MSE Master of Science in Engineering

The Swiss engineering master's degree

Ogni modulo equivale a 3 crediti ECTS. È possibile scegliere un totale di 10 moduli/30 ECTS nelle seguenti categorie: 

  • 12-15 crediti ECTS in moduli tecnico-scientifici (TSM)
    I moduli TSM trasmettono competenze tecniche specifiche del profilo e si integrano ai moduli di approfondimento decentralizzati.
  • 9-12 crediti ECTS in basi teoriche ampliate (FTP)
    I moduli FTP trattano principalmente basi teoriche come la matematica, la fisica, la teoria dell’informazione, la chimica ecc. I moduli ampliano la competenza scientifica dello studente e contribuiscono a creare un importante sinergia tra i concetti astratti e l’applicazione fondamentale per l’innovazione 
  • 6-9 crediti ECTS in moduli di contesto (CM)
    I moduli CM trasmettono competenze supplementari in settori quali gestione delle tecnologie, economia aziendale, comunicazione, gestione dei progetti, diritto dei brevetti, diritto contrattuale ecc.

La descrizione del modulo (scarica il pdf)riporta le informazioni linguistiche per ogni modulo, suddivise nelle seguenti categorie:

  • Insegnamento
  • Documentazione
  • Esame
Energy: Production, Consumption and Management (FTP_Energy)

Energy availability, consumption, and management are among the most interesting and challenging topics of the future. Even in Switzerland, energy consumption is constantly rising, and politically, it has become an accepted fact that we must find ways to reduce energy consumption on a long-term basis. After the disaster of Fukushima in 2011, the Federal Council

and Parliament decided on Switzerland's progressive withdrawal from

nuclear energy production. This decision, together with further

far-reaching changes in the international energy environment, and the climate change evident effects, requires

an upgrading of the Swiss energy system. For this purpose, the Federal

Council has developed the Energy Strategy 2050 which has three main pillars: Energy Efficiency, implementation of Renewable Energy, and withdrawal from the use of nuclear energy.

There are numerous ways to lower energy consumption without losing wealth. Often, these solutions are not implemented by decision-makers in the political, economic, and technological sectors because of a lack of knowledge of the physical connections in energy engineering. The law of supply and demand, which can lever new forms of energy, will only become effective when substantial price increases result from serious bottlenecks in the power supply. The early discussion, scientific research efforts, and implementation of solutions for the future energy supply are currently providing Switzerland with a long-term substantial economic advantage in international competition.

The objective of this course is threefold: We will begin by dealing with the subject of the energy problem using Switzerland as an example. Afterward, we will develop feasible solutions, such as using energy rationally, recovering heat, or applying heat pumps for the use of energy potential at a lower temperature. In addition, we will discuss how to implement measures within the private sector, at an industrial site, or in a municipality.

In the course Energy: Production, Consumption, and Management, we will address the necessary theoretical basic principles of energy technology. Using concrete examples, the functionality of various techniques of energy transformation and systems with which energy can be used intelligently and efficiently will be conveyed.

This course is aimed particularly at students who have an interest in energy technology and related fields and have recognized the need to seek applicable solutions. The course provides the necessary basic principles for the multifaceted aspects of the topic.


This course should sensitize students to the questions of sustainable energy employment and is directed towards a wide public. Knowledge of the fundamentals of thermodynamics and energy engineering is advantageous but not mandatory.
Generally, the course will be taught in English in ZH and in French in LS.

Obiettivi di apprendimento

  • To become acquainted with short, medium, and long-term energy sources that are available nationally and/or worldwide; to gain an understanding of the technical connections of efficient employment of energy in the future (Energy Strategy 2050, global warming);
  • Ability to understand and communicate with specialists from various sectors such as energy management, energy production, and energy consumption;
  • Ability to make a sensible choice between different technical systems that satisfy the requirements and the available energy sources, and to do this without disregarding economic, ecological, and social aspects. This involves:
    • the knowledge of the economic potential of energy systems,
    • the knowledge of methods of rational energy use, and
    • the ability to quantify energy conservation with thermodynamics methods.

Categoria modulo

This module addresses the following aspects:

  • Available forms of energy (renewable or non-renewable)
  • The demand for these forms of energy and their stocks
  • The value of the various forms of energy (‘Noblesse’)
  • Small and large-scale power plants
  • Energy management in industry and in buildings
  • The economic advantages of rational energy use
  • Mobility
  • LCA
  • Sustainability

Metodologie di insegnamento e apprendimento

Ex-cathedra teaching, presentations, case studies


  • Fundamentals of Engineering Thermodynamics, 5th INTERNATIONAL Edition
    Michael J. Moran, The Ohio State Univ.
    Howard N. Shapiro, Iowa State Univ. of Science and Technology
  • Introduction to Thermal Systems Engineering: Thermodynamics, Fluid Mechanics, and Heat Transfer, INTERNATIONAL Edition
    Michael J. Moran, The Ohio State Univ.
    Howard N. Shapiro, Iowa State Univ.
    Bruce R. Munson, Iowa State Univ.
    David P. DeWitt, Purdue Univ.
  • Thermodynamique et Energétique, Tome 1: de l’énergie à l’exergie, L. Borel & D. Favrat, Presses Polytechniques et Universitaires Romandes, 2005
  • Technische Thermodynamik, Theoretische Grundlagen und praktische Anwendungen, G. Cerbe und G. Wilhelms, Hanser Verlag
  • Plan directeur de la recherche énergétique de la Confédération pour les années 2013 à 2016, Office fédéral de l’énergie OFEN. Février 2013 (

Scarica il descrittivo completo del modulo