Abstract, In this course, one acquires an understanding of the basic neutronics . Literature, P. HENRY: Turbomachines hydrauliques – Choix illustré de. 53 cours, corrigés d’examens et 13 livres pour les élèves ingénieurs de génie mécanique. 19, 9, Turbomachines et Machines hydrauliques, 1 cours. 10 janv. II/ Fonctionnement général des turbomachines ; paramètres et variables spécifiques Une pompe est destinée à fournir de l’énergie hydraulique à un fluide, sous forme cours des itérations sur la vitesse du son locale.
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In this lecture, turbkmachines and conservation law are applied to derive wave functions for elementary particles. Batteries, compressed air, pumped hydro, thermal storage – Integrated urban systems. Slides, videos and other documents are available on moodle http: We will examine key features and limitations of hydraulique machines as used in accelerator driven sciences like high energy physics, materials and life sciences.
The course presents basic physics ideas underlying the workings of modern accelerators. Quantum mechanics, electrodynamics and special relativity Recommended courses: External irradiation, Internal contamination, compartmental models Physics of computer tomography CT Risk and radiation: Experimental techniques and tools used for working with active materials are discussed in detail.
To acquire hands-on experience with the running of large computer codes in relation to the static analysis of nuclear reactor cores and the multi-physics simulation of nuclear power plant NPP dynamic behaviour. Conservation principles energy, mass, momentum. Deep understanding of the processes associated with core degradation and fuel melting in case of sustained lack of Core Cooling Systems, potential threats to the containment integrity, release and transport of active and inactive materials, the function of the containment, countermeasures mitigating release of radioactive material into the environment accident management measures, back-fitting and extended designassessment of timing and amounts of released radioactive material source term.
Explain the principles of radiation dosimetry.
Hydraulic turbomachines | EPFL
Rational risk and state of our knowledge, Psychological aspects, Ethics and communication Physics of single-photon emission computed tomography SPECT Physics of mammography Receiver operating characteristics ROC and hypothesis testing: Nuclear and particle yhdrauliques Important concepts to start the course: This makes use of the technical and social skills acquired during the master’s program.
The course includes presentations, lecture notes, problem sets and seminars.
The course deals with the important challenges for materials structural and fuel for current and advanced nuclear power plants. Radiation detection and measurement, Glenn F. The main objective of the week internship is to expose master’s students to the industrial work environment within the field of nuclear energy. Students who fulfill the following criteria are allowed to begin with their Master’s Thesis: Life extension and the understanding of fuel behavior under high burn-up conditions is of central importance for current-day NPPs.
An introductory course in the basic concepts of radiation detection and interactions and energy deposition by ionizing radiation in matter, radioisotope production and its applications in medicine, industry and research. Fernandez MoguelB. X-ray production, Radiation-patient interaction, Image detection and display Image quality: The thesis is aimed at enhancing the student’s capability to work independently toward the solution of a theoretical or applied problem.
Explain the basic physics principles that underpin radiotherapy, e. Explain the use of radiation in industrial and research applications. Tritium production 13 Licensing a fusion reactor: The elective project is designed to train the students in the solution of specific engineering problems.
Flyvbjerg, Oxford University Press, For each chapters the theoretical basis are first established and then practical solutions are discussed with the help of recent design examples.
This makes use of the technical and social skills acquired during the master’s programme. Advanced analytical and modeling tools will be introduced for characterization and understanding of irradiation damage, creep, environment effects, etc.
The semester project is designed to train the students in the solution of specific engineering problems. Human visual characteristics and their quantification, Bayesian cost and Ideal model observer, Anthropomorphic model observers, Detection experiments rating, M-AFC, yes-no Physics of positron emission tomography PET Physics of resonance magnetic imaging.
Legal framework, project management and operations methods and tools, cost estimation approaches and methods, nuclear calculations and on-site radiological characterization and inventorying, state-of-the-art technologies for decontamination and dismantling, safety considerations, state-of-the-art practice for radioactive waste treatment, packaging and transport, interface with radioactive waste management and disposal.
The goal of the course is to provide the physics and technology basis for controlled fusion research, from the main elements of plasma physics to the reactor concepts.
Methods and Tools”, G. Explain the interaction mechanisms of ionizing radiation at keV and MeV energies with matter. It covers the several steps of detection, and the detectors, instrumentations and turbommachines methods commonly used in the nuclear field.
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Constitution of the nucleus and discovery of the neutron – Nuclear reactions and radioactivity – Cross sections – Differences between fusion and fission. Only hydrayliques Nuclear Enginering MSc. Book the corresponding module directly at EPFL. Present the basic and common notions needed for describing atomic, nuclear and elementary particle physics.