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Lecture: High heat load components in nuclear fusion devices - Details

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Lehrveranstaltung wird online/digital abgehalten. Online/Digitale Veranstaltung High heat load components in nuclear fusion devices

General information

Semester SS 2020
Home institute Lehrstuhl für Experimentelle Plasmaphysik
Courses type Lecture in category Teaching
First appointment Thu , 23.04.2020 14:00 - 15:30
Pre-requisites recommended: module 'Plasmaphysik und Fusionsforschung'
Performance record Oral examination for entire module (30 min, 6 CP), i.e. on both lectures 'Fundamentals of plasma material interactions' (winter term) and 'High heat load components in nuclear fusion devices' (summer term)
Online/Digitale Veranstaltung Veranstaltung wird online/digital abgehalten.
Hauptunterrichtssprache englisch
Literaturhinweise P. Stangeby: The plasma boundary of magnetic fusion devices (IOP, 2000)
R. Clark, D. Reiter (Eds.): Nuclear Fusion Research, Understanding Plasma-Surface Interactions (Springer, 2005)
M. Turnyanskiy et al.: European roadmap to the realization of fusion energy: Mission for solution on heat-exhaust systems, Fusion Engineering and Design (2015)
V. A. Evtikhin et al.: Lithium divertor concept and results of supporting experiments, Plasma Phys. Control. Fusion 44, 955 (2002)
T. Hirai et al.: ITER tungsten divertor design development and qualification program, Fusion Eng. Des. 88, 1798 (2013)
A. R. Raffray et al.: High heat flux components - Readiness to proceed from near term fusion systems to power plants, Fusion Eng. Des. 85, 93 (2010)
Miscellanea Form of digital teaching:
Information on the form of digital teaching during the summer term 2020 will be announced via the course forum.

General remarks:
- This module is suitable as an extension to the module 'Plasmaphysik und Fusionsforschung'.
- The two lectures of this module can be followed in an arbitrary order. Thus, the module can be started at a summer or winter term.

Lecture contents:
Interdependency of material choices and fusion performance
Material choices and technologies for power exhaust in a fusion power plant
Migration of materials in a fusion plasma
Diagnostics for plasma material interaction in fusion devices (in situ and post mortem)
Numerical methods for studying plasma material interaction
ECTS points 6 (for entire module)

Lecturers

Tutor

Times

Thursday: 14:00 - 15:30, weekly (from 23/04/20)

Course location

T-2004 or digital/online

Fields of study

admission settings

The course is part of admission "Zeitgesteuerte Anmeldung aufgrund Onlinelehre".
Please contact the tutor or the lecturer of the course if you want to register after the end of the registration period.
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  • Enrollment possible from 16.04.2020, 00:00 to 21.04.2020, 23:59.

attendance

Current number of participants 2