Lehrinhalte
Introduction
Thunderstorms and Cloadclassification, formation and electrification
Lightning, terminology, types, charge transfer, typical parameters
Streamer- leader process, inception and development in large gaps
Electric and magnetic fields in vicinity of lightning discharge
Return stroke models, charge distributions and neutralization
The Finite-Difference Time Domain Method for solving Maxwells equations
Lightning location, the technical use of field information
Lightning effects in the middle and upper atmosphere
Lightning hazard and deleterious effects
Lightning protection and related threats, historical overview, standards and present lightning protection concepts
Outer lightning protection, Lightning rods, down conductors, grounding systems, potential bonding and separation distances
Inner lightning protection, surge protection devices, installation, test standards
Lightning protection on transmission lines, faults and effects, calculation of outage rates and opportunities of improvement
Lightning and surge protection for wind turbines
Literature
Lecture slides and other information material supporting the lecture can be downloaded from the HST-Homepage: http://www.hst.tu-darmstadt.de. IEC test standards can be leant out for use during the lecturer time.
Blitz und Blitzschutz, F. Heidler, K. Stimper,
ISBN 978-3-8007-2974-6
Handbuch für Blitzschutz und Erdung, P. Hasse, J. Wiesinger, W. Zischank,
ISBN 978-3-7905-0657-0
Blitzschutzanlagen: Erlauterungen zu DIN 57 185/VDE 0185, VDE-Verlag,
ISBN 978-3-8007-1303-9
Lightning, Physics and Effects, V.A. Rakov, M.A. Uman,
ISBN 978-0-521-03541-5
Lightning Physics and Lightning Protection, E.M. Bazelyan, Y.P. Raizer,
ISBN 978-0-750-30477-1
Electromagnetic Computation Methods for Lightning Surge Protection Studies, Y. Baba, V.A. Rakov,
ISBN 978-1-118-27563-4
Lightning Electromagentics, V. Cooray,
ISBN 978-1-84919-215-6
Lightning: Principles, Instruments and Application, H.D. Betz, U. Schumann, P. Laroche,
ISBN 978-1-4020-9078-3
Voraussetzungen
Empfohlen wird: BSc ETiT, BSc Wi-ETiT
Further Grading Information
More information is available here: [url]https://www.hst.tu-darmstadt.de/lehre_hst/so_se_hst/blitze_hst/index.en.jsp[/url]
Online-Angebote
Moodle
Introduction
Thunderstorms and Cloadclassification, formation and electrification
Lightning, terminology, types, charge transfer, typical parameters
Streamer- leader process, inception and development in large gaps
Electric and magnetic fields in vicinity of lightning discharge
Return stroke models, charge distributions and neutralization
The Finite-Difference Time Domain Method for solving Maxwells equations
Lightning location, the technical use of field information
Lightning effects in the middle and upper atmosphere
Lightning hazard and deleterious effects
Lightning protection and related threats, historical overview, standards and present lightning protection concepts
Outer lightning protection, Lightning rods, down conductors, grounding systems, potential bonding and separation distances
Inner lightning protection, surge protection devices, installation, test standards
Lightning protection on transmission lines, faults and effects, calculation of outage rates and opportunities of improvement
Lightning and surge protection for wind turbines
Literature
Lecture slides and other information material supporting the lecture can be downloaded from the HST-Homepage: http://www.hst.tu-darmstadt.de. IEC test standards can be leant out for use during the lecturer time.
Blitz und Blitzschutz, F. Heidler, K. Stimper,
ISBN 978-3-8007-2974-6
Handbuch für Blitzschutz und Erdung, P. Hasse, J. Wiesinger, W. Zischank,
ISBN 978-3-7905-0657-0
Blitzschutzanlagen: Erlauterungen zu DIN 57 185/VDE 0185, VDE-Verlag,
ISBN 978-3-8007-1303-9
Lightning, Physics and Effects, V.A. Rakov, M.A. Uman,
ISBN 978-0-521-03541-5
Lightning Physics and Lightning Protection, E.M. Bazelyan, Y.P. Raizer,
ISBN 978-0-750-30477-1
Electromagnetic Computation Methods for Lightning Surge Protection Studies, Y. Baba, V.A. Rakov,
ISBN 978-1-118-27563-4
Lightning Electromagentics, V. Cooray,
ISBN 978-1-84919-215-6
Lightning: Principles, Instruments and Application, H.D. Betz, U. Schumann, P. Laroche,
ISBN 978-1-4020-9078-3
Voraussetzungen
Empfohlen wird: BSc ETiT, BSc Wi-ETiT
Further Grading Information
More information is available here: [url]https://www.hst.tu-darmstadt.de/lehre_hst/so_se_hst/blitze_hst/index.en.jsp[/url]
Online-Angebote
Moodle
- Lehrende: Martin Hannig
- Lehrende: Tobias Trautmann
Semester: ST 2022