Heat exchange of an evaporating water droplet in a high-temperature environment; International Journal of Thermal Sciences; Vol. 150
| Parent link: | International Journal of Thermal Sciences Vol. 150.— 2020.— [106227, 14 p.] |
|---|---|
| Hlavní autor: | |
| Korporace: | , |
| Další autoři: | , |
| Shrnutí: | Title screen In this research, we present the results of experiments capturing the characteristics of high-temperature heating and evaporation of water droplets. The experimental parameters are as follows: initial droplet radius 1–2.5 mm, temperature 20–1100 °C, air flow velocity 0–5 m/s. We use two schemes of water droplet fixation in the heated air flow. In the experiments, we record the heating and evaporation of free-falling droplets so that the holder does not interfere with the experimental results. Typical water droplet heating rates range from 0.4 to 92.4 °C/s and evaporation rates from 0.003 to 0.178 kg/(m2s). Criterial processing of our experimental data is based on the classical equations formulated by Ranz and Marshall and equations proposed by a set of research groups and scientists. We determine the variation ranges of the Reynolds numbers, in which one can only use a limited set of Nu(Re,Pr) correlations. Adjustment coefficients are proposed to take into account the droplet surface temperatures and evaporation rates as functions of the gas medium temperature. Finally, we hypothesize as to how modern mathematical models can be modified to bring the simulation results closer to the experimental data in droplet heating and evaporation rates during fast heat supply. Режим доступа: по договору с организацией-держателем ресурса |
| Jazyk: | angličtina |
| Vydáno: |
2020
|
| Témata: | |
| On-line přístup: | https://doi.org/10.1016/j.ijthermalsci.2019.106227 |
| Médium: | Elektronický zdroj Kapitola |
| KOHA link: | https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=663298 |
Podobné jednotky
Evaporation of Promising Fire Extinguishing Agent Droplets; Forests; Vol. 14, iss. 2
Vydáno: (2023)
Vydáno: (2023)
Movement and evaporation of water droplets under conditions typical for heat-exchange chambers of contact water heaters; Thermal Engineering; Vol. 63, iss. 9
Autor: Volkov R. S. Roman Sergeevich
Vydáno: (2016)
Autor: Volkov R. S. Roman Sergeevich
Vydáno: (2016)
Planar laser-induced fluorescence diagnostics of water droplets heating and evaporation at high-temperature; Applied Thermal Engineering; Vol. 127
Autor: Volkov R. S. Roman Sergeevich
Vydáno: (2017)
Autor: Volkov R. S. Roman Sergeevich
Vydáno: (2017)
Using Planar Laser Induced Fluorescence and Micro Particle Image Velocimetry to study the heating of a droplet with different tracers and schemes of attaching it on a holder; International Journal of Thermal Sciences; Vol. 159
Autor: Volkov R. S. Roman Sergeevich
Vydáno: (2021)
Autor: Volkov R. S. Roman Sergeevich
Vydáno: (2021)
Warming-up and evaporation characteristics of homogeneous and heterogeneous water droplets; International Journal of Heat and Mass Transfer; Vol. 138
Vydáno: (2019)
Vydáno: (2019)
Research of temperature fields and convection velocities in evaporating water droplets using Planar Laser-Induced Fluorescence and Particle Image Velocimetry; Experimental Thermal and Fluid Science; Vol. 97
Autor: Volkov R. S. Roman Sergeevich
Vydáno: (2018)
Autor: Volkov R. S. Roman Sergeevich
Vydáno: (2018)
Collision of water droplets with different initial temperatures; Powder Technology; Vol. 367
Autor: Shlegel N. E. Nikita Evgenjevich
Vydáno: (2020)
Autor: Shlegel N. E. Nikita Evgenjevich
Vydáno: (2020)
A new approach to modelling micro-explosions in composite droplets; International Journal of Heat and Mass Transfer; Vol. 161
