Because of current trends in the energy sector, future engineers will need more than just solid technical knowledge. Engineers must have insight, for example, into institutional economies and innovation and transformation processes. They must also be prepared to deal with the impact on technology and society that result from the introduction of sustainable energy technologies into our energy infrastructure.
Applied Science (Master) (1)
- Biobased Products for a Sustainable (Bio)economy
Program(s) Master
Theme(s) Sustainability
Architecture (Bachelor) (3)
- Nature Based Metropolitan Solutions
Program(s) Bachelor
Theme(s) EnvironmentSustainability - Sustainable Urban Development
Program(s) Bachelor
Theme(s) Sustainability
Bachelor (Bachelor) (3)
- Circular Economy for a Sustainable Built Environment
Program(s) Bachelor
Theme(s) EnvironmentSustainability - Smart Grids: Modeling
Program(s) Bachelor
Theme(s) EnergySustainability - Smart Grids: The Basics
Program(s) Bachelor
Theme(s) SustainabilityEnergy
Biotechnology (Master) (1)
- Technology for Biobased Products
Program(s) Master
Theme(s) EnvironmentSustainability
Chemical Engineering (Master) (1)
- Industrial Biotechnology
Program(s) Master
Theme(s) Sustainability
Civil Engineering (Master) (1)
- Beyond Engineering: Building with Nature
Program(s) Master
Theme(s) EnvironmentSustainability
Electrical Engineering (Master) (1)
- Solar Energy: Photovoltaic (PV) Systems
Program(s) Master
Theme(s) EnergySustainabilityEnvironment
Electrical Engineering (Bachelor) (3)
- Electric Cars: Technology
Program(s) Bachelor
Theme(s) Sustainability - Solar Energy
Program(s) Bachelor
Theme(s) EnergySustainability - Solar Energy: Photovoltaic (PV) Technologies
Program(s) Bachelor
Theme(s) SustainabilityEnergyEnvironment
Engineering and Policy Analysis (Master) (1)
- Technology Development and Impact Assessment
Program(s) Master
Theme(s) EnvironmentSustainability
Industrial Design Engineering (Bachelor) (2)
- Circular Economy
Program(s) Bachelor
Theme(s) Sustainability - Sustainable Packaging in a Circular Economy
Program(s) Bachelor
Theme(s) Sustainability
Mechanical Engineering (Bachelor) (1)
- Waste Management and Critical Raw Materials
Program(s) Bachelor
Theme(s) Sustainability
Sustainable Development (Master) (5)
- Sustainable Development for Engineers
Program(s) Master
Theme(s) Sustainability - Technics and Future
Program(s) Master
Theme(s) Sustainability - Technology Dynamics and Transition Management
Program(s) Master
Theme(s) SustainabilityWater - Technology Dynamics for Sustainable Innovation
Program(s) Master
Theme(s) Sustainability - Technology in Sustainable Development
Program(s) Master
Theme(s) Sustainability
Sustainable Energy Technology (Master) (1)
- Sustainable Hydrogen and Electrical Energy Storage
Program(s) Master
Theme(s) Sustainability
Sustainable Processes and Energy (Master) (1)
- Non Equilibrium Thermodynamics
Program(s) Master
Theme(s) EnergySustainability
Technology, Policy and Management (Bachelor) (1)
- Electric Cars: Policy
Program(s) Bachelor
Theme(s) Sustainability
Teachers (54)
- Isabel Arends
Course(s) Industrial BiotechnologyTechnology for Biobased Products
- Taneha Bacchin
Course(s) Nature Based Metropolitan Solutions
- Conny Bakker
Course(s) Circular EconomySustainable Packaging in a Circular Economy
- Ruud Balkenende
Course(s) Sustainable Packaging in a Circular Economy
- P. Bauer
Course(s) Electric Cars: IntroductionElectric Cars: TechnologyElectrical Power DrivesSolar Energy: Integration of Photovoltaic Systems in Microgrids
- Marcel Bilow
Course(s) Circular Economy for a Sustainable Built Environment
- Siebe Broersma
Course(s) Zero-Energy Design: an approach to make your building sustainable
- Gautham Ram Chandra Mouli
Course(s) Electric Cars: Technology
- Ibrahim Diab
