原文传递
Experimental Measurement of Frozen and Partially Melted Water Droplet Impact Dynamics
| 题名: | Experimental Measurement of Frozen and Partially Melted Water Droplet Impact Dynamics |
| 作者: | Palacios, J.; Yan, S.; Tan, J.; Kreeger, R. E. |
| 关键词: | Water##Phase transformations##Ice formation##Drops (liquids)##Impact velocity##Deposition##Aircraft icing##Impact damage##Angles (geometry)##Diameters##Flames##Cross flow##Temperature##Wedges##Aerodynamic configurations##Jet engines##Images##Acetylene##Liquid nitrogen## |
| 摘要: | High-speed video of single frozen water droplets impacting a surface was acquired. The droplets diameter ranged from 0.4 mm to 0.9 mm and impacted at velocities ranging from 140 m/sec to 309 m/sec. The techniques used to freeze the droplets and launch the particles against the surfaces is described in this paper. High-speed video was used to quantify the ice accretion area to the surface for varying impact angles (30 deg, 45 deg, 60 deg), impacting velocities, and break-up angles. An oxygen /acetylene cross-flow flame used to ensure partial melting of the traveling frozen droplets is also discussed. A linear relationship between impact angle and ice accretion is identified for fully frozen particles. The slope of the relationship is affected by impact speed. Perpendicular impacts, i.e. 30 deg, exhibited small differences in ice accretion for varying velocities, while an increase of 60% in velocity from 161 m/sec to 259 m/sec, provided an increase on ice accretion area of 96% at an impact angle of 60 deg. The increase accretion area highlights the importance of impact angle and velocity on the ice accretion process of ice crystals. It was experimentally observed that partial melting was not required for ice accretion at the tested velocities when high impact angles were used (45 and 60 deg). Partially melted droplets doubled the ice accretion areas on the impacting surface when 0.0023 Joules were applied to the particle. The partially melted state of the droplets and a method to quantify the percentage increase in ice accretion area is also described in the paper. |
| 总页数: | 13 |
| 报告类型: | 科技报告 |
相关文献
- Overview of High Speed Close-Up Imaging in an Icing Environment.
- Overview of High Speed Close-Up Imaging in an Icing Environment
- Evaluation of a Thermodynamic Ice Crystal Accretion Model using Experimental Data from NASA’s 2nd Fundamental Ice Crystal Icing Test.
- Mechanism of Supercooled Water Droplet Breakup near the Leading Edge of an Airfoil
- Experimental evidence for modifying the current physical model for ice accretion on aircraft surfaces
- Results and Conclusions from the NASA Isokinetic Total Water Content Probe 2009 IRT Test
检索历史
应用推荐
