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ERASMUS- Universitetsseminar April 2010 Mads Clausen Institute, University of Southern Denmark Campus Sønderborg Mathematical Modeling Group Research and Teaching Activitees. Bygningsteknik Elektroteknik Fysik og Teknologi Global Management & Manufacturing
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ERASMUS- Universitetsseminar April 2010 Mads Clausen Institute, University of Southern Denmark Campus Sønderborg Mathematical Modeling Group Research and Teaching Activitees
Bygningsteknik • Elektroteknik • Fysik og Teknologi • Global Management &Manufacturing • Informations- og Kommunikationsteknologi • Integreret Design • Kemi • Lærings- og Oplevelsesteknologi • Maskinteknik • Miljøteknologi • ProductDevelopment and Innovation • Robotteknologi • Produktionsteknik • Velfærdsteknologi Engineering SDU • Interaction Design • Mekatronik • Innovation & Business • IT Product Design
Students: 250 FocusonProduct innovation - Engineering, Design, Business Uddannelser: Mechatronics, InteractionDesign, Innovation & Business MechatronicsLighthouse EngineeringEducationSDU Sønderborg
Research and Teaching: Embedded software MathematicalModeling UserCentred Design Nanotechnology CPD Mechatronics • Thermal Systems
Mathematical Modelling Research Group Morten Willatzen, Professor, Ph.D. Daniele Barettin, Post Doc, Ph.D. Vladimir Bordo, Associate Professor, Ph.D. Jerome Jouffroy, Associate Professor, Ph.D. Benny Lassen, Associate Professor, Ph.D. Søren Madsen, Assistant Professor, Ph.D. Bjarne Schmidt (Teaching), M.Sc. Christian Veje, Associate Professor, Ph.D. Dorthe Wildt-Nielsen (Teaching), M.Sc.
Ph.D. Students David Bæk (DTU-Elektro+MCI) Lars Duggen (MCI) Andreas Rune Fugl (MCI+Mærsk) Anders Pors (MCI+SENSE) Rahimullah Sarban (MCI+DanfossPolypower) Jørgen Sylvest (MCI+SENSE) NN (SENSE+MCI) - absorptionskøleanlæg
Areas of research • Applied and industrial mathematics • Computational physics • Mechanics • Thermo-fluid dynamics • Electronics.
• Nanotechnology, with emphasis on modelling semiconductor and optoelectronics applications. • • Electromechanical, magnetostrictive, and thermoelectric devices, including sensors, actuators and transducers; • • Heat and mass transfer problems, modelling and control of thermo-fluid systems; • • Dynamics of phase transitions and applications to industry;
• Computational solid mechanics and fluid dynamics; • • Applied rheology, including mathematical modelling electro- and magneto-rheological devices; • • Smart structures and composite materials; • • PDE-based models for transport phenomena with applications to engineering problems; • • (Flow) acoustics and combustions systems;
Evaporator modeling MovingboundaryDistributed model
Evaporator modeling and simulation • Analysis of simplifyingassumptions • Numericalstability and efficiency • Cluster and GPU implementation • Real-time simulation and control
Master in Mechatronics : • Dynamic Systems Profile • Currently offered thesis projects • Implementation of two-phase fluid flow solver on a Nvidia GPU • Two-phase flow and heat calculations using the finite element method • Frequency response of dry expansion evaporator • Mathematical modeling of condenser / evaporator two-phase flow in refrigeration technology • Pressure control for optimal COP in transcritical CO2 heat pumps • Solar cooling technology • Transcritical CO2 Power Cycles
Semester Themes ProfileCourses and Master Thesis NanoTechnology EmbeddedControl Systems DynamicMechatronic Systems 10. 9. 8. Advanced Mechatronics And Scientific Methods 7. M.Sc. In Mechatronics at MCI Thermal Energy Technology