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“ The EUREC M.Sc. In Renewable Energy” “The Specialisation Modulus in Ocean Energy”

INSTITUTO SUPERIOR TÉCNICO Universidade de Lisboa. “ The EUREC M.Sc. In Renewable Energy” “The Specialisation Modulus in Ocean Energy”. EUREC Master Starting Day Brussels, October, 14th 2013. Campus Taguspark. Campus Alameda. 104 223 m2. 116 000 m2. Total Campus Area

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“ The EUREC M.Sc. In Renewable Energy” “The Specialisation Modulus in Ocean Energy”

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  1. INSTITUTO SUPERIOR TÉCNICO Universidade de Lisboa “The EUREC M.Sc. In Renewable Energy” “The SpecialisationModulus in Ocean Energy” EUREC Master Starting Day Brussels, October, 14th 2013

  2. Campus Taguspark Campus Alameda 104 223 m2 116 000 m2 Total Campus Area Class Rooms and Lecture Halls Study Rooms and Libraries Labs, Workshops and Computer Rooms Offices, Secretariats, Services and Meeting Rooms 9 941 m2 2 045 m2 4 050 m2 907 m2 24 931 m2 1 560 m2 24 492 m2 3 581 m2

  3. Lifelong Learning Graduate Programmes PhD 1st and 2nd cycle Programmes 21 Advanced Training • Aerospace Engineering • Architecture • Biological Engineering • Biomedical Engineering • Civil Engineering • Chemical Engineering • Electrical and Computer Engineering • Mechanical Engineering • Physics Engineering Alameda Campus • Chemistry • Environmental Engineering • Information Systems and Computer Engineering • Materials Engineering • Applied Mathematics and Computation • Mining and Geological Engineering • Naval Architecture and Marine Engineering • Territorial Engineering • M.Sc. in Engineering and Management of Energy (2 years) 5 yrs 3+2 yrs Taguspark Campus • Electronics Engineering • Industrial Engineering and Management • Information Systems and Computer Engineering • Communication Networks Engineering 3+2 yrs

  4. Lifelong Learning Doctoral (PhD) Programmes (3rd cycle) PhD 27 Graduate Programmes • Bioengineering • Biomedical Engineering • Biotechnology • Chemical Engineering • Chemistry • Electrical and Computer Engineering • Information Systems and Computer Engineering • Mechanical Engineering • Materials Engineering • Aerospace Engineering • Naval Architecture and Marine Engineering • Mathematics • Statistics and Stochastic Processes • Information Security Advanced Training • Architecture • Civil Engineering • Territorial Engineering • Transportation • Environment Engineering • Mining Engineering and Earth Resources • Physics • Physics Engineering • Technological Physics Engineering • Industrial Engineering and Management • Sustainable Energy Systems • Systems Engineering • Technological Change and Entrepreneurship In cooperation with Massachusetts Institute of Technology - MIT In cooperation with Carnegie Mellon University - CMU In cooperation with University Texas – Austin - UTA

  5. Lifelong Learning Advanced Training Diplomas (3rd cycle) PhD • Acoustics Engineering • Applied Statistics • Construction • Engineering and Hydraulic Works • Georesources • Geotechnics for Civil Engineering • Logistics • Medical Geology • Rehabilitation and Conservation of the Built Heritage • Risks Assessment, Safety and Reliability • Systems Engineering and Operations Research • Structural Engineering Graduate Programmes Advanced Training 17 • Sustainable energy Systems • Ocean Energy - DFA • Technology Management Entreprise • Urban Studies and Territorial Management • Water and Waste Technologies and Management • Radiation Safety In cooperation with Management School of UP and ISCTE

  6. Summary • Motivation • The EUREC Specialisation Modulus in Ocean Energy at IST • Integration of the Specialisation Modulus in IST Post-Graduate Studies

