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Experiments in Fluids
Erschienen in: Experiments in Fluids 2/2008

01.02.2008 | Research Article

High-resolution imaging of dissipative structures in a turbulent jet flame with laser Rayleigh scattering

verfasst von: Jonathan H. Frank, Sebastian A. Kaiser

Erschienen in: Experiments in Fluids | Ausgabe 2/2008

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Abstract

High-resolution 2-D imaging of laser Rayleigh scattering is used to measure the detailed structure of the thermal dissipation field in a turbulent non-premixed CH4/H2/N2 jet flame. Measurements are performed in the near field (x/d = 5–20) of the flame where the primary combustion reactions interact with the turbulent flow. The contributions of both the axial and radial gradients to the mean thermal dissipation are determined from the 2-D dissipation measurements. The relative contributions of the two components vary significantly with radial position. The dissipation field exhibits thin layers of high dissipation. Noise suppression by adaptive smoothing enables accurate determination of the dissipation-layer widths from single-shot measurements. Probability density functions (PDF) of the dissipation-layer widths conditioned on temperature are approximately log-normal distributions. The conditional layer width PDFs are self-similar functions with the layer widths scaling with temperature to the 0.75 power. The high signal-to-noise ratio of the Rayleigh scattering images coupled with an interlacing technique for noise suppression enable fully resolved measurements of the mean power spectral density (PSD) of the temperature gradients. These spectra are used to determine the turbulence microscales by measuring a cutoff wavelength, λ C , at 2% of the peak PSD. The Batchelor scale is estimated from λ C , and the results are compared with estimates from scaling laws in non-reacting flows. At x/d = 20, the different approaches to determining the Batchelor scale are comparable on the jet centerline. However, the estimates from non-reacting flow scaling laws are significantly less accurate in off-centerline regions and at locations closer to the nozzle exit. Throughout the near field of the jet flame, the measured ratio of a characteristic dissipation-layer width to the local Batchelor scale is larger than values previously reported for the far field of non-reacting flows.
Vorheriger Artikel Investigations on LED illumination for micro-PIV including a novel front-lit configuration
Nächster Artikel Measurement of ambient fluid entrainment during laminar vortex ring formation

