Experimental study of liquid-vapor mass transfer in non-reacting and reacting droplet chains

Stöhr, Michael; Werner, Stefanie; Meier, Wolfgang

doi:10.4995/ilass2017.2017.4767

Cited by 3 publications

(1 citation statement)

References 17 publications

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“…The computational setup of the droplet evaporation test rig is derived from the experimental setup used in [21] and outlined in Figure 4b. The test rig consists of a tube diameter (d tube ) of 5 mm and length (l tube ) of 81 mm that is connected to a channel with a quadratic cross section (A channel ) of 60 mm x 60 mm and a length (l channel ) of 200 mm.…”

Section: Unit Test Case: Single Droplet Evaporation Test Rigmentioning

confidence: 99%

Assessment of the Comparability of Droplet Evaporation Fuel Sensitivities between a Unit Test Case and an Aviation Gas Turbine Combustor

Ruoff

Rauch

Clercq

et al. 2019

AIAA Scitech 2019 Forum

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Section: Unit Test Case: Single Droplet Evaporation Test Rigmentioning

confidence: 99%

Assessment of the Comparability of Droplet Evaporation Fuel Sensitivities between a Unit Test Case and an Aviation Gas Turbine Combustor

Ruoff

Rauch

Clercq

et al. 2019

AIAA Scitech 2019 Forum

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Measurement of evaporation of hydrocarbon droplets by laser absorption spectroscopy

Werner

Meier

2019

Appl. Phys. B

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Concentration measurements of evaporated hydrocarbon species by infrared laser absorption spectroscopy at a monodisperse droplet chain are presented. A droplet generator was installed within a ow channel and operated with cyclohexane, iso-octane, n-heptane, n-pentane and 1-butanol. The ow channel was ushed with a laminar ow of air at dierent temperatures. The absorption of a HeNe laser beam at λ = 3.39 µm traversing through the ow channel at varying distances from the droplet chain was exploited to determine the vapor concentrations of the hydrocarbons. Measurements of the absorption cross sections in a heated gas cell (T = 300 to 773 K) enabled the quantication of the absorption signals from the droplet chain. Vapor concentrations were determined in planes perpendicular to the droplet chain. From the increase of vapor concentration between the planes, the evaporation rate could be determined. The evaporation rates were measured in dependence of co-ow temperature, droplet velocity, droplet generation frequency and droplet spacing. In the investigated temperature range of the air (313-430 K) the evaporation rates increased linearly with temperature. The order of the fuels with respect to evaporation rates corresponded with the boiling points of the individual fuels. In addition to the presentation of the results, the paper discusses the performance of vapor concentration measurements by laser absorption spectroscopy at droplet chains which has not been tested before in such a conguration. Particular attention was paid to the spatial resolution of the measurement. The results are well suited to validate models and numerical simulations.

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Soot formation in turbulent swirl-stabilized spray flames in a model combustor fueled with n-butanol/Jet A-1 blends

Rault

Vishwanath

Gülder

2021

Fuel

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Experimental study of liquid-vapor mass transfer in non-reacting and reacting droplet chains

Cited by 3 publications

References 17 publications

Assessment of the Comparability of Droplet Evaporation Fuel Sensitivities between a Unit Test Case and an Aviation Gas Turbine Combustor

Assessment of the Comparability of Droplet Evaporation Fuel Sensitivities between a Unit Test Case and an Aviation Gas Turbine Combustor

Measurement of evaporation of hydrocarbon droplets by laser absorption spectroscopy

Soot formation in turbulent swirl-stabilized spray flames in a model combustor fueled with n-butanol/Jet A-1 blends

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