Program overview 8-Nov-017 11: Year 01/013 Organization Mechanical, Maritime and Materials Engineering Education Minors Marine Technology Code Omschrijving ECTS MT-Mi-031-1 MT-Mi-031-1 Schakelminor MT voor WB MT19-09 Marine Engineering 1 4 MT3408 Ship Movements 6 MT56-11 D Hydro Mechanics - Geomatics and Stability MT57 Hydro Mechanics 3 MTP410 Project Ship Design 11 p1 p p3 p4 p5 Page 1 of 5
Year 01/013 Organization Mechanical, Maritime and Materials Engineering Education Minors Marine Technology MT-Mi-031-1 Minor Coordinator E.P. van Luik Program Coordinator Administration by the Faculty of Administration by the Education of Minor Title ECTS Minor (Volume) Ewoud van Luik 3mE MT Schakelminor Maritieme Techniek voor WB Minimaal 3, maximaal 45 ECTS afhankelijk van de bachelor achtergrond Contact for Students (Minor) Ewoud van Luik (e.p.vanluik@tudelft.nl) Intended for Gives access to Expected prior Knowledge Prerequisites Minor Minor Exit Qualifications Minor Coherence / Goal Minor Content 1 Education Methods Minor Assessment Maximum number of participants Minimum number of participants Minor Remarks / Schedule Bachelorstudenten van WB MSc Marine Technology Niveau eind tweede jaar Niveau eind tweede jaar Voldoende kennis, inzicht en vaardigheid om met succes de Masteropleiding Marine Technology te kunnen doorlopen. Samenhangend, specifiek werktuigkundig pakket uit de BSc opleiding MT. Zie de respectievelijke programma's naar Bachelorachtergrond. Hoorcollege en evt. instructie Elk studieonderdeel wordt afzonderlijk getoetst. 00 0 De vakken in de respectievelijke tabellen zijn gekozen uit het reguliere BSc programma MT en beperken zich niet tot één semester. Maximaal 15 ECTS kunnen worden opgenomen binnen de vrije keuzeruimte in de masteropleiding MT, na overeenstemming met de afstudeerhoogleraar. Page of 5
MT19-09 Marine Engineering 1 4 Responsible Instructor P. de Vos 6/0/0/0 Expected prior knowledge Parts Course Contents Study Goals Basic thermodynamics (WB4100), introduction marine machinery installations (MTP103) Lectures, written exam, diesel engine practical Subjects: * Energy conversion * Diesel engines * Gas turbines * Propellers * Matching of prime mover and load * Exhaust heat recovery * Auxiliary systems (pump - pipe flow systems) * Refrigeration * Airconditioning The student is able to: 1. With respect to prime movers (e.g. diesel engine or gas turbine): 1.a. to explain: * characteristics * construction types * ideal process models and actual processes * turbo charging 1.b. to calculate: * power, torque, efficiency, bmep, bsfc, etc. 1.c. to apply: * basic thermodynamics (p-v and T-s diagrams, energy flows, etc.). With respect to transmission systems and propulsors (e.g. propeller).a. to explain: * different lay-outs of transmission systems * reasons to apply fixed pitch or controllable pitch propeller.b. to derive: * propeller load characteristic from ship resistance.c. to match: * prime mover to propulsor 3. With respect to electric power generation systems 3.a. to explain: * layout and main components * main and secondary electric power supply 4. With respect to pump and pipe flow systems 4.a. to explain: * lay-out * applications in ships * pump and pipe flow system characteristics 4.b. to calculate: * pressures, velocities, NPSH, etc. Education Method Literature and Study Materials Assessment 5. With respect to refrigeration, HVAC and waste heat systems 5.a. to explain: * principle of operation of refrigeration plants * working principles, goals and lay-out of HVAC systems * working principles, goals and lay-out of waste heat systems 5.b. to analyze: * thermodynamic process of refrigeration plants in relevant diagrams * thermodynamic processes in HVAC systems using Mollier diagram * potential for waste heat utilization * waste heat system in Q-T diagram 5.c. to calculate: * cooling capacity, mass flow, coefficient of performance, etc. * thermodynamic state variables in different stages of AC systems * temperatures and mass flows in waste heat systems Lecture + practical J. Klein Woud, D. Stapersma: 'Marine Engineering: Design of Propulsion and Electric Power Generation Systems', IMarEST, 003. J. Klein Woud, D. Stapersma: 'Marine Engineering: Design of Auxiliary Systems, Shafting and Flexible Mounting', IMarEST, to be published. Written exam (open book) = MT19-09 D1 Practical = MT19-09 D 3mE Maritime & Transport Technology Page 3 of 5
MT3408 Ship Movements 6 Responsible Instructor Dr.ir. H.J. de Koning Gans Responsible Instructor Ir. P. Naaijen Education Period 3 Start Education 3 Exam Period 3 4 0/0/6/0 3mE Maritime & Transport Technology MT56-11 D Hydro Mechanics - Geomatics and Stability Responsible Instructor Dr.ir. J.A. Keuning /0/0/0 3mE Maritime & Transport Technology MT57 Hydro Mechanics 3 Responsible Instructor Prof.dr.ir. T.J.C. van Terwisga /0/0/0 3mE Maritime & Transport Technology MTP410 Project Ship Design 11 Responsible Instructor Prof.ir. J.J. Hopman Education Period 3 Start Education Exam Period 0/x/x/0 none 3mE Maritime & Transport Technology Page 4 of 5
Prof.ir. J.J. Hopman Dr.ir. J.A. Keuning Marine & Transport Tech Telephone +31 15 7 85605 34.B-3-40 Telephone +31 15 7 81897 34.D-0-60 Telephone +31 15 7 81897 34.D-0-60 Dr.ir. H.J. de Koning Gans Ir. P. Naaijen Prof.dr.ir. T.J.C. van Terwisga P. de Vos ontbreekt E.P. van Luik Telephone +31 15 7 8185 34.B-1-300 Telephone +31 15 7 81570 Telephone +31 15 7 86860 34.B-1-300 Ship Design, Prod & Operations Telephone +31 15 7 81040 34.B-4-0 Page 5 of 5