Experimental investigation of airflow and spray stability in an air-blast injector of an industrial gas turbine

Secãreanu, Andrei; Stankovic, Dragan; Fuchs, Laszlo; Milosavljevic, Vladimir; Holmborn, Jonas

Experimental investigation of airflow and spray stability in an air-blast injector of an industrial gas turbine

Mark

Secãreanu, Andrei ^LU ; Stankovic, Dragan ^LU ; Fuchs, Laszlo ^LU ; Milosavljevic, Vladimir and Holmborn, Jonas (2004) 2004 ASME Turbo Expo 1. p.615-622

Abstract: The airflow field and spray characteristics from an air blast type of injector in an industrial gas turbine (GT) combustor geometry have been investigated experimentally and numerically. The flame in the current combustor is stabilized by a highly swirling flow. The stabilization of the flame is strongly dependent on the stability of the flow field out from the injector and into the combustor. Liquid fuel spray formation in the current type of injector is highly dependent on the airflow from the internal swirler, which supplies the shear to break the liquid film, and form the spray. Experiments were performed in a Perspex model of a 12

Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/614135

author

Secãreanu, Andrei ^LU ; Stankovic, Dragan ^LU ; Fuchs, Laszlo ^LU ; Milosavljevic, Vladimir and Holmborn, Jonas

organization

Fluid Mechanics

publishing date

2004

type

Chapter in Book/Report/Conference proceeding

publication status

published

subject

Fluid Mechanics and Acoustics

keywords

Vortex breakdown, Cross-sections, Design complexity, Air-blast injectors

host publication

Proceedings of the ASME Turbo Expo 2004

volume

1

pages

615 - 622

publisher

American Society Of Mechanical Engineers (ASME)

conference name

2004 ASME Turbo Expo

conference location

Vienna, Austria

conference dates

2004-06-14 - 2004-06-17

external identifiers

scopus:10244259282

language

English

LU publication?

yes

id

850a3859-0a9a-45a1-9730-c2af189d8a21 (old id 614135)

alternative location

http://www.powergeneration.siemens.com/NR/rdonlyres/8C477E02-39DA-4565-8756-0632F5A28764/0/2_Experimental_Investigation.pdf

date added to LUP

2016-04-04 12:17:48

date last changed

2022-03-16 00:35:21

@inproceedings{850a3859-0a9a-45a1-9730-c2af189d8a21,
  abstract     = {{The airflow field and spray characteristics from an air blast type of injector in an industrial gas turbine (GT) combustor geometry have been investigated experimentally and numerically. The flame in the current combustor is stabilized by a highly swirling flow. The stabilization of the flame is strongly dependent on the stability of the flow field out from the injector and into the combustor. Liquid fuel spray formation in the current type of injector is highly dependent on the airflow from the internal swirler, which supplies the shear to break the liquid film, and form the spray. Experiments were performed in a Perspex model of a 12}},
  author       = {{Secãreanu, Andrei and Stankovic, Dragan and Fuchs, Laszlo and Milosavljevic, Vladimir and Holmborn, Jonas}},
  booktitle    = {{Proceedings of the ASME Turbo Expo 2004}},
  keywords     = {{Vortex breakdown; Cross-sections; Design complexity; Air-blast injectors}},
  language     = {{eng}},
  pages        = {{615--622}},
  publisher    = {{American Society Of Mechanical Engineers (ASME)}},
  title        = {{Experimental investigation of airflow and spray stability in an air-blast injector of an industrial gas turbine}},
  url          = {{http://www.powergeneration.siemens.com/NR/rdonlyres/8C477E02-39DA-4565-8756-0632F5A28764/0/2_Experimental_Investigation.pdf}},
  volume       = {{1}},
  year         = {{2004}},
}

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Experimental investigation of airflow and spray stability in an air-blast injector of an industrial gas turbine