Antonov et al., 2016 - Google Patents
Experimental study of the effects of collision of water droplets in a flow of high-temperature gasesAntonov et al., 2016
- Document ID
- 7046338436071262170
- Author
- Antonov D
- Volkov R
- Kuznetsov G
- Strizhak P
- Publication year
- Publication venue
- Journal of Engineering Physics and Thermophysics
External Links
Snippet
Using high-speed video recording and cross-correlation" tracer" visualization, the authors have investigated the regularities of the processes of collision of water droplets (characteristic parameters: radii 0.025–0.25 mm, velocities of motion 0.5–12 m/s, and …
- 239000007789 gas 0 title abstract description 36
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Antonov et al. | Experimental study of the effects of collision of water droplets in a flow of high-temperature gases | |
| Volkov et al. | Experimental investigation of mixtures and foreign inclusions in water droplets influence on integral characteristics of their evaporation during motion through high-temperature gas area | |
| Volkov et al. | Influence of droplet concentration on evaporation in a high-temperature gas | |
| Zhdanova et al. | Suppression of forest fuel thermolysis by water mist | |
| Zhou et al. | Spray characterization measurements of a pendent fire sprinkler | |
| Volkov et al. | Evaporation of two liquid droplets moving sequentially through high-temperature combustion products | |
| Zhou et al. | Experimental investigation of spray formation as affected by sprinkler geometry | |
| Yoon et al. | Numerical modeling and experimental measurements of water spray impact and transport over a cylinder | |
| Glushkov et al. | Experimental investigation of evaporation enhancement for water droplet containing solid particles in flaming combustion area | |
| Volkov et al. | Statistical analysis of consequences of collisions between two water droplets upon their motion in a high-temperature gas flow | |
| Voytkov et al. | Temperature traces of water aerosols, water-based emulsions, solutions and slurries moving in a reversed flow of high-temperature gases | |
| Vysokomornaya et al. | Influence of the concentration of water droplets in an aerosol cloud on the characteristics of their collisional interaction | |
| Antonov et al. | 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 | |
| Gonza´ lez et al. | Study of droplet sprays prior to impact on a heated horizontal surface | |
| Kuznetsov et al. | Motion of fine-spray liquid droplets in hot gas flow | |
| Volkov et al. | Mechanism of liquid drop deformation in subsonic motion in a gaseous medium | |
| Volkov et al. | Experimental investigation of the influence of the liquid drop size and velocity on the parameters of drop deformation in air | |
| Gambaryan-Roisman et al. | Gravity effect on spray impact and spray cooling | |
| Volkov et al. | Experimental investigation of the suppression of crown and ground forest fires | |
| Ren et al. | Modeling of Sprinkler skipping for the suppression of large-scale rack-storage fires | |
| Jayaweera et al. | Scaling of fire cooling by water mist under low drop Reynolds number conditions | |
| Volkov et al. | Analysis of the characteristics of the retardation and entrainment of droplets in a polydisperse water flow by high-temperature gases under conditions of intense phase transformations | |
| Ghaemi et al. | Measurement of droplet centricity and velocity in the spray field of an effervescent atomizer | |
| Volkov et al. | The ranges of the aerodynamic drag coefficient of water droplets moving through typical gas media | |
| Volkov et al. | Features of water droplet deformation during motion in a gaseous medium under conditions of moderate and high temperatures |