  7. Motivation • Growing interest in educational programs in Ocean Energy • The EUREC contact to the European Ocean Energy Association (EU - OEA) for possible interest from universities in organizing a Specialisation Modulus in OE for the European Master in Renewable Energy (EUREC) • IST presented to EUREC ideas for a Specialisation Modulus in Ocean Energy in: • EUREC meeting in Bilbao in December 2009 • EUREC Master Steering Committee in Brussels in March 2010 • EUREC Master Steering Committee in Brussels in June 2011 • Proposed Syllabus: Discussed and conditionally approved in the EUREC Master Steering Committee in Brussels in November 2011. • 1stEUREC Specialisation Course in Ocean Energy at IST in 2nd Semester 2012-2013.

  8. Syllabus contents: • Ocean Energy Resources • Modelling and Control of Ocean Energy Systems • Ocean Energy Systems Technologies • Economics, Policy and Environment • Project The Specialisation Modulus in OE EUROPEAN MASTER IN RENEWABLE ENERGY Ocean Energy Specialisation: 30 ECTS

  9. Contents: • Introduction to the ocean environment • Ocean surface waves • Ocean tidal currents • Site selection and characterization for ocean energy systems • Student learning outcomes: • Develop an understanding of the physical mechanisms in the ocean which are on the basis of the generation of surface waves, tides and currents, and their effects. • be familiar with the statistical description of waves and currents. • use the statistical information to make evaluation of the energy resource. • use of GIS in site selection characterization. The Specialisation Modulus in OE EUROPEAN MASTER IN RENEWABLE ENERGY- Specialisation in OE at IST Ocean Energy Resources: 6 ECTS

  10. Contents: • Wave energy systems • Marine current turbines • Other types of ocean energy systems • Student learning outcomes: • become familiar with the linear hydrodynamic theory of wave energy systems. • become familiar with the hydrodynamic theory of marine current turbines (BEM). • be introduced to advanced numerical hydrodynamic modelling of wave and current systems and control simulation. • be introduced to experimental testing and monitoring of OE systems. • get a basic knowledge of other forms of ocean energy and their systems as OTEC and salinity gradients. The Specialisation Modulus in OE EUROPEAN MASTER IN RENEWABLE ENERGY- Specialisation in OE at IST Modelling and Control of Ocean Energy Systems : 6 ECTS

  11. Contents: • Power take-off systems: Air turbines, hydraulic turbines, hydraulic equipment, electrical generation • Electrical connection systems • Mooring and anchoring systems • Operation and maintenance of ocean energy devices • Offshore electrical grid • Offshore operations • Maritime safety issues • Farm layout • Student learning outcomes: • become familiar with the electro-mechanical equipment used in wave energy systems and marine current turbines, offshore wind systems, the offshore electrical grid and connection systems. • get basic knowledge on the requirements to deploy, operate and maintain the wave and current energy systems both isolated and in arrays The Specialisation Modulus in OE EUROPEAN MASTER IN RENEWABLE ENERGY- Specialisation in OE at IST Ocean Energy Systems Technologies: 7.5 ECTS

  12. Contents: • Offshore wind resource • Offshore wind systems and technology • Offshore wind farms • Student learning outcomes: • understand the nature of the wind energy resource offshore and the differences to the wind energy resource onshore; • become familiar with the aerodynamics of offshore wind turbines; • understand the type of loads that the turbine and turbine structures are subject to; • understand the main problems related to the turbine control; •  get a basic understanding of the problems involved in offshore wind farm design. The Specialisation Modulus in OE EUROPEAN MASTER IN RENEWABLE ENERGY- Specialisation in OE at IST Offshore Wind Resource and Tecnology : 3 ECTS

