Conditions of explosive evaporation at the phase interface in an inhomogeneous droplet

Ануфриев, И. С.; Кузнецов, Г. В.; Piskunov, Maxim V.; Стрижак, П. А.; Chernetskii, M. Yu.

doi:10.1134/s1063785015080180

Cited by 15 publications

(8 citation statements)

References 6 publications

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“…Results of the research [1,2] show the practical significance of the solid inclusions insert into water droplets. Besides, the significant intensification of phase changes on inside interfaces is achieved.…”

Section: Introductionmentioning

confidence: 94%

Difference Of Evaporation and Boiling for Heterogeneous Water Droplets in a High-Temperature Gas

Legros

Piskunov

2015

MATEC Web of Conferences

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Abstract. Experimental investigation of vapor formation was carried out on water droplets on fixed graphite substrate and heterogeneous droplets (containing solid single inclusions) when heating in high-temperature gas. High-speed video shooting (up to 10 5 frames per second), optical method (Particle Image Velocimetry) and TEMA Automotive software were used. We revealed two phase change mechanisms of heterogeneous liquid droplets. Effect of evaporation and boiling on evaporation times of water droplets was determined.

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Section: Introductionmentioning

confidence: 94%

Difference Of Evaporation and Boiling for Heterogeneous Water Droplets in a High-Temperature Gas

Legros

Piskunov

2015

MATEC Web of Conferences

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“…The work [6] shows that the presence of solid admixtures in water droplets, which characterize by big (relative to water) values of heat conduction and temperature conductivity, intensifies the heat up and phase transformations of inhomogeneous droplets. Under specified conditions, the change in thermal and physical characteristics of droplets due to the presence in them of particles of typical soil admixtures, like clay, sand, silt, soil, can be considered as an alternative way for increasing the evaporation completeness.…”

Section: Introductionmentioning

confidence: 99%

Experimental Investigation of Droplet Evaporation of Suspension Based on Water with Subsurface Admixtures in a Flame Area

Dmitrienko

Vysokomornaya

Legros

et al. 2015

MATEC Web of Conferences

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Abstract. The influence of typical mixtures (clay, sand, soil, silt) on integral characteristics of droplet evaporation of suspension based on water in high-temperature (about 1100 K) gases was investigated experimentally by the optical methods and high-speed (to 10 5 frames per second) video recording system. The significant intensification of heat up and evaporation of suspension droplets was defined when varying the relative mass fraction of admixtures within the range γ=0-0.1 for a sand, γ=0-0.01 for clay, ground, and silt.

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“…In research [4,5], we revealed some conditions of intense vapor formation at the internal "solid inclusion -water" interfaces of heterogeneous (inhomogeneous) liquid droplet. Moreover, under such conditions, the explosive disintegration of droplets occurred.…”

Section: Introductionmentioning

confidence: 99%

“…Moreover, under such conditions, the explosive disintegration of droplets occurred. We believe that when changing geometry of heating surface, the lifetimes of heterogeneous droplets established in [4,5] will reduce. Furthermore, the change of heat-exchange surface can be one of the key factors to reach the rapid elimination of heat.…”

Section: Introductionmentioning

confidence: 99%

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Influence of surface roughness and porosity of inclusion in water droplet on heat transfer enhancement

2016

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Abstract. Using high-speed camera, the experiments were performed to research evaporation of 10 μl water droplets containing 2 mm solid inclusions in the shape of cube, when heated (up to 850 K) in combustion products of technical ethanol. Adding solid inclusions in water droplets allowed considerably decreasing (by 70%) their evaporation times. Also, the artificial irregularities (roughness and porosity) at the surfaces of solid inclusions were manufactured to increase heat transfer area. Such approach enabled to decrease evaporation times of heterogeneous liquid droplets in high-temperature gases by 40% (when comparing inclusions with artificial irregularities and smooth surface).

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Conditions of explosive evaporation at the phase interface in an inhomogeneous droplet

Cited by 15 publications

References 6 publications

Difference Of Evaporation and Boiling for Heterogeneous Water Droplets in a High-Temperature Gas

Difference Of Evaporation and Boiling for Heterogeneous Water Droplets in a High-Temperature Gas

Experimental Investigation of Droplet Evaporation of Suspension Based on Water with Subsurface Admixtures in a Flame Area

Influence of surface roughness and porosity of inclusion in water droplet on heat transfer enhancement

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