Annalisa Manera: Katalogdaten im Frühjahrssemester 2025

NameFrau Prof. Dr. Annalisa Manera
NamensvariantenA. Manera
LehrgebietNukleare Sicherheit und Mehrphasenströmungen
Adresse
Nuclear Safety & Multiphase Flows
ETH Zürich, ML K 13
Sonneggstrasse 3
8092 Zürich
SWITZERLAND
Telefon+41 44 633 87 76
E-Mailmaneraa@ethz.ch
DepartementMaschinenbau und Verfahrenstechnik
BeziehungOrdentliche Professorin

NummerTitelECTSUmfangDozierende
151-0123-00LExperimental Methods for Engineers4 KP2V + 2UF. Coletti, M. Lukatskaya, A. Manera, D. J. Norris, O. Supponen, M. Tibbitt
KurzbeschreibungThe course presents an overview of measurement tasks in engineering environments. Different concepts for the acquisition and processing of typical measurement quantities are introduced. Following an initial in-class introduction, laboratory exercises from different application areas (especially in thermofluidics, energy, and process engineering) are attended by students in small groups.
LernzielIntroduction to various aspects of measurement techniques, with particular emphasis on thermo-fluidic, energy, and process-engineering applications.

Understanding of various sensing technologies and analysis procedures.

Exposure to typical experiments, diagnostics hardware, data acquisition, and processing.

Study of applications in the laboratory. Fundamentals of scientific documentation and reporting.
InhaltIn-class introduction to representative measurement techniques in the research areas of the participating institutes (fluid dynamics, energy technology, and process engineering).

Student participation in ~6 laboratory experiments (study groups of ~3 students, dependent on the number of course participants and available experiments).

Lab reports for all attended experiments have to be submitted by the study groups.
SkriptPresentations, handouts, and instructions are provided for each experiment.
LiteraturHolman, J.P. "Experimental Methods for Engineers," McGraw-Hill 2001, ISBN 0-07-366055-8
Morris, A.S. & Langari, R. "Measurement and Instrumentation," Elsevier 2011, ISBN 0-12-381960-4
Eckelmann, H. "Einführung in die Strömungsmesstechnik," Teubner 1997, ISBN 3-519-02379-2
Voraussetzungen / BesonderesBasic understanding in the following areas:
- fluid mechanics, thermodynamics, heat and mass transfer
- electrical engineering / electronics
- numerical data analysis and processing (e.g. using MATLAB)
KompetenzenKompetenzen
Fachspezifische KompetenzenKonzepte und Theoriengeprüft
Verfahren und Technologiengeprüft
Methodenspezifische KompetenzenAnalytische Kompetenzengefördert
Entscheidungsfindunggefördert
Medien und digitale Technologiengefördert
Problemlösunggefördert
Projektmanagementgefördert
Soziale KompetenzenKommunikationgefördert
Kooperation und Teamarbeitgeprüft
Menschenführung und Verantwortunggefördert
Persönliche KompetenzenKritisches Denkengefördert
Selbststeuerung und Selbstmanagement gefördert
151-0156-00LTechnology and Safety of Nuclear Power Plants Information
Note: The previous course title until FS22 "Safety of Nuclear Power Plants".
6 KP4V + 1UA. Manera
KurzbeschreibungKnowledge about safety concepts and requirements of nuclear power plants and their implementation in deterministic safety concepts and safety systems. Knowledge about behavior under accident conditions and about the methods of probabilistic risk analysis and how to handle results. Introduction into key elements of the enhanced safety of nuclear systems for the future.
LernzielDeep understanding of safety requirements, concepts and system of nuclear power plants, knowledge of deterministic and probabilistic methods for safety analysis, aspects of nuclear safety research, licensing of nuclear power plant operation. Overview on key elements of the enhanced safety of nuclear systems for the future.
Inhalt(1) Introduction into the specific safety issues of nuclear power plants, main facts of health effects of ionizing radiation, defense in depth approach. (2) Reactor protection and reactivity control, reactivity induced accidents (RIA). (3) Loss-of-coolant accidents (LOCA), emergency core cooling systems. (4) Short introduction into severe accidents (Beyond Design Base Accidents, BDBA). (5) Probabilistic risk analysis (PRA level 1,2,3). (6) Passive safety systems. (7) Safety of innovative reactor concepts.
SkriptScript:
Hand-outs of lecture slides will be distributed
Script "Short introduction into basics of nuclear power"
LiteraturS. Glasston & A. Sesonke: Nuclear Reactor Engineering, Reactor System Engineering, Ed. 4, Vol. 2., Chapman & Hall, NY, 1994
Voraussetzungen / BesonderesPrerequisites:
Recommended in advance (not binding): 151-0163-00L Nuclear Energy Conversion
151-0238-00LThermodynamics III3 KP2V + 1UA. Manera
KurzbeschreibungIntroduction to the fundamentals of heat transfer and technical applications of engineering thermodynamics. Extension of thermodynamic fundamentals taught in Thermodynamics I and II.
LernzielIntroduction to the theory and to the fundamentals of the technical thermodynamics. Main focus: Heat transfer.
InhaltGeneral mechanisms of heat transfer. Introduction to heat conductivity. Stationary 1-D and 2-D heat conduction. Instationary conduction. Convection. Forced convection - flow around and through bodies. Natural convection. Evaporation (boiling) and condensation. Heat Exchangers. Radiation heat transfer. Combined heat transfer.
SkriptSlides and lecture notes in English.
LiteraturF.P. Incropera, D.P. DeWitt, T.L. Bergman, and A.S. Lavine, Fundamentals of Heat and Mass Transfer, John Wiley & Sons, 6th edition, 2006.
KompetenzenKompetenzen
Fachspezifische KompetenzenKonzepte und Theoriengeprüft