  13. Contents: • Economic analysis:Cost, financing mechanisms and economic evaluation, life-cycle assessment • Policy issues:Socio-economic impacts, licensing and permitting • Environmental impact assessment • Student learning outcomes: • become familiar with the basic economic analysis of ocean energy systems including the cost, financing and economic evaluation. • get basic knowledge on the general policy issues regarding ocean energy systems and more detailed knowledge on the licensing and permitting procedures for installation of OE systems and enabling mechanisms as funding, feed-in tariffs and tax incentives. • Be able to perform simple environmental impact studies for OE systems The Specialisation Modulus in OE EUROPEAN MASTER IN RENEWABLE ENERGY- Specialisation in OE at IST Economics, Policy and Environment: 4.5 ECTS

  14. Contents: • Resource characterization • Site selection • System conceptual development • Licensing procedure • Environmental impact • Economical analysis • Student learning outcomes: • bring into practice the knowledge acquired through a case study in the form of a specific small project. The Specialisation Modulus in OE EUROPEAN MASTER IN RENEWABLE ENERGY- Specialisation in OE at IST Project: 6 ECTS (or 3 ECTS with Offshore Wind Modulus)

  15. Laboratory OER-1: Surface Ocean Waves: • Wave Flume of the Civil Engineering Department of IST: Characterization of systems of regular and irregular 2D waves. Energy spectra: Duration 3 h. MCOES-1: Wave energy systems: • Wave Flume of the Civil Engineering Department of IST: Characterization of a floating body response RAO in a system of regular 2D waves: Duration 3 h. OEST-1 Mechanical and Electrical Equipment: • a) Fluid Mechanics Laboratory of the Mechanical Engineering Department of IST: Testing of an air turbine for use in OWC systems: Duration 3 h. • b)Electrical Machinery Laboratory of the Electrical and Computer Engineering Department of IST: laboratory practice on electrical generators: Duration 3 h.

  16. The Specialisation Modulus in OE Modular Structure – 30 ECTS

  17. Total ECTS: 30 • Total: 200 h: 120 h Lectures + 80 h Tutorial • Project: 120 h work + 40 h report + presentation • Duration Courses: 14 weeks. • Classwork load: 20 h of classes / week • Period courses: Start in mid-February. Finnish by the end of May • Project: June The Specialisation Modulus in OE Modular Structure and Duration-Summary

  18. Ocean Energy Resources (A. Sarmento) • Module OER-1: The Ocean Environment • 24 h Lectures + 12 h Tutorial • Module OER-2: Site Characterization for OE Systems • 6 h Lectures + 8 h Tutorial • Modelling and Control of OE Systems (F. Campos/A. Falcão) • Module MCOES-1: Wave energy systems • 12 h Lectures + 8 h Tutorial • Module MCOES-2: Marine current turbines • 12 h Lectures + 8 h Tutorial • Module MCOES-3: Other OE systems • 6 h Lectures + 4 h Tutorial The Specialisation Modulus in OE Modular Structure (1):

  19. Ocean Energy Systems Technologies (L. Gato/F. Campos) • Module OEST-1: Mechanical and electrical equipment • 30 h Lectures + 20 h Tutorial • Module OEST-2: Wave and tidal energy farms and offshore operations: • 7.5 h Lectures + 5 h Tutorial • Module OEST-3: Offshore wind system and technology : • 14 h Lectures + 10 h Tutorial • Economics, Policy and Environment (A. Sarmento) • Module EPE-1: Economic analysis • 9 h Lectures + 6 h Tutorial • Module EPE-2: Policy issues • 4.5 h Lectures + 3 h Tutorial • Module EPE-3: Environmental impact assessment • 9 h Lectures + 6 h Tutorial The Specialisation Modulus in OE Modular Structure (2):

  20. Marine Renewable Energies 2012-2013

  21. Tagus River and Lisbon View Belém Tower Downtown Downtown Lisbon Area Beaches Downtown Typical Electric Cars Cultural Center of Belém Downtown by Night Belém – Jerónimos Monastery Instituto Superior Técnico - IST Typical Neighbourhood and Castle View Lisbon…

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