Direct determination of the turbulent flux by simultaneous application of filtered Rayleigh scattering thermometry and particle image velocimetry

Research output: Contribution to conferencePaperResearchpeer review

Authors

  • Dieter Most
  • Friedrich Dinkelacker
  • Alfred Leipertz

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Details

Original languageEnglish
Pages80
Number of pages1
Publication statusPublished - 2002
Event29th International Symposium on Combustion - Sapporo, Japan
Duration: 21 Jul 200226 Jul 2002

Conference

Conference29th International Symposium on Combustion
Country/TerritoryJapan
CitySapporo
Period21 Jul 200226 Jul 2002

Abstract

In a moderate turbulent and in a highly turbulent premixed CH4/air flame, two-dimensional simultaneous measurements of instantaneous velocity, temperature and density were performed using particle image velocimetry (P1V) and planar filtered Rayleigh scattering thermometry (FRS thermometry). Measurements indicated the existence of counter-gradient transport in the highly turbulent bluff-body stabilized flame while in the wire stabilized flame type with moderate turbulence, the Favre mean turbulent flux (FMTF) was fluctuating around zero. The direct FMTF determination was tested against other models of the turbulent flux using either a scalar gradient approach or binary conditioned velocity data following the thin flame approach of the BML model. Only the latter one showed good agreement with the direct FMTF determination but resulted in more noisy data. In the bluff-body stabilized flame from two-dimensional plots of the axial FMTF regions with either dominant gradient or dominant counter-gradient diffusion could be identified within the same flame. Original is an abstract.

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Cite this

Direct determination of the turbulent flux by simultaneous application of filtered Rayleigh scattering thermometry and particle image velocimetry. / Most, Dieter; Dinkelacker, Friedrich; Leipertz, Alfred.
2002. 80 Paper presented at 29th International Symposium on Combustion, Sapporo, Japan.

Research output: Contribution to conferencePaperResearchpeer review

Most, D, Dinkelacker, F & Leipertz, A 2002, 'Direct determination of the turbulent flux by simultaneous application of filtered Rayleigh scattering thermometry and particle image velocimetry', Paper presented at 29th International Symposium on Combustion, Sapporo, Japan, 21 Jul 2002 - 26 Jul 2002 pp. 80.
Most, D., Dinkelacker, F., & Leipertz, A. (2002). Direct determination of the turbulent flux by simultaneous application of filtered Rayleigh scattering thermometry and particle image velocimetry. 80. Paper presented at 29th International Symposium on Combustion, Sapporo, Japan.
Most D, Dinkelacker F, Leipertz A. Direct determination of the turbulent flux by simultaneous application of filtered Rayleigh scattering thermometry and particle image velocimetry. 2002. Paper presented at 29th International Symposium on Combustion, Sapporo, Japan.
Most, Dieter ; Dinkelacker, Friedrich ; Leipertz, Alfred. / Direct determination of the turbulent flux by simultaneous application of filtered Rayleigh scattering thermometry and particle image velocimetry. Paper presented at 29th International Symposium on Combustion, Sapporo, Japan.1 p.
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abstract = "In a moderate turbulent and in a highly turbulent premixed CH4/air flame, two-dimensional simultaneous measurements of instantaneous velocity, temperature and density were performed using particle image velocimetry (P1V) and planar filtered Rayleigh scattering thermometry (FRS thermometry). Measurements indicated the existence of counter-gradient transport in the highly turbulent bluff-body stabilized flame while in the wire stabilized flame type with moderate turbulence, the Favre mean turbulent flux (FMTF) was fluctuating around zero. The direct FMTF determination was tested against other models of the turbulent flux using either a scalar gradient approach or binary conditioned velocity data following the thin flame approach of the BML model. Only the latter one showed good agreement with the direct FMTF determination but resulted in more noisy data. In the bluff-body stabilized flame from two-dimensional plots of the axial FMTF regions with either dominant gradient or dominant counter-gradient diffusion could be identified within the same flame. Original is an abstract.",
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T1 - Direct determination of the turbulent flux by simultaneous application of filtered Rayleigh scattering thermometry and particle image velocimetry

AU - Most, Dieter

AU - Dinkelacker, Friedrich

AU - Leipertz, Alfred

N1 - Funding Information: The authors gratefully acknowledge financial support of the Deutsche Forschungsgemeinschaft.

PY - 2002

Y1 - 2002

N2 - In a moderate turbulent and in a highly turbulent premixed CH4/air flame, two-dimensional simultaneous measurements of instantaneous velocity, temperature and density were performed using particle image velocimetry (P1V) and planar filtered Rayleigh scattering thermometry (FRS thermometry). Measurements indicated the existence of counter-gradient transport in the highly turbulent bluff-body stabilized flame while in the wire stabilized flame type with moderate turbulence, the Favre mean turbulent flux (FMTF) was fluctuating around zero. The direct FMTF determination was tested against other models of the turbulent flux using either a scalar gradient approach or binary conditioned velocity data following the thin flame approach of the BML model. Only the latter one showed good agreement with the direct FMTF determination but resulted in more noisy data. In the bluff-body stabilized flame from two-dimensional plots of the axial FMTF regions with either dominant gradient or dominant counter-gradient diffusion could be identified within the same flame. Original is an abstract.

AB - In a moderate turbulent and in a highly turbulent premixed CH4/air flame, two-dimensional simultaneous measurements of instantaneous velocity, temperature and density were performed using particle image velocimetry (P1V) and planar filtered Rayleigh scattering thermometry (FRS thermometry). Measurements indicated the existence of counter-gradient transport in the highly turbulent bluff-body stabilized flame while in the wire stabilized flame type with moderate turbulence, the Favre mean turbulent flux (FMTF) was fluctuating around zero. The direct FMTF determination was tested against other models of the turbulent flux using either a scalar gradient approach or binary conditioned velocity data following the thin flame approach of the BML model. Only the latter one showed good agreement with the direct FMTF determination but resulted in more noisy data. In the bluff-body stabilized flame from two-dimensional plots of the axial FMTF regions with either dominant gradient or dominant counter-gradient diffusion could be identified within the same flame. Original is an abstract.

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