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Capillary flow in containers of polygonal section: theory and experiment
| Content Provider | NASA Technical Reports Server (NTRS) |
|---|---|
| Author | Weislogel, Mark M. |
| Copyright Year | 2001 |
| Description | An improved understanding of the large-length-scale capillary flows arising in a low-gravity environment is critical to that engineering community concerned with the design and analysis of spacecraft fluids management systems. Because a significant portion of liquid behavior in spacecraft is capillary dominated it is natural to consider designs that best exploit the spontaneous character of such flows