Analysis of LIF and Mie signals from single micrometric droplets for instantaneous droplet sizing in sprays

Koegl, Matthias; Hofbeck, Bernhard; Baderschneider, Kevin; Mishra, Yogeshwar Nath; Huber, Franz; Berrocal, Edouard; Will, Stefan; Zigan, Lars

doi:10.1364/oe.26.031750

Cited by 25 publications

(54 citation statements)

References 45 publications

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“…The standard deviation in the averaged fluence was approximately 3%. All measurements were performed in the linear regime of fluorescence and the dye concentrations (see Table 1) were chosen to have sufficient fluorescence intensity required for future 2c-LIF (two-color laser-induced fluorescence) thermometry of droplets in ethanol and butanol sprays [41,42]. Note that compared to dye concentration for the thermometry of liquid solutions in a test cell, atomizing sprays or single droplet studies require a relatively higher dye concentration (for better signal to noise ratio) [43,44], especially in two-dye approaches using FL [19].…”

Section: Absorbance Measurementsmentioning

confidence: 99%

Investigation of Five Organic Dyes in Ethanol and Butanol for Two-Color Laser-Induced Fluorescence Ratio Thermometry

Mishra¹,

Yoganantham²,

Koegl³

et al. 2019

Optics

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In this article, we compare absorption and temperature-dependent fluorescence spectra of five organic dyes for 2c-LIF (two-color laser-induced fluorescence) thermometry in ethanol and butanol. The dyes fluorescein, eosin Y, rhodamine B, rhodamine 6G, and sulforhodamine 101 individually mixed in ethanol and butanol were studied at liquid temperatures of 25-65 • C. The self-absorption spectral bands are analyzed along with intensity ratios and the respective sensitivities for one-dye and two-dye 2c-LIF thermometry are deduced. For one-dye 2c-LIF, rhodamine B showed the highest sensitivity of 2.93%/ • C and 2.89%/ • C in ethanol and butanol, respectively. Sulforhodamine 101 and rhodamine 6G showed the least sensitivities of 0.51%/ • C and 1.24%/ • C in ethanol and butanol, respectively. For two-dye 2c-LIF, rhodamine B/sulforhodamine 101 exhibited the highest temperature sensitivities of 2.39%/ • C and 2.54%/ • C in ethanol and butanol, respectively. The dye pair eosin Y/sulforhodamine 101 showed the least sensitivities of 0.15%/ • C and 0.27%/ • C in ethanol and butanol, respectively.

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Section: Absorbance Measurementsmentioning

confidence: 99%

Investigation of Five Organic Dyes in Ethanol and Butanol for Two-Color Laser-Induced Fluorescence Ratio Thermometry

Mishra¹,

Yoganantham²,

Koegl³

et al. 2019

Optics

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“…However, it is worth highlighting that the intensity contribution from the multiply scattered light is very difficult to predict and the observed differences between conventional and SLIPI showed in [21] can change with the collection angle, optical turbidity, droplets size, distribution of the droplets in the spray, etc. Nevertheless, the results reported in [21], have been further demonstrated for absolute droplet SMD mapping in air blast atomizer [22], hollow-cone sprays [23], and direct injection sprays [7,24]. In another study, SLIPI-scan was used for 2D and 3D mapping of the local µ e in an air-assisted spray system with a maximum optical depth OD~3 [25].…”

Section: Of 17mentioning

confidence: 99%

“…The SMD of an ensemble of the spherical droplets in sprays can be calculated from the ratio of their LIF/Mie optical signals simultaneously measured from the same probe location [11,24,31]. The method assumes that the fluorescence from the liquid phase, I LIF , is proportional to the droplet volume, d 3 , and the Mie scattered light intensity, I Mie , from the same droplet is proportional to its surface, d 2 , [32][33][34].…”

Section: Description Of Lif/mie Droplet Sizingmentioning

confidence: 99%

“…Apart from this assumption, three important conditions must be respected. First, the technique is only valid for spherical droplets and it does not withstand for non-spherical liquid structures and ligaments [24,31]. Second, the fluorescence from the gas phase must be excluded [35].…”

