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363-1190-00L 3 Credits MSC D-MTEC

Macroeconomic Modeling of Climate Change

Lecturers & Examiners: Dr. Maria Alsina Pujols, Dr. Woongchan Jeon
Participation is limited to 20 students. A mandatory prerequisite is the completion of "363-0503-00 Principles of Microeconomics" and "363-0565-00 Principles of Macroeconomics" (or equivalent).
VVZ CR n/a

Last Updated: 2026-06-03 00:14:32

Abstract

Understanding how the macroeconomy interacts with the climate is essential for both research, firms, and policy design in the 21st century. The goal of this course is to advance students from being consumers to producers of integrated climate-economy models at a level appropriate for writing a Master’s thesis.

Objective

After taking this course, students should be able to: - Understand canonical macroeconomic growth models. - Understand the different ways of integrating climate change into these models. - Understand and code up the Nobel prize-winning DICE climate-economic model, including basic extensions. - Understand and code up the seminal “GHKT” climate-economic model, including basic extensions. - Understand and code up climate-macro models with multiple regions. Familiarize with the challenges of international climate policy and the concepts of free-riding, Nash equilibrium, cooperative vs. non-cooperative equilibrium and Negishi welfare weights. - Understand extended climate-macro model structures designed to study important topics such as endogenous technical change and the interactions between climate change, uncertainty, and the economy.

Content

This course is designed for Master’s students with an interest in questions at the intersection of the climate, energy systems and markets, and the macroeconomy. The goal of the course is to help students transition from being consumers to producers of Master’s thesis-level research based on climate-macro models. The course will give students a theoretical foundation in the workings of different types of climate-macro models, such as policy optimization models, decentralized equilibrium models, non/partial equilibrium models, non-cooperative (Nash equilibrium) models. The course will also go over the theoretical foundations of a specific set of seminal models that we will study in more detail, with a focus on climate-economic models. Moving towards practical applications, students will then learn how to code up and build on existing code of several influential models to prepare for exploring their own research questions. While the instructor will prepare and present lecture slides, students are expected to read key papers assigned for reading and class discussion is strongly encouraged. Student assessment is based on both practical exercises and an in-class presentation. The course materials include both lecture slides (posted on the course website) and papers (also posted on the course website). The principal coding language we will use is Matlab (available through ETH) and excel, although students may use other languages if preferred.

General Information

Language
English
Levels
MSC
Frequency
Yearly recurring

Examination

Type
graded semester performance
Assessment will be based on both exercises and a presentation.

Registration & Places

Max Places
20
Signup End
03.03.2026

Course Components

Type Title Time & Place Hours
lecture with exercise Macroeconomic Modeling of Climate Change
  • Tue 10:15-12:00 (HG D 3.1)
2 h weekly

Offered In