Modelling and measuring the Energy Transition from Coursera

This MOOC provides attendants with fundamental knowledge about the main challenges in modelling the energy transition at both global and regional levels, as well as the industrial ecology instruments to measure the associated impacts.

The course begins by covering national energy accounting and the definition of a reference energy system, followed by an introduction to modelling for energy planning through linear programming. Participants will be engaged in hands-on practice using Excel. Additionally, scenario analysis principles are provided to help participants wisely discuss the results of practical case studies. Next, the course covers national economic accounting and the use of monetary input-output tables for national and multiregional applications, such as computing carbon footprints. Participants will also learn about Leontief’s production and impact model, which is demonstrated through another Excel-based hands-on session. Lastly, students will be introduced to the use of MARIO, an in-house, Python-based open-source tool for regional and multi-regional impact assessment studies based on Input-Output Analysis.

By the end of the MOOC, participants will acquire a strong foundational knowledge for scientifically approaching the global energy transition; they will be able to understand and interpretate national economic and energy accounting tables, as well as to apply specific tools freely available to plan energy interventions and to assess their impacts.

What's inside

Syllabus

Modelling Energy Transition

Measuring the impact of Energy Transition

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Know what's good

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Covers significant topics in energy transition, including energy accounting, scenario analysis, and economic modeling

Emphasizes hands-on practice through Excel-based exercises and the use of open-source tools like MARIO

Provides a foundation for understanding the global energy transition and assessing its impacts

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 Modelling and measuring the Energy Transition with these activities:

Create a glossary of key terms used in the course

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Creating a glossary of key terms can help you better understand and remember the course material.

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Review the course syllabus and identify key terms.
Create a table or spreadsheet with the key terms and their definitions.
Review the glossary regularly to reinforce your understanding of the key terms.

Review national and regional economic accounting concepts

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National economic and regional economic accounting concepts are used throughout the course.

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Review the course syllabus and identify sections related to economic accounting.
Read the assigned readings on national and regional economic accounting.
Complete the practice problems and exercises in the readings.
Create a summary of the key concepts of national and regional economic accounting.

Review Energy Accounting Principles

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Review the basics of national energy accounting and reference energy systems to build an understanding of energy transition modeling.

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Read through the course syllabus and identify the sections on energy accounting.
Review your notes or previous coursework on energy accounting and reference energy systems.
Complete any practice problems or exercises related to energy accounting.

Eight other activities

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Form a study group with other classmates to discuss course material and work on assignments

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Forming a study group can help you better understand the course material and improve your learning outcomes.

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Introduce yourself to your classmates and find others who are interested in forming a study group.
Decide on a meeting time and place for your study group.
Create a shared document or online space where you can share notes and resources.
Meet regularly to discuss the course material, work on assignments, and quiz each other.

Learn the basics of Input-Output Analysis using MARIO

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Input-Output Analysis is a key tool used in the course, and MARIO is an open-source tool for performing Input-Output Analysis.

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Review the course syllabus and identify sections related to Input-Output Analysis.
Find tutorials and documentation on MARIO online.
Complete the tutorials and exercises in the MARIO documentation.
Create a small Input-Output model using MARIO.

Modeling Energy Transition Using Excel

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Practice using Excel to model energy transition, including techniques for scenario analysis and sensitivity analysis.

Browse courses on Scenario Analysis

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Download the Excel workbook provided in the course materials.
Follow the instructions in the workbook to build a simple energy transition model.
Try different scenarios and analyze the results to understand the impact of various assumptions on the energy transition.

Develop a plan for a research project on a specific aspect of energy transition

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Developing a plan for a research project can help you focus your learning and apply the concepts you learn in the course to a real-world problem.

Browse courses on Energy Transition

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Review the course syllabus and identify potential research topics.
Identify a specific aspect of energy transition that you are interested in researching.
Develop a research question and hypothesis.
Identify the data and methods you will use to conduct your research.
Write a research proposal outlining your plan.

Volunteer at an Energy Efficiency or Renewable Energy Organization

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Gain hands-on experience in the field of energy transition by volunteering at an organization focused on energy efficiency or renewable energy.

Browse courses on Energy Efficiency

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Search for volunteer opportunities at local energy efficiency or renewable energy organizations.
Apply for a volunteer position that aligns with your interests and skills.
Attend volunteer training and actively participate in the organization's activities.

Measuring Impacts with Monetary Input-Output Tables

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Use online tutorials and resources to learn how to use monetary input-output tables for impact assessment, including carbon footprints.

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Search for online tutorials on monetary input-output tables and carbon footprint calculation.
Follow the steps in the tutorials to build an input-output table and calculate carbon footprints.
Explore different tools and software for input-output analysis, such as the World Input-Output Database (WIOD).

Develop a scenario analysis plan for a specific energy transition policy

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Scenario analysis is a key tool used in the course for assessing the impacts of energy transition policies.

Browse courses on Scenario Analysis

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Review the course syllabus and identify sections related to scenario analysis.
Develop a list of potential energy transition policies.
Identify the key parameters that would be affected by each policy.
Develop a set of scenarios for each policy, varying the key parameters.
Use MARIO to assess the impacts of each scenario.
Write a report summarizing the results of the scenario analysis.

Present on Regional Impact Assessment Using MARIO

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Create a presentation that explains the use of MARIO for regional impact assessment, showcasing the strengths and limitations of the tool.

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Review the course materials on MARIO and regional impact assessment.
Install MARIO and familiarize yourself with its interface.
Build a regional impact assessment model using MARIO and present the results.

Career center

Learners who complete Modelling and measuring the Energy Transition will develop knowledge and skills that may be useful to these careers:

Energy Analyst

Energy Analysts design and use analytical and information technology tools to support research, planning, and decision-making in the energy industry. You can use specialized software to gather and forecast energy data while also evaluating the effectiveness of policies related to energy.

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Energy Economist

Energy Economists apply economic theory and principles to the energy industry to analyze and forecast the supply and demand for energy, as well as to evaluate the impact of government policies on the energy market.

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Environmental Analyst

Environmental Analysts apply scientific and technical knowledge to environmental issues and develop solutions to environmental problems.

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Environmental Engineer

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Sustainability Analyst

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Data Analyst

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Operations Research Analyst

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Financial Analyst

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Project Manager

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Technical Writer

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Web Developer

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Modelling and measuring the Energy Transition

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