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Strukturbaum
Keine Einordnung ins Vorlesungsverzeichnis vorhanden.
Veranstaltung ist aus dem Semester
WiSe 2023/24
, Aktuelles Semester: WiSe 2024/25
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Reactive Flows
Sprache: Englisch
Keine Belegung möglich
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(Keine Nummer)
Übung
WiSe 2023/24
2 SWS
jedes 2. Semester
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Lehreinheit:
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Maschinenbau
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ISE/ME M.Sc. 1, ISE/Mechanical Engineering (Master of Science, GME)
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1.
Semester )
- Studienphase : 1. FS
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ISE/ME M.Sc. 2, ISE/Mechanical Engineering (Master of Science, EE, PL, ME)
(
1.
Semester )
- Studienphase : 1. FS
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15 M.Sc.ISE, Mechanical Engineering (Master of Science, M)
(
1.
Semester )
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15 M.Sc.ISE, Mechanical Engineering (Master of Science, EEE)
(
1.
Semester )
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15 M.Sc.ISE, Mechanical Engineering (Master of Science, GME)
(
1.
Semester )
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15 M.Sc. ISE, Mechanical Engineering (Master of Science, SOT - Ship and Offshore Technology)
(
1.
Semester )
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Zugeordnete Lehrperson:
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Schulz
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Termin:
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Dienstag
09:30
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10:30
wöch.
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Raum :
LB 134
LB
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| Kommentar: |
Beschreibung:
Combustion processes are typical high-temperature reactions that are present in a large number of practical applications that arange from the energetiy use of combustion to material synthesis. The understanding of these processes strongly relies on chemical thermodynamics and chemical kinetics. The interaction between reaction and fluid flow is of special interest in reactive gas-phase processes with strong energy release. High temperature gas-phase reactions require the fundamental understanding of radical reactions and complex reaction schemes.
1 Introduction
2 Results of Chemical Thermodynamics
3 Kinetics of Homogeneous and Heterogeneous Reactions
4 General flame phenomena and parameters of combustion technology
5 Theoretical description of reactive flows
6 Combustion waves in homogeneous premixed gases Lernziele:
The students learn to explain and critically review the thermodynamical and kinetics background of high-temperature gas-phase reactions. |
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