Evaporation of a Liquid Droplet in the Presence of a Nanoparticle

Arunkumar,; Sathian, Sarith P.

doi:10.1115/1.4038477

Cited by 4 publications

(2 citation statements)

References 36 publications

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“…M v is the average molar mass (in kg/kmole), inferred from (17). One of the key parameters of the model is the thermal conductivity of the mixture of water and SiO 2 nanoparticles.…”

Section: Transport and Thermodynamic Propertiesmentioning

confidence: 99%

“…Kumar and Sathian [17] used non-equilibrium molecular dynamics methods to investigate the evaporation of liquid argon droplets with platinum nanoparticles. The authors analysed in detail the contribution of each input parameter and showed that an increase in the interaction force at the nanoparticlebase liquid boundary leads to a decrease in the evaporation intensity.…”

Section: Introductionmentioning

confidence: 99%

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Evaporation of Suspended Nanofluid (SiO$$_{2}$$/Water) Droplets: Experimental Results and Modelling

et al. 2023

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The results of experimental studies and modelling of the evaporation of suspended water droplets containing silicon dioxide SiO2 nanoparticles at mass fractions 0.02 and 0.07 are presented. The experimental results are analysed using the previously developed model for multicomponent droplet heating and evaporation. In this model droplets are assumed to be spherical and the analytical solutions to the heat transfer and species diffusion equations are incorporated into the numerical code. They are used at each timestep of the calculations. Silicon dioxide nanoparticles are considered to be a non-evaporating component. It is demonstrated that both experimental and predicted values of droplet diameters to the power 1.5 decrease almost linearly with time, except at the beginning and the final stages of the evaporation process, and are only weakly affected by the presence of nanoparticles. At the final point in this process, the effect of nanoparticles becomes dominant when their mass fraction at Evaporation of suspended nanofluid (SiO 2 /water) droplets the droplet surface reaches about 40% and a cenosphere-like structure is formed. Both predicted and observed droplet surface temperatures rapidly decrease during the initial stage of droplet evaporation. After about t = 100 s the predicted surface temperature remains almost constant while its experimentally observed values increase with time. This might be related to a decrease in the temperature of ambient air in the vicinity of droplets, not taken into account in the model. Both observed and predicted values of the mass fraction of silicon dioxide at the droplet surfaces are shown to increase with time until they reach about 0.4.

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“…M v is the average molar mass (in kg/kmole), inferred from (17). One of the key parameters of the model is the thermal conductivity of the mixture of water and SiO 2 nanoparticles.…”

Section: Transport and Thermodynamic Propertiesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Evaporation of Suspended Nanofluid (SiO$$_{2}$$/Water) Droplets: Experimental Results and Modelling

et al. 2023

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Influence of Nanoparticles on the Evaporation of a Nanodroplet from Solid Substrates: An Experimental and Molecular Dynamics Investigation

Kumar

Sajith

Sathian

2021

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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Long range corrections for inhomogeneous fluids containing a droplet or a bubble

Nitzke

Fackeldey

Vrabec

2021

Molecular Simulation

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Long range corrections for molecular simulations of inhomogeneous fluids with a spherical interface are presented. Correction terms for potential energy, force and virial are derived for the monatomic Lennard-Jones fluid. The method is generalised to the Mie potential and arbitrary molecular structures, employing a numerically efficient centre of mass cut-off scheme. The results are validated by a series of droplet simulations for one-centre and two-centre Lennard-Jones fluids with different cut-off radii. Systems with rc = 8 σ provide a check of self-consistence. Further, a system containing a bubble is investigated for the one-centre Lennard-Jones fluid. The equilibrium properties are almost completely independent on the cut-off radius. In comparison with vapour-liquid equilibrium data for systems without a curved interface, all properties show the expected behaviour. Simulation data is used to approximate the surface tension, which is in good agreement with the findings for planar interfaces, thus verifying the present corrections.

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Evaporation of a Liquid Droplet in the Presence of a Nanoparticle

Cited by 4 publications

References 36 publications

Evaporation of Suspended Nanofluid (SiO$$_{2}$$/Water) Droplets: Experimental Results and Modelling

Evaporation of Suspended Nanofluid (SiO$$_{2}$$/Water) Droplets: Experimental Results and Modelling

Influence of Nanoparticles on the Evaporation of a Nanodroplet from Solid Substrates: An Experimental and Molecular Dynamics Investigation

Long range corrections for inhomogeneous fluids containing a droplet or a bubble

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