Vydáno: (2020)
Vydáno: (2020)
Experimental Determination of Conditions for the Explosive Fragmentation of a Heterogeneous Water Droplet in Heating in a High-Temperature Gas Medium; Journal of Engineering Physics and Thermophysics; Vol. 90, iss. 3
Autor: Kuznetsov G. V. Geny Vladimirovich
Vydáno: (2017)
Autor: Kuznetsov G. V. Geny Vladimirovich
Vydáno: (2017)
Temperature Fields of the Droplets and Gases Mixture; Applied Sciences; Vol. 10, iss. 7
Autor: Volkov R. S. Roman Sergeevich
Vydáno: (2020)
Autor: Volkov R. S. Roman Sergeevich
Vydáno: (2020)
Temperature measurement in the trace of water droplet when heating by hot air; Experimental Thermal and Fluid Science; Vol. 81
Autor: Kuznetsov G. V. Geny Vladimirovich
Vydáno: (2017)
Autor: Kuznetsov G. V. Geny Vladimirovich
Vydáno: (2017)
Prognosis Model for Investigating the Evaporation of Water Droplets; Journal of Engineering Physics and Thermophysics; Vol. 92, iss. 4
Vydáno: (2019)
Vydáno: (2019)
Experimental Investigation of the Change in Temperature at the Center of a Water Droplet in the Process of Evaporation in Heated Air; Journal of Engineering Physics and Thermophysics; Vol. 89, iss. 3
Autor: Zakharevich A. V. Arkadiy Vladimirovich
Vydáno: (2016)
Autor: Zakharevich A. V. Arkadiy Vladimirovich
Vydáno: (2016)
On the Mechanism of Interaction of Two Water Droplets Moving Successively at a Small Distance from Each Other in a High-Temperature Gas Medium; Journal of Engineering Physics and Thermophysics; Vol. 90, iss. 1
Autor: Volkov R. S. Roman Sergeevich
Vydáno: (2017)
Autor: Volkov R. S. Roman Sergeevich
Vydáno: (2017)
Droplet evaporation on a structured surface: The role of near wall vortexes in heat and mass transfer; International Journal of Heat and Mass Transfer; Vol. 148
Vydáno: (2019)
Vydáno: (2019)
Heating and evaporation of suspended water droplets: Experimental studies and modelling; International Journal of Heat and Mass Transfer; Vol. 127, Pt. A
Vydáno: (2018)
Vydáno: (2018)
High-temperature evaporation of water emulsion droplets used in thermal fluid treatment; International Journal of Heat and Mass Transfer; Vol. 126, pt. A
Vydáno: (2018)
Vydáno: (2018)
Gas temperature in the trace of water droplets streamlined by hot air flow; International Journal of Multiphase Flow; Vol. 91
Vydáno: (2017)
Vydáno: (2017)
Collisions of water drops in a gas-vapor environment at high temperatures and vapor concentrations; Thermal Science; Vol. 25, iss. 5, Part A
Autor: Shlegel N. E. Nikita Evgenjevich
Vydáno: (2021)
Autor: Shlegel N. E. Nikita Evgenjevich
Vydáno: (2021)
Puffing/micro-explosion of two closely spaced composite droplets in tandem: Experimental results and modelling; International Journal of Heat and Mass Transfer; Vol. 176
Vydáno: (2021)
Vydáno: (2021)
Effects of wall temperature and temperature-dependent viscosity on maximum spreading of water-in-oil emulsion droplet; International Journal of Heat and Mass Transfer; Vol. 185
Vydáno: (2022)
Vydáno: (2022)
Temperature regime in the surface layer of the substrate in the area under the evaporating liquid drop; International Communications in Heat and Mass Transfer; Vol. 169, Pt. C
Vydáno: (2025)
Vydáno: (2025)
Mathematical Simulation of the Heat and Mass Transfer in the Movement of Liquid Droplets in a Gas Medium Under the Conditions of their Intense Phase Transformations; Journal of Engineering Physics and Thermophysics; Vol. 93, iss. 5
Autor: Antonov D. V. Dmitry Vladimirovich
Vydáno: (2020)
Autor: Antonov D. V. Dmitry Vladimirovich
Vydáno: (2020)
Puffing and microexplosion of composite liquid droplets under microwave heating: Experimental research and mathematical modeling; International Communications in Heat and Mass Transfer; Vol. 172