Section: Description Of Lif/mie Droplet Sizingmentioning

confidence: 99%

“…Here K defines the calibration curve which is equal to the ratio K LIF /K Mie . The calibration curve can be either deduced by using the calibration of LIF/Mie ratio with the absolute SMD measured by the PDA system [21,22] or calibrating the ratio by means of monodisperse droplet generated by a droplet generator [24,36]. Some residual stripes are seen on the processed SLIPI images.…”

Section: Description Of Lif/mie Droplet Sizingmentioning

confidence: 99%

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Application of SLIPI-Based Techniques for Droplet Size, Concentration, and Liquid Volume Fraction Mapping in Sprays

et al. 2020

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Structured laser illumination planar imaging (SLIPI)-based techniques have been employed during the past decade for addressing multiple light scattering issues in spray imaging. In this article, SLIPI droplet sizing based on the intensity ratio of laser-induced fluorescence (LIF) over Mie scattering (SLIPI-LIF/Mie) and SLIPI-Scan for extinction-coefficient (µ e ) mapping are applied simultaneously. In addition, phase Doppler anemometry (PDA) and numerical calculations based on the Lorenz-Mie theory are also employed in order to extract the droplets Sauter mean diameter (SMD), the droplets number density (N), and the liquid volume fraction (LVF) in a steady asymmetric hollow cone water spray. The SLIPI-LIF/Mie ratio is converted to droplets SMD by means of a calibration procedure based on PDA measurements. The droplet SMD for the investigated spray varies from 20 µm to 60 µm, the N values range from 5 to 60 droplets per mm 3 , and the LVF varies between 0.05 × 10 −4 and 5.5 × 10 −4 within the probed region of the spray. To generate a series of two-dimensional images at different planes, the spray scanning procedure is operated in a "bread slicing" manner by moving the spray perpendicularly to the light sheet axis. From the resulting series of images, the procedure described here shows the possibility of obtaining three-dimensional reconstructions of each scalar quantity, allowing a more complete characterization of droplet clouds forming the spray region.

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Saturated laser-induced fluorescence in liquid kerosene seeded with a dye: influence of temperature and excitation intensity

et al. 2019

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Fluorescence-based techniques are commonly implemented to characterize droplet sprays in flows at temperature above 293 K. Nevertheless, in the case of gas turbine altitude relight, aeroengines are exposed to critical operating conditions where the liquid fuel temperature can reach values as low as-40°C. As a result, it is necessary to address the influence of this parameter on fluorescence intensity for temperatures below room values. In this paper, an innovative SLIF (Saturated Laser-Induced Fluorescence) excitation scheme is proposed in order to overcome the strong temperature dependence of fluorescence in liquid kerosene seeded with a dye. The findings of this work are based on gated sequential images recorded with an intensified camera during and after the laser pulse duration so as to sample the temporal evolution of the fluorescence emission. The results show that, for low laser excitation intensity, the fluorescence intensity remains proportional to the laser power. However, a non-linear response is observed in the case of high excitation intensity. This difference can be used to limit the fluorescence dependence on temperature by carefully selecting the temporal window where fluorescence is detected. Finally, although the method presented in this paper is applied to cold liquid kerosene, its range of application can be extended to other liquids and other temperature ranges.

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Analysis of LIF and Mie signals from single micrometric droplets for instantaneous droplet sizing in sprays

Cited by 25 publications

References 45 publications

Investigation of Five Organic Dyes in Ethanol and Butanol for Two-Color Laser-Induced Fluorescence Ratio Thermometry

Investigation of Five Organic Dyes in Ethanol and Butanol for Two-Color Laser-Induced Fluorescence Ratio Thermometry

Application of SLIPI-Based Techniques for Droplet Size, Concentration, and Liquid Volume Fraction Mapping in Sprays

Saturated laser-induced fluorescence in liquid kerosene seeded with a dye: influence of temperature and excitation intensity

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