Course(s) Smart Grids: ModelingSmart Grids: The Basics
- Digvijay Gusain
Course(s) Smart Grids: Modeling
- Ulf Hackauf
Course(s) Circular Economy for a Sustainable Built Environment
- Sef Heijnen
Course(s) Industrial BiotechnologyTechnology for Biobased Products
- Auke Hoekstra
Course(s) Electric Cars: BusinessElectric Cars: Technology
- Frank Hollmann
Course(s) Biobased Products for a Sustainable (Bio)economy
- Olindo Isabella
Course(s) Solar Energy: Photovoltaic (PV) Systems
- S.H. Kjelstrup
Course(s) Non Equilibrium Thermodynamics
- Tillmann Klein
Course(s) Circular Economy for a Sustainable Built Environment
- Thaleia Konstantinou
Course(s) Circular Economy for a Sustainable Built Environment
- Filippo Lafleur
Course(s) Nature Based Metropolitan Solutions
- Els Leclercq
Course(s) Circular Economy for a Sustainable Built Environment
- Sofia Lukszo
Course(s) Electric Cars: Policy
- K.F. Mulder
Course(s) Sustainable Development for EngineersTechnics and FutureTechnology Dynamics for Sustainable Innovation
- F. M. Mulder
Course(s) Sustainable Hydrogen and Electrical Energy Storage
- Jannes Nelissen
Course(s) Sustainable Packaging in a Circular Economy
- Henk Noorman
Course(s) Industrial BiotechnologyTechnology for Biobased Products
- Patricia Osseweijer
Course(s) Biobased Products for a Sustainable (Bio)economyIndustrial Biotechnology
- Mariette Overschie
Course(s) Sustainable Urban Development
- Peter Palensky
Course(s) Smart Grids: ModelingSmart Grids: The Basics
- Kaikai Pan
Course(s) Smart Grids: The Basics
- David Peck
Course(s) Circular EconomyEngineering Design for Circular EconomyWaste Management and Critical Raw Materials
- W. Ravesteijn
Course(s) Technology and Global DevelopmentTechnology Development and Impact AssessmentTechnology Dynamics and Transition Management
- Huub Rijnaarts
Course(s) Citizens Co-creating Sustainable CitiesSustainable Urban Development
- José Rueda Torres
Course(s) Smart Grids: The Basics
- Arnout Sabbe
Course(s) Circular Economy for a Sustainable Built Environment
- Jill Slinger
Course(s) Beyond Engineering: Building with NatureEngineering: Building with Nature
- A.H.M. Smets
Course(s) Solar EnergySolar Energy Engineering: Photovoltaic Energy ConversionSolar Energy: Photovoltaic (PV) TechnologiesSustainable Energy: Design A Renewable Future
- Mo Smit
Course(s) Circular Economy for a Sustainable Built Environment
- Marc Spiller
Course(s) Sustainable Urban Development
- Ravi Vasudevan
Course(s) Solar Energy: Photovoltaic (PV) Systems
- Jos Vlugter
Course(s) Sustainable Packaging in a Circular Economy
- Marnix Wagemaker
Course(s) Electric Cars: Technology
- Aljoscha Wahl
Course(s) Biobased Products for a Sustainable (Bio)economy
- Alexander Wandl
Course(s) Circular Economy for a Sustainable Built Environment
- Ken Webster
Course(s) Circular Economy
- M.P.C. Weijnen
Course(s) Electric Cars: IntroductionElectric Cars: PolicyInclusive Energy Systems: Exploring Sustainable Energy for AllNext Generation Infrastructures
- Jan-Henk Welink
Course(s) Waste Management and Critical Raw Materials
- G. de Werk
Course(s) Technology in Sustainable Development
- Luuk van der Wielen
Course(s) Industrial BiotechnologyTechnology for Biobased Products
- M. Zeman
Course(s) Solar CellsSolar Energy Engineering: Photovoltaic Energy ConversionSolar Energy: Photovoltaic (PV) Technologies
- Janne de Hoop
Course(s) Sustainable Packaging in a Circular Economy
- Arjan van Timmeren
Course(s) Nature Based Metropolitan SolutionsSustainable Urban Development
- Andy van den Dobbelsteen
Course(s) Zero-Energy Design: an approach to make your building sustainable
- Eric van den Ham
Course(s) Zero-Energy Design: an approach to make your building sustainable
- Geert van der Meulen
Course(s) Nature Based Metropolitan Solutions
- Isabel Arends