Sustainable Energy Technology

1. Sustainable EnergyTechnology

2. Procedure for master assignment • You need a professor (or group) • You need a subject • You can do 15 EC of courses in preparation of your master assignment. Your professor has to agree with the choice of these courses. Find professor, subject and courses at an early stage!

3. Internship versus projects • If Internship then elective courses in q2, q3, q4 • If projects then elective courses in parallel with your master assignment

4. Internships versus projects

5. Internships versus projects

8. System integration projects: Formulated in cooperation with ECN TNO EDON, ENECO, Energie Delfland, ENW, EnergieNed, EPON, GASTEC, KEMA, Shell Stork First integration project: Project-led education (as in the CTW bachelor education). Second integration project: individual hands-on experience in the design, analysis or application of an energy system or in the exploration of new research questions. problem oriented in the form of a research assignment. Or and internship: At one of these companies, or at Essent, Nuon, BTG, etc., India (various topics), China (wind), Brasil, Sweden, Finland, Austria, Suriname, Greece (biomass)

9. Graduation projects • Delft: wind energy, hydrogen storage, solar cells (material science), etc. • Eindhoven: solar cells (material science), more fundamental studies on hydrogen production and biomass conversion

10. TNW/CT • Catalytic processes and materials (prof. Lefferts, dr. Seshan) • Catalytic pyrolysis • Catalytic conversion of methane to synthesis gas

11. UT/TNW/CT • Membrane technology (prof. Nijmeyer,) • Methanol Fuel cells • Reverse electrodialysis • Separation of CO2 with carbon nanotubes Membrane technology, polymer technology

12. UT/TNW/CT • Thermo-Chemical Conversion of Biomass (prof. Van Swaaij, Kersten) • Catalytic conversion of biomass to H2/syngas • In situ cleaning of flash pyrolysis vapours • Hydrothermal liquefaction • Supercritical water gasification

13. UT/TNW/Low temperature group • Cryogenic energy carriers, heat pumps (prof. Ter Brake) • Energy storage in superconductive materials (prof. Dalhee)

14. UT/CTW/CiT • Bouw/Infra (prof. De Wulf, Entrop • Sustainable energy in the building environment

15. UT/CTW/CiT • Watermanagement • Tidal energy (dr. Augustijn) • Waterfootprint of energy (Winnie Gerbens)

16. UT/CTW/WB • Production Technology (prof. Akkerman) • Materials for wind mills • Solar cells in composite structures

17. UT/CTW/WB • Design Engineering (prof. Van Houten, Reinders) • Integration of solar cells/fuel cells in products

18. UT/CTW/WB • Mechanical Automation (prof. Huis in ‘t Veld) • Laser treatment of surfaces for solar cell production

19. UT/CTW/WB • Tribology (prof. Schipper) • Tribologic behaviour of biofuels

20. UT/CTW/WB • Engineering Fluid Dynamics (prof. Hoeijmakers) • Flow around turbine blades (water turbines, wind turbines)

21. UT/EWI/CAES • Smart grids (prof. Smit) • Modeling of smart grids, decentral e-generation.

22. UT/CTW/WB • Thermal Engineering (prof. Van der Meer, prof. Brem, prof. Wolters, Kok, Bramer) • Synthesis gas production • Pyrolysis of biomass • Supercritical water gasification • CO2 sequestration • Utilization of future fuels • Green gas technology

23. UT/BBT • Centre for Clean Technology and Environmental Policy (CSTM) (prof. Bressers, Arentsen, Clancy, De Leeuw) • scenario studies • Studies on comparing technologies, • innovative energy chains (energy ans agriculture, North and South) • Sociatal implications of alternative energy technologies

24. The key question Which direction are you thinking of?