Dissipation Elements at the Flame Surface in Methane Diffusion Flame (B. Hentschel and D. Denker)

Flame in Slotburner (S. Kruse)

Particle Charged Flow (E. Varea)

DNS of a scaled-up Diesel injector

Dissipation Element Analysis of Methane Diffusion Flame (D. Denker)

DNS of a scaled-up Diesel injector (M. Bode)

Quartz nozzle sampling in a methane counterflow flame (M. Baroncelli)

Oxyfuel coal combustion in a hot gas stream (D. Felsmann)

Turbulent/non-turbulent interface in high Reynolds number Jet (D. Denker and B. Hentschel)

Technical Combustion

Lecture Summer Term 09
Wednesdays, 10:00 bis 11:30 a. m., WK
Mittwoch, 04:30 bis 05:15 Uhr p. m., AS

Exercise Summer Term 09
Tuesdays, 08:15 bis 09:45 a. m., Fo 2

Scripts can be found in the e-learning services L²P

Please sign in for the exercise in Campus Office. You can only get access to the virtual classroom for the exercise if you are signed in.

A large part of our energy resources is stored chemically, for example in form of coal, petrol or natural gas. These stored energies can be made useable through combustion.

The lecture's primary focus therfore lies on the observation of combustion processes from the thermodynamic viewpoint. For this purpose, the following topics are discussed:D:

Balance of material and energy at infinitely fast chemical reactions and calculations of the chemical equlibrium.

In the following part chemical conversions with finite reaction rates are considered. Among them:
Gross and elementary reactions, kinetcis of gas reactions, chain-reaction mechanisms, ignition and discharge processes in homogenous systems.

In the third part, the balance equations for reacting flows are deduced initially. Then laminar and turbulent premixed flames, as well as diffusion flames, and their application in engine combustion or firings, respectively, are introduced. Finally, the combustion of single drops is considered.

Office Hours

Nach Anmeldung, Dienstags 14:00-15:00

Klausursprechstunden im WS 12/13
Ab dem 15. 1. jeden Dienstag und Donnerstag ab 14:00 in der Bibliothek des Instituts.


8. 2. ab 17:30 Uhr

Diplomprüfung Technische Verbrennung: Fo3
Bachelor/Masterprüfung Technische Verbrennung I:
Matrikelnummern 272521-292888 im Hörsaal Fo2;
Matrikelnummern 292912-317220 im Roten Hörsaal.

Notenbekanntgabe: 22. 2.
Einsicht: 25. 2. 14:00 Seminarraum ITV
Mündliche Prüfungen: Voraussichtlich ab dem 28. 2.