Autor: Antonov D. V. Dmitry Vladimirovich
Vydáno: (2026)
Autor: Antonov D. V. Dmitry Vladimirovich
Vydáno: (2026)
The influence of solid insoluble impurities on heating and evaporation of suspension droplets; International Journal of Thermal Sciences; Vol. 220
Autor: Kerimbekova S. A. Susanna Aleksandrovna
Vydáno: (2026)
Autor: Kerimbekova S. A. Susanna Aleksandrovna
Vydáno: (2026)
Application of the laser induced phosphorescence method to the analysis of temperature distribution in heated and evaporating droplets; International Journal of Heat and Mass Transfer; Vol. 163
Vydáno: (2020)
Vydáno: (2020)
Measuring the temperature of a rapidly evaporating water droplet by Planar Laser Induced Fluorescence; Measurement; Vol. 135
Autor: Volkov R. S. Roman Sergeevich
Vydáno: (2019)
Autor: Volkov R. S. Roman Sergeevich
Vydáno: (2019)
Three approaches to modelling heating and evaporation of monocomponent droplets; International Journal of Multiphase Flow; Vol. 179
Vydáno: (2024)
Vydáno: (2024)
Dynamic and kinematic characteristics of unsteady motion of a water-in-oil emulsion droplet in collision with a solid heated wall under conditions of convective heat transfer; International Communications in Heat and Mass Transfer; Vol. 137
Vydáno: (2022)
Vydáno: (2022)
Heating and Evaporation of Droplets of Multicomponent Aqueous Suspensions with Solid Insoluble Impurities of Different Thermophysical Properties; Journal of Engineering Thermophysics; Vol. 34, iss 3
Vydáno: (2025)
Vydáno: (2025)
A simple model of heating and evaporation of droplets on a superhydrophobic surface; International Journal of Heat and Mass Transfer; Vol. 201
Vydáno: (2023)
Vydáno: (2023)
Gas-Vapor Mixture Temperature in the Near-Surface Layer of a Rapidly-Evaporating Water Droplet; Entropy; Vol. 21
Autor: Antonov D. V. Dmitry Vladimirovich
Vydáno: (2019)
Autor: Antonov D. V. Dmitry Vladimirovich
Vydáno: (2019)
Effects of water subdroplet location on the start of puffing/micro-explosion in composite fuel-water droplets; International Journal of Heat and Mass Transfer; Vol. 186
Vydáno: (2022)
Vydáno: (2022)
Heating and evaporation of a mono-component spheroidal droplet with non-uniform surface temperature; Applied Mathematical Modelling; Vol. 125, Pt. B
Vydáno: (2024)
Vydáno: (2024)
Generation of Thermogravitational Convection and Convective Diffusion in a Radiation-Heated Region; Fluid Dynamics; Vol. 60, iss. 1
Vydáno: (2025)
Vydáno: (2025)
The features of heterogeneous water droplet evaporation in high-temperature combustion products of typical flammable liquids; Thermal Science; Vol. 21, iss. 2
Vydáno: (2017)
Vydáno: (2017)
Influence of heating intensity and size of gel fuel droplets on ignition characteristics; International Journal of Heat and Mass Transfer; Vol. 156
Autor: Glushkov D. O. Dmitry Olegovich
Vydáno: (2020)
Autor: Glushkov D. O. Dmitry Olegovich
Vydáno: (2020)
Free Solution Convection at Non-Isothermal Evaporation of Aqueous Salt Solution on a Micro-Structured Wall; Nanoscale and Microscale Thermophysical Engineering; Vol. 19, iss. 1
Autor: Misyura S. Ya. Sergey Yakovlevich
Vydáno: (2019)
Autor: Misyura S. Ya. Sergey Yakovlevich
Vydáno: (2019)
Transient analysis of temperature distributions in the hot channel of a VVER-1200 reactor using COMSOL Multiphysics; Перспективы развития фундаментальных наук; Т. 1 : Физика
Autor: Odii C. J.
Vydáno: (2025)
Autor: Odii C. J.
Vydáno: (2025)
Influence of the "Self-Radiation" of Combustion Products on the Intensity of Evaporation of an Inhomogeneous Water Droplet in the Flame; Journal of Engineering Physics and Thermophysics; Vol. 89, iss. 4
Vydáno: (2016)
Vydáno: (2016)