Abstract
LDA measurements have been performed in a premixed combustion system with bluff body flame stabilization. The LDA system was optimized to handle the temperature gradient problems in the reacting flows. An extensive amount of data has been collected for several test cases. Results are presented in diagrams and tables of velocities and turbulence parameters. The results show that the recirculation zone is larger for the reacting flow. The non-reacting flow shows a strong vortex shedding that is not present in the reacting flow
Sjunnesson, A;
[1]
Nelsson, C;
Max, E
[2]
- Volvo Flygmotor AB, Gothenburg (Sweden)
- AB Volvo, Gothenburg (Sweden)
Citation Formats
Sjunnesson, A, Nelsson, C, and Max, E.
LDA measurements of velocities and turbulence in a bluff body stabilized flame.
Sweden: N. p.,
1991.
Web.
Sjunnesson, A, Nelsson, C, & Max, E.
LDA measurements of velocities and turbulence in a bluff body stabilized flame.
Sweden.
Sjunnesson, A, Nelsson, C, and Max, E.
1991.
"LDA measurements of velocities and turbulence in a bluff body stabilized flame."
Sweden.
@misc{etde_10117287,
title = {LDA measurements of velocities and turbulence in a bluff body stabilized flame}
author = {Sjunnesson, A, Nelsson, C, and Max, E}
abstractNote = {LDA measurements have been performed in a premixed combustion system with bluff body flame stabilization. The LDA system was optimized to handle the temperature gradient problems in the reacting flows. An extensive amount of data has been collected for several test cases. Results are presented in diagrams and tables of velocities and turbulence parameters. The results show that the recirculation zone is larger for the reacting flow. The non-reacting flow shows a strong vortex shedding that is not present in the reacting flow}
place = {Sweden}
year = {1991}
month = {Dec}
}
title = {LDA measurements of velocities and turbulence in a bluff body stabilized flame}
author = {Sjunnesson, A, Nelsson, C, and Max, E}
abstractNote = {LDA measurements have been performed in a premixed combustion system with bluff body flame stabilization. The LDA system was optimized to handle the temperature gradient problems in the reacting flows. An extensive amount of data has been collected for several test cases. Results are presented in diagrams and tables of velocities and turbulence parameters. The results show that the recirculation zone is larger for the reacting flow. The non-reacting flow shows a strong vortex shedding that is not present in the reacting flow}
place = {Sweden}
year = {1991}
month = {Dec}
}