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Gasturbines and Thermoacoustics

Gasturbine
 
Flammeninstabilität
 

The lecture "Gasturbines and Thermoacoustics" takes place in the winter semester and consists of 4 blocks. Each block lasts for 3 to 4 days.

Registration is not required.

The lecture notes will be provided on the corresponding ISIS website some time before the block starts. The required password will be announced in the first block or can be requested at the responsible PhD student (see contact below).

Dates:

Part 1:

Lecturer: Valter Bellucci (Winterthur Gas & Diesel)

Time:

 

19.10.2016: 16:00 o'clock-20:00 o'clock;

20.10.2016: 16:00 o'clock-20:00 o'clock;

21.10.2016: 08:00 o'clock-12:00 o'clock;

 

Locations:

19.10.2016: MB 13

20.10.2016: MB 13

21.10.2016: H 3007

Part 2:

Lecturer: Felix Güthe (GE Power, Baden)

Time: 

 

07.11.2016: 16:00 o'clock-20:00 o'clock;

08.11.2016: 16:00 o'clock-20:00 o'clock;

09.11.2016: 16:00 o'clock-20:00 o'clock;

 

Location

 

07.11.2016: MB 13

08.11.2016: H 0111

09.11.2016: MB 13

Part 3:

Lecturer: Mirko Bothien (Ansaldo Energia)

Time:

30.11.2016: 16:00 o'clock-20:00 o'clock;

01.12.2016: 16:00 o'clock-20:00 o'clock;

02.12.2016: 16:00 o'clock-20:00 o'clock;

Location

30.11.2016: MB 13

01.12.2016: MB 13

02.12.2016: MB 13

Part 4:

Lecturer: Werner Krebs (Siemens AG Power Generation)

Time: 

 

09.01.2017: 16:00 o'clock-20:00 o'clock;

10.01.2017: 16:00 o'clock-20:00 o'clock;

11.01.2017: 16:00 o'clock-20:00 o'clock;

12.01.2017: 16:00 o'clock-20:00 o'clock;

 

Location:

09.01.2017: MB 13

10.01.2017: MB 13

11.01.2017: MB 13

12.01.2017: MB 13

Content:

  • gasturbine basics
  • thermodynamic cycles
  • aeroengines and stationary gasturbines
  • compressor and turbine
  • cooling and secondary air flow systems
  • operation and control of gasturbines
  • Combustors (fuel injection, different types of fuel, combustor aerodynamics, flame stabilization: aerodynamic stabilization, swirl-stabilized flames)
  • combustion basics (premixed and non-premixed flames, flame speed, emissions, mixing, reaction kinetics, heat transfer)
  • acoustic basics (wave propagation, entropy waves, acoustic characterization of combustors, sources of sound)
  • acoustic measurement methods
  • thermoacoustic instabilities (basics, generation, analysis, modeling, control)

Requirements:

Funded knowledge of thermodynamics and fluid mechanics advantageous.

Details:

Integrated lecture, 2 STE (4 SWS), 6 ECTS credits

Exam: oral exam with Prof. Paschereit (also in English)

Lecture notes: presentation slides as PDF

Contact:

Tim Rähse, M.Sc.

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