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Literatur
Bergmann V, Meier W, Wolff D, Stricker D (1998) Application of spontaneous Raman and Rayleigh scattering and 2D LIF for the characterization of a turbulent CH4/H2/N2 jet diffusion flame. Appl Phys B 66:489–502CrossRef
Buch KA, Dahm WJA (1998) Experimental study of the fine-scale structure of conserved scalar mixing in turbulent shear flows. Part 2. Sc ≈ 1. J Fluid Mech 364:1–29MATHCrossRef
Ewing D, Hussein HJ, George WK (1995) Spatial resolution of parallel hot-wire probes for derivative measurements. Exp Thermal Fluid Sci 11:155–173CrossRef
Fielding J, Schaffer AM, Long MB (1998) Three-scalar imaging in turbulent non-premixed flames of methane. Proc Combust Inst 28:1007–1014
Frank JH, Lyons KM, Marran DF, Long MB, Stårner SH, Bilger RW (1994) Mixture fraction imaging in turbulent nonpremixed hydrocarbon flames. Proc Combust Inst 25:1159–1166
Frank JH, Kaiser SA, Long MB (2002) Reaction-rate, mixture-fraction, and temperature imaging in turbulent methane/air jet flames. Proc Combust Inst 29:2687–2694CrossRef
Frank JH, Kaiser SA, Long MB (2005) Multiscalar imaging in partially premixed jet flames with argon dilution. Combust Flame 143:507–523CrossRef
Geyer D (2004), 1D Raman/Rayleigh experiments in a turbulent opposed-jet. Dissertation, Technische Universität Darmstadt, Germany
Kaiser SA, Frank JH (2007) Imaging of dissipative structures in the near field of a turbulent non-premixed jet flame. Proc Combust Inst 31:1515–1523CrossRef
Karpetis AN, Barlow RS (2002) Measurements of scalar dissipation in a turbulent piloted methane/air jet flame. Proc Combust Inst 29:1929–1936CrossRef
Karpetis AN, Barlow RS (2005) Measurements of flame orientation and scalar dissipation in turbulent partially premixed methane flames. Proc Combust Inst 30:665–672CrossRef
Kelman JB, Masri AR, Stårner SH, Bilger RW (1994) Wide-field conserved scalar imaging in turbulent diffusion flames by a Raman and Rayleigh method. Proc Combust Inst 25:1141–1147
Kothnur PS, Tsurikov MS, Clemens NT, Donbar JM, Carter CD (2002) Planar imaging of OH, CH, and velocity in turbulent non-premixed jet flames. Proc Combust Inst 29:1921–1927CrossRef
Meier W, Barlow RS, Chen YL, Chen JY (2000), Raman/Rayleigh/LIF measurements in a turbulent CH4/H2/N2 jet diffusion flame: experimental techniques and turbulence–chemistry interaction. Combust Flame 123:326–343CrossRef
Mi J, Nathan GJ (2003) The influence of probe resolution on the measurement of a passive scalar and its derivatives. Exp Fluids 34:687–696CrossRef
Pope SB (2000) Turbulent Flows. Cambridge University Press, New YorkMATH
Rehm JE, Clemens NT (1998) The relationship between vorticity/strain and reaction zone structure in turbulent non-premixed jet flames. Proc Combust Inst 27:1113–1120
Schneider C, Dreizler A, Janicka J, Hassel EP (2003) Flow field measurements of stable and locally extinguishing hydrocarbon-fuelled jet flames. Combust Flame 135:185–190CrossRef
Stårner SH, Bilger RW, Lyons KM, Frank JH, Long MB (1994) Conserved scalar measurements in turbulent diffusion flames by a Raman and Rayleigh ribbon imaging method. Combust Flame 99:347–354CrossRef
Su LK, Clemens NT (1999) Planar measurements of the full three-dimensional scalar dissipation rate in gas-phase turbulent flows. Exp Fluids 27:507–521CrossRef
Su LK, Clemens NT (2003) The structure of fine-scale scalar mixing in gas-phase planar turbulent jets. J Fluid Mech 488:1–29MATHCrossRef
Tsurikov MS, Clemens NT (2002) The structure of dissipative scales in axisymmetric turbulent gas-phase jets. In: 40th Aerospace Science Meeting, AIAA paper, 164
Wang GH, Clemens NT (2004) Effects of imaging system blur on measurements of flow scalars and scalar gradients. Exp Fluids 37: 194–205
Wang GH, Clemens NT, Varghese PL (2005a) Two-point, high-repetition-rate Rayleigh thermometry in flames: techniques to correct for apparent dissipation induced by noise. Appl Opt 44:6741–6751CrossRef
Wang GH, Clemens NT, Varghese PL (2005b) High-repetition rate measurements of temperature and thermal dissipation in a non-premixed turbulent jet flame. Proc Combust Inst 30:691–699CrossRef
Wang GH, Barlow RS, Clemens NT (2007) Quantification of resolution and noise effects on thermal dissipation measurements in turbulent non-premixed jet flames. Proc Combust Inst 31:1525–1532CrossRef
Metadaten
Titel
High-resolution imaging of dissipative structures in a turbulent jet flame with laser Rayleigh scattering
verfasst von
Jonathan H. Frank
Sebastian A. Kaiser
Publikationsdatum
01.02.2008
Verlag
Springer-Verlag
Erschienen in
Experiments in Fluids / Ausgabe 2/2008
Print ISSN: 0723-4864
Elektronische ISSN: 1432-1114
DOI
https://doi.org/10.1007/s00348-007-0396-x

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