consultants. The course also covers the impact of renewable energy sources on electrical systems, which is a growing area of focus for environmental consultants.
Sustainability Manager
Sustainability managers develop and implement sustainability programs for businesses and organizations. They work to reduce environmental impact and promote social responsibility. The course on Analysis of Electrical Systems and Energy Transition provides a strong foundation in the analysis of electrical systems, which is essential for sustainability managers. The course also covers the impact of renewable energy sources on electrical systems, which is a growing area of focus for sustainability managers.
Energy Policy Analyst
Energy policy analysts develop and analyze policies that affect the energy sector. They work for government agencies, think tanks, and non-profit organizations. The course on Analysis of Electrical Systems and Energy Transition provides a strong foundation in the analysis of electrical systems, which is essential for energy policy analysts. The course also covers the impact of renewable energy sources on electrical systems, which is a growing area of focus for energy policy analysts.
Systems Analyst
Systems analysts design, develop, and implement computer systems. They work in a variety of industries, including finance, healthcare, and manufacturing. The course on Analysis of Electrical Systems and Energy Transition provides a strong foundation in the analysis of electrical systems, which is essential for systems analysts who work on energy-related projects. The course also covers the impact of renewable energy sources on electrical systems, which is a growing area of focus for systems analysts.
Project Manager
Project managers plan, organize, and execute projects. They work in a variety of industries, including construction, engineering, and information technology. The course on Analysis of Electrical Systems and Energy Transition provides a strong foundation in the analysis of electrical systems, which is essential for project managers who work on energy-related projects. The course also covers the impact of renewable energy sources on electrical systems, which is a growing area of focus for project managers.
Data Analyst
Data analysts collect, analyze, and interpret data to help businesses make better decisions. They work in a variety of industries, including finance, healthcare, and retail. The course on Analysis of Electrical Systems and Energy Transition provides a strong foundation in the analysis of electrical systems, which is essential for data analysts who work on energy-related projects. The course also covers the impact of renewable energy sources on electrical systems, which is a growing area of focus for data analysts.
Financial Analyst
Financial analysts provide advice to businesses and individuals on how to invest their money. They work in a variety of industries, including banking, investment management, and insurance. The course on Analysis of Electrical Systems and Energy Transition may be helpful for financial analysts who work on energy-related projects. The course provides a strong foundation in the analysis of electrical systems, which can be helpful for understanding the financial performance of energy companies.
Software Engineer
Software engineers design, develop, and maintain software applications. They work in a variety of industries, including finance, healthcare, and technology. The course on Analysis of Electrical Systems and Energy Transition may be helpful for software engineers who work on energy-related projects. The course provides a strong foundation in the analysis of electrical systems, which can be helpful for understanding the energy consumption and efficiency of software applications.
Operations Research Analyst
Operations research analysts use mathematical and analytical techniques to solve problems in a variety of industries, including transportation, logistics, and manufacturing. The course on Analysis of Electrical Systems and Energy Transition may be helpful for operations research analysts who work on energy-related projects. The course provides a strong foundation in the analysis of electrical systems, which can be helpful for understanding the energy consumption and efficiency of operations.
Management Consultant
Management consultants provide advice to businesses on how to improve their operations and performance. They work in a variety of industries, including healthcare, manufacturing, and technology. The course on Analysis of Electrical Systems and Energy Transition may be helpful for management consultants who work on energy-related projects. The course provides a strong foundation in the analysis of electrical systems, which can be helpful for understanding the energy consumption and efficiency of businesses.

Reading list

We've selected six 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 Análisis de Sistemas Eléctricos y Transición Energética.
Este libro proporciona una cobertura integral del análisis de sistemas eléctricos de potencia, incluyendo temas relacionados con la transición energética, como la integración de fuentes de energía renovables y el almacenamiento de energía.
Este libro proporciona una cobertura integral de la electrónica de potencia, incluyendo temas relacionados con la conversión de energía, el control de motores y las aplicaciones de las energías renovables.
Este libro ofrece una explicación clara y accesible de la tecnología de los vehículos eléctricos, cubriendo temas como la propulsión, las baterías y la infraestructura de carga.
Este libro proporciona una introducción general a los conceptos y principios fundamentales de la energía, incluyendo la producción, el consumo y los desafíos relacionados con la transición energética.
Este libro ofrece una introducción a las fuentes de energía renovables, cubriendo sus principios, tecnologías y aplicaciones en el contexto de la transición energética.

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