An experimental and CFD modeling study of suspended droplets evaporation in buoyancy driven convection

Saufi, Abd Essamade; Calabria, R.; Chiariello, Fabio; Frassoldati, Alessio; Cuoci, Alberto; Faravelli, Tiziano; Massoli, Patrizio

doi:10.1016/j.cej.2019.122006

Cited by 20 publications

(16 citation statements)

References 41 publications

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“… 27 The predictions of a CFD model of droplet evaporation, in the same experimental apparatus discussed in this work, showed that the droplet is highly homogenized by liquid motions. 27 This effect is reproduced in the 1D model by adopting an enhancing factor, which is applied to the mass diffusion coefficients of species and to the thermal diffusion coefficient. The value of the enhancing factor was derived by a comparison of the results of 2D CFD simulations of bicomponent droplet evaporation 27 and the 1D model for the same mixture.…”

Section: Methodsmentioning

confidence: 60%

“… 27 This effect is reproduced in the 1D model by adopting an enhancing factor, which is applied to the mass diffusion coefficients of species and to the thermal diffusion coefficient. The value of the enhancing factor was derived by a comparison of the results of 2D CFD simulations of bicomponent droplet evaporation 27 and the 1D model for the same mixture. The comparison with CFD results is presented in the Supporting Information .…”

Section: Methodsmentioning

confidence: 99%

“…Since the experiments are performed at normal gravity, the coil induces a buoyant flow heating the droplet. 27 The heating produced by the coil is experimentally characterized using the thermocouple in an experiment performed without a suspended droplet. To model this device using a 1D approach, some simplifications are needed.…”

Section: Methodsmentioning

confidence: 99%

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Kinetic Modeling of the Ignition of Droplets of Fast Pyrolysis Bio-oil: Effect of Initial Diameter and Fuel Composition

Stagni

Calabria

Frassoldati

et al. 2021

Ind. Eng. Chem. Res.

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Fast biomass pyrolysis is an effective and promising process for high bio-oil yields, and represents one of the front-end technologies to provide alternative, sustainable fuels as a replacement of conventional, fossil-based ones. In this work, the effect of droplet initial diameter on the evaporation and ignition of droplets of crude fast pyrolysis bio-oil (FPBO) and FPBO/ethanol blend (50% vol) at ambient pressure is discussed. The experimental tests were carried out in a closed single droplet combustion chamber equipped with optical accesses, using droplets with a diameter in the range of 0.9–1.4 mm. The collected experimental data show a significant effect of droplet diameter and initial fuel composition on the evaporation and combustion of the droplets. At the same time, 1-dimensional modeling of the evaporation and ignition of different droplets of crude FPBO and its blend with ethanol is performed to understand the complex physical and chemical effects. To this purpose, an 8-component surrogate was adopted, and a skeletal mechanism (170 species and 2659 reactions) was obtained through an established methodology. The comparison of numerical and experimental results shows that the model is able to capture the main features related to the heating phase of the droplet and the effect of fuel composition on droplet temperature and evaporation, particularly the increased reactivity following ethanol addition and the variation of diameter with time. Also, a sensitivity analysis highlighted the reactions controlling the autoignition of the droplets in the different conditions. It was found that the autoignition of pure FPBO droplets is governed by dimethyl furane (DMF), because of its high volatility and in spite of not being the most abundant species. On the other side, ethanol chemistry drives the gas-phase ignition in the case of the blended (50/50 v/v) mixtures, due to its higher volatility and reactivity.

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Section: Methodsmentioning

confidence: 60%

Section: Methodsmentioning

confidence: 99%

See 1 more Smart Citation

Kinetic Modeling of the Ignition of Droplets of Fast Pyrolysis Bio-oil: Effect of Initial Diameter and Fuel Composition

Stagni

Calabria

Frassoldati

et al. 2021

Ind. Eng. Chem. Res.

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“…Micro-PIV (Particle Image Velocimetry) technology is the main experimental method used to explore the droplet's internal flow field [6][7][8][9][10][11][12][13]; and numerical methods include the CFD method [14][15][16][17][18][19], Lattice Boltzmann method [20,21], immersed-boundary [22], etc. ; and the research systems include absorption [23], extraction [24][25][26], mixing [27,28], reaction [29,30], condensation [31], evaporation [32,33], functional materials [34,35] and double emulsion droplet [36], etc. These reported studies reveal the existence of vortices within the droplet are crucial for enhancing mixing and improving the mass transfer across the interface.…”

Section: Introductionmentioning

confidence: 99%

Substance transfer behavior controlled by droplet internal circulation

Wang

et al. 2020

Chemical Engineering Journal

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This is a PDF file of an article that has undergone enhancements after acceptance, such as the addition of a cover page and metadata, and formatting for readability, but it is not yet the definitive version of record. This version will undergo additional copyediting, typesetting and review before it is published in its final form, but we are providing this version to give early visibility of the article. Please note that, during the production process, errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain.

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“…Закономерности испарения капель играют важную роль при решении ряда прикладных задач для теплотехнических систем и технологических процессов [1,2]. Различным аспектам нагрева и испарения отдельных капель и капельных систем посвящены многочисленные публикации, связанные с численным моделированием [3][4][5][6][7] и экспериментальными исследованиями [8][9][10][11][12][13][14] процесса испарения. Большинство экспериментальных результатов исследования скорости испарения капель жидкости получено при их нагреве в условиях кондуктивного, конвективного или комбинированного радиационноконвективного теплообмена [2,8,14].…”

unclassified

Особенности Испарения Капли При Лучистом И Конвективном Нагреве

Архипов¹,

Басалаев²,

Золоторёв³

et al. 2020

Письма В Журнал Технической Физики

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New method for determining the evaporation rate of single levitating drop at radiant heat flux has been proposed. The results of experimental study of the evaporation rate of distilled water drop upon heating by radiant and convective heat flux in the range of q = (0.25–1.5) W/cm^2 are presented. Comparative analysis of the features of the drop evaporation during radiant and convective heating has been carried out.

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An experimental and CFD modeling study of suspended droplets evaporation in buoyancy driven convection

Cited by 20 publications

References 41 publications

Kinetic Modeling of the Ignition of Droplets of Fast Pyrolysis Bio-oil: Effect of Initial Diameter and Fuel Composition

Kinetic Modeling of the Ignition of Droplets of Fast Pyrolysis Bio-oil: Effect of Initial Diameter and Fuel Composition

Substance transfer behavior controlled by droplet internal circulation

Особенности Испарения Капли При Лучистом И Конвективном Нагреве

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