Digital technology, Artificial Intelligence and data science are integral and essential parts of the 21st century mechanical engineering discipline. 21st century mechanical engineers must be versed in both the classical design and construction of complex mechanical systems, as well as the physical, mathematical and digital representation and analysis of these systems.
At the Faculty of Science and Engineering, we offer students a Masters degree programme in Mechanical Engineering that fits the needs of digital technology and digital society. The university is a unique place where engineering, natural sciences and social sciences meet to tackle urgent societal challenges. It prepares students for an international digital and high-tech career in industry.
The close collaboration with the Innovation Cluster Drachten, a cluster of high-tech companies in the north Netherlands, offers students a unique opportunity to be part of research and development teams where innovative high-tech systems, products and solutions are developed using cutting edge technologies. Some exemplary Mechanical Engineering design projects are the development of hydrogen refueling tank systems at Resato B.V., of sensor systems for radio astronomical applications at ASTRON, of robotic and data analytic solutions for the production and quality monitoring of consumer products at Philips Drachten, of mechatronics and robotics solutions for medical lab equipment at BD Kiestra B.V., along with many others. The programme plays a central role in the Smart Industry Hub of North Netherlands, in the Offshore Wind Innovation Centre, in the smart and green mobility centre of Hive.Mobility as well as in a number of other engineering initiatives in renewable energies and in smart and circular economies.
Mechanical Engineering in Groningen has a long-running tradition of top research. Exemplary research projects: nano- and microfabrication technology and advanced material at the Zernike Institute for Advanced Materials (ZIAM) ; 3D metal printer, smart micro sensor and actuator systems, the Ocean Grazer project, smart energy systems, collaborative multi-robotic systems , digital twin and systems & control at the Engineering and Technology Institute Groningen (ENTEG) ; advanced instrumentation systems at the Netherlands Institute for Space Research (SRON) and the Kapteyn Astronomical Institute (KAI) ; and fuel-cell and hydrogen conversion at the Energy and Sustainability Research Institute Groningen (ESRIG) and ENTEG.
The mission of the master’s degree programme in Mechanical Engineering at the University of Groningen is:
To train and prepare students to apply principles of engineering, science and mathematics in the modelling, analysis, design and realization of physical systems, components and processes; special focus is on advanced instrumentation, smart factories, and smart and green energy savers.
Main compulsory courses
• Computational Solid Mechanics
• Introduction to Data Science
• Experimental Design
With the track-specific compulsory courses on Basic Detection Techniques , Analysis and Control of Smart Systems , and Advanced Instrumentation and Extreme Environments , you will learn the fundamental of detection technologies, gain knowledge on control systems that are crucial for high-precision of advanced instrumentation and understand state-of-the-art technologies in advanced instrumentation that can function under extreme environment, such as, cryogenic, ultra high vacuum or high temperature.
Additionally, in the advanced instrumentation track, you have the opportunity to follow five elective courses out of more than twenty elective courses. Examples of electives in this track include Space Mission Technology , Bio-signal Processing for Human Machine Interaction , Advanced Detection Techniques , Microfluidics , Advanced Vibration , Applied Optics , Opto-mechatronics , Medical Imaging Instrumentation , and many more.
Through the track-specific compulsory courses on Robotics , Advanced Processing for Complex Materials and Analysis and Control of Smart Systems , you will gain knowledge of crucial technology for smart factories in the era of Industry 4.0. You will learn the fundamentals of robotics and its control, understand techniques and methods relevant for processing of advanced and complex materials used in high-tech systems, and learn control systems required for the realization of smart factories.
Within this track, you will be able to specialize in Materials for Mechanical Engineering or in Robotics, Mechatronics and Smart Systems. In each specialization, you will be able to choose five elective courses from out of more than twenty elective courses. Examples of electives in this track include Multibody and Nonlinear Dynamics , Smart Materials for Engineering , Opto-mechatronics , Fracture of Materials , Composites and Metamaterials , Fitting Dynamical Models to Data , Data-driven Optimization and many more.
Smart and Green Energy Systems
The track-specific compulsory courses on Thermodynamics of Energy Conversion , Electrochemical Systems and Engineering , and Advanced Process and Energy Technologies allow the students to understand the fundamentals of thermodynamics involved in the energy conversion of smart and green energy systems, to learn various advances in electrochemical engineering involved in batteries, electrolysers and fuel cells, and to gain state-of-the-art knowledge of process and energy technologies.
You will be able to choose five elective courses out of more than fifteen elective courses which allows you to specialize in processes and electrochemical systems or in renewable energy systems. Examples of electives in this track include Microfluidics , Hydrogen, Fuels and Electrolysers , Fuel-Cell Systems , Engineering Design Integration , Capita Selecta in Ocean Energy, and many more.
I had an opportunity to immerse myself in different subjects like mathematics, robotics, and materials science.
Niek Veldboom - Student of the MSc Mechanical Engineering
At the end of my Bachelor’s degree in Industrial Engineering & Management, I knew I wanted to further my knowledge through a technical degree programme but also wanted to work on different projects. For this reason, I chose the Master of Mechanical Engineering with the Smart Factories track. During the programme, it became clear to me just how broad it was. I had an opportunity to immerse myself in different subjects like mathematics, robotics, and materials science.
The Master’s programme offers you an opportunity to write two theses, which can be done at a company or the University. My first research project, at NTS Norma, was about the cleanliness characteristics of 3D-printed metal. Besides the research project, I was involved in the design process by printing samples and testing different methods for quality. I really liked the contact between the different companies and the University. For example, I gave a presentation at a consortium for the partnerships. Working together with companies and the University and feeling useful gave me a lot of energy and confidence. My second research project was at ASML on control engineering. Once I graduate, I will start working for that company as a system integrator, where I can apply my technical knowledge from the Master’s programme.