Intelligent and Integrated Energy Systems

Offered By: Delft University of Technology via edX

Course Description

Overview

The energy systems and the power grids of the world are undergoing a rapid transition. The advancements in computational tools have resulted in levels of efficiency, security, and reliability never seen before in the energy industry. Some of the recent developments such as decentralization of energy, decarbonization, electrification, digitalization, use of agile electronics and increased societal awareness and participation in power generation and storage are driving the revolution to create the “intelligent” (smart) and integrated energy systems of the future.

This series of MOOCs provides unique and multi-disciplinary insights on how to understand, design, plan and operate the intelligent and integrated energy systems in the rapidly evolving energy sector. The program focuses on four main aspects: technology, digitalization, policy and governance, and innovations for sustainable business, thereby providing the learner with a holistic view of the revolution in energy systems and power grids.

This program has been tailor-made by a team of professors from the Delft University of Technology and industry experts at the forefront of the revolution, guaranteed to take you on a journey that will:

describe the complexities of energy systems and power grids, and the requirements and industrial impacts of integration, automation and optimization
explain the technologies driving the change and provide practical hands-on experience in the use of advanced numerical and computational tools
provide an in-depth analysis on the economic and societal impacts of changes in energy systems and the design of new interventions best suited for energy systems of the future
discuss new market potentials for business models employing and utilizing the changes to the energy systems and power grids as opportunities.

On completion of the program, you will be equipped with skills to design your own complex energy system that is integrated with “intelligent” control with sound socio-economic planning and best suited for business opportunities in the global energy market.

Syllabus

Courses under this program:
Course 1: Digitalization of Intelligent and Integrated Energy Systems

Learn where and how to apply intelligence to the energy grid to create a digitalized, automated, integrated and optimized energy system. The course discusses state-of-the-art digital technologies, so you are at the forefront of the power grid revolution.

Course 2: Policy and Management of Modern Energy Systems

Gain insight into the technology, economics, governance and management of the energy system and its current transitions to combat climate change so you can take appropriate decisions and design feasible policies.

Course 3: Technology of Intelligent and Integrated Energy Systems

Design an integrated energy system recognizing the role of intelligent use of various technologies including renewable energy sources, energy storage, electric vehicles, thermal systems and interconnected multi-carrier grids.

Course 4: Business Implications of Intelligent and Integrated Energy Systems

Learn how digital technologies help with the energy transition and then how to use this to develop future potential business models in various energy and energy-dependent sectors.

Courses

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6 weeks, 3-6 hours a week, 3-6 hours a week
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This course will teach you how to digitalize the 'conventional' grid and which digital technologies you can use for this, including but not limited to, AI, machine learning, blockchain and computer simulations.

Even though the power grid has been the main driver of the rapid advancement of technology in the past decades, the engineering of the grid is outdated by today's standards. Equipment is still hardwired and analogue, there is limited data acquisition, and many control actions are performed manually. Subsequently, it becomes harder to ensure similar system quality and efficient operations when more renewables are added to the grid. The next big leap, therefore, is to revamp and digitalize the energy system.
We invited five prominent industry leaders to share industry perspectives, case studies and applications of digitalization in the fields of Grid Operations, Electric Power Systems, Power Distribution, Electrical Systems, Control Systems and Cybersecurity, but also in Consultancy and Software Development. Our guest speakers are: Philip Gladek (CEO of Spectral), Bas Kruimer (Business Director Digital Grid Operations at DNV), Martin Wevers (Grid Planner at TenneT), Evelyn Heylen (Head of research at Centrica) and Antoine Marot (Lead AI Scientist at RTE).
You will also get hands-on experience through solving an optimal scheduling problem, noting the differences between different numerical simulation methods and applying machine learning to predict system overloads.

This course is aimed at professionals in the energy industry who want to broaden their perspective and discover alternative approaches to energy integration in an intelligent way such as:
- grid operators, electrical systems managers, control systems managers, power engineers
- cybersecurity consultants, software developers, artificial intelligence managers/ scientists, energy consultants
- project managers, planners, policy makers etc.
Any other enthusiasts with the desire to learn more about current practices of the power grid, novel digital technologies and trends to deploy them can also enrol in this course.

"At DNV, our vision is to be a trusted voice to tackle global transformations. The energy transition is vital to decelerate climate change. Integrating energy systems in an intelligent way is a critical skill for the engineers, project managers, planners, policymakers, and scientists of the future.
The course “Digitalization of intelligent and integrated energy systems” comes at the right time to tackle the challenges and complexity of today’s energy systems. It provides you with a powerful framework to digitalize energy systems by using AI, machine learning, simulations, digital twins and sheds light on cyber security matters. It helps you to integrate electric cars, heat, gas and electricity into the energy system. I would highly recommend this innovative course to everyone who is interested in the digital transformation of the energy system."

Bas Kruimer, Business Director Digital Grid Operations, Energy Systems, DNV
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6 weeks, 4-6 hours a week, 4-6 hours a week
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This course will teach you how to design an integrated energy system considering various existing and up-and-coming technologies, such as renewable energy sources, energy storage, electric vehicles, thermal systems and interconnected multi-carrier grids, including natural gas and hydrogen. A special emphasis is placed on exploiting the synergies between different technologies in intelligent ways, to help the transition of the energy sector from fossil fuels to sustainable sources of energy. Intelligent operation and control are considered in this course as an essential part of the design. Learners apply the knowledge in an open-ended design project to see how they can use their newly gained skills to create a sustainable future for their city/neighborhood/ building.

This course has been developed by experts from TU Delft with decades of research experience and covers the key energy technologies and their synergies. The academic concepts are complemented with industry perspectives presented by guest experts from energy-related companies.

This course is aimed at professionals in the energy industry who want to broaden their perspective and discover the opportunities and benefits that accrue from synergies between different energy technologies and digital intelligence in an integrated energy system. Likely to benefit most are people in roles such as energy system designer, engineering project manager, power system planner, heating grid planner, system integration engineer, electric mobility infrastructure planner, etc. The key sectors to use this knowledge are grid operators, energy producers, energy suppliers, mobility system providers and operators, thermal system providers, energy technology startups and energy consultancy.
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6 weeks, 4-6 hours a week, 4-6 hours a week
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This course is designed for anyone seeking a comprehensive understanding of the current energy system, in order to design actions and policies that can facilitate the energy transition. The course will analyze the fundamental energy concepts in the context of technology, system operation and control, economics and energy policy. We will discuss different types of energy sources (including renewables), the energy chain, energy infrastructure and power distribution, the actors involved, the energy market and present-day (EU) energy policies. Throughout the course you will understand the status quo and you will learn about disruptive innovations and possible future prospects for the energy sector. The course will present you with the larger picture of the future of the energy industry and its evolving practices, which you need in order to make better decisions, initiate policies and empower governance that help energy transition and support sustainability.

This course has been designed by TU Delft's international experts on Energy Systems who have more than 30 years of practical experience and have conducted relevant research in the field. The course also brings you new developments by leading industry professionals in Europe.
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6 weeks, 4-6 hours a week, 4-6 hours a week
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This course focuses on the emerging digitalization-based business models in the energy systems field. You will study how digital technologies can aid practitioners and business leaders to reach more sustainable systems and operations and create modern and more sustainable business frameworks. First, you will investigate the energy supply side, namely, the providers of electricity and their markets. You will learn about the different markets and new approaches in energy trading.

You will focus on coupling within energy sectors, specifically electricity, heat, and gas. Second, you will investigate the demand side and the perspective of the sectors whose operations rely mainly on energy (including the electric mobility sector and the challenges it faces). You will conclude the course by discussing the wider framework in which these sectors work and interact together, which is represented in the paradigm of smart cities.

Taught by

Marieke Kootte, Jochen Lorenz Cremer, Alexandru Stefanov, Milos Cvetkovic, Ivo Pothof, Mohammad Ansarin, Kees Vuik, Peter Palensky, Gautham Ram, Rudi Hakvoort, Ayman Abdelwahed, Zofia Lukszo, Yashar Ghiassi, Simon Tindemans and Pedro P. Vergara