Course contents This course provides comprehensive training in experimental heat transfer, focusing on advanced measurement techniques for thermal and fluid dynamics research. The programme integrates the theoretical foundations of uncertainty analysis with practical laboratory experience regarding sensors, solar radiation, and multi-phase flow diagnostics. The curriculum begins with an introduction to the theory of uncertainty in measurements, illustrated through practical examples and data processing. A significant portion of the course is dedicated to the experimental measurement of primary physical quantities, including pressure, flow rate, and temperature using thermocouples, resistance temperature detectors (RTDs), and infrared thermography. Specialized modules explore the determination of [...]

Course contents This course provides comprehensive training in experimental heat transfer, focusing on advanced measurement techniques for thermal and fluid dynamics research. The programme integrates the theoretical foundations of uncertainty analysis with practical laboratory experience regarding sensors, solar radiation, and multi-phase flow diagnostics. The curriculum begins with an introduction to the theory of uncertainty in measurements, illustrated through practical examples and data processing. A significant portion of the course is dedicated to the experimental measurement of primary physical quantities, including pressure, flow rate, and temperature using thermocouples, resistance temperature detectors (RTDs), and infrared thermography. Specialized modules explore the determination of [...]

Course contents This course provides comprehensive training in experimental heat transfer, focusing on advanced measurement techniques for thermal and fluid dynamics research. The programme integrates the theoretical foundations of uncertainty analysis with practical laboratory experience regarding sensors, solar radiation, and multi-phase flow diagnostics. The curriculum begins with an introduction to the theory of uncertainty in measurements, illustrated through practical examples and data processing. A significant portion of the course is dedicated to the experimental measurement of primary physical quantities, including pressure, flow rate, and temperature using thermocouples, resistance temperature detectors (RTDs), and infrared thermography. Specialized modules explore the determination of [...]

Course unit contents This course explores Micro-Electro-Mechanical Systems (MEMS) for biomedical imaging and their integration into next-generation diagnostic systems, focusing on ultrasound and Terahertz (THz) radiation. The curriculum provides the analytical and methodological tools required to design, model, and characterize MEMS-based transducers for ultrasound imaging and Terahertz imaging for clinical applications. The course introduces biomedical imaging techniques, describing the primary role of MEMS devices in both traditional and emerging imaging modalities. The program covers MEMS technology, discussing different modeling approaches and describing the microfabrication processes that transform Silicon into 3D resonating microstructures. Proposed MEMS transducers modeling methodologies include analytical [...]

Course contents Model Order Reduction (MOR) is a key technique for decreasing the computational complexity of mathematical models in numerical simulations. This course explores the relationship between MOR and metamodeling, highlighting its versatile applications across all areas of mathematical modeling and engineering where high-fidelity simulations are required. The curriculum introduces the main numerical approaches used to perform Model Order Reduction, with a detailed focus on the Proper Orthogonal Decomposition (POD). Students will examine the theoretical foundations of the POD algorithm and its practical implementation. The course features a hands-on component where the POD algorithm is applied to accelerate time-domain simulations [...]

Course unit contents This course explores Micro-Electro-Mechanical Systems (MEMS) for biomedical imaging and their integration into next-generation diagnostic systems, focusing on ultrasound and Terahertz (THz) radiation. The curriculum provides the analytical and methodological tools required to design, model, and characterize MEMS-based transducers for ultrasound imaging and Terahertz imaging for clinical applications. The course introduces biomedical imaging techniques, describing the primary role of MEMS devices in both traditional and emerging imaging modalities. The program covers MEMS technology, discussing different modeling approaches and describing the microfabrication processes that transform Silicon into 3D resonating microstructures. Proposed MEMS transducers modeling methodologies include analytical [...]

Course unit contents This course explores Micro-Electro-Mechanical Systems (MEMS) for biomedical imaging and their integration into next-generation diagnostic systems, focusing on ultrasound and Terahertz (THz) radiation. The curriculum provides the analytical and methodological tools required to design, model, and characterize MEMS-based transducers for ultrasound imaging and Terahertz imaging for clinical applications. The course introduces biomedical imaging techniques, describing the primary role of MEMS devices in both traditional and emerging imaging modalities. The program covers MEMS technology, discussing different modeling approaches and describing the microfabrication processes that transform Silicon into 3D resonating microstructures. Proposed MEMS transducers modeling methodologies include analytical [...]

July 17, 2016 @ 8:00 am
July 17, 2019 @ 5:00 pm

Course unit contents This course explores Micro-Electro-Mechanical Systems (MEMS) for biomedical imaging and their integration into next-generation diagnostic systems, focusing on ultrasound and Terahertz (THz) radiation. The curriculum provides the analytical and methodological tools required to design, model, and characterize MEMS-based transducers for ultrasound imaging and Terahertz imaging for clinical applications. The course introduces biomedical imaging techniques, describing the primary role of MEMS devices in both traditional and emerging imaging modalities. The program covers MEMS technology, discussing different modeling approaches and describing the microfabrication processes that transform Silicon into 3D resonating microstructures. Proposed MEMS transducers modeling methodologies include analytical [...]

July 17, 2016 @ 8:00 am
July 17, 2019 @ 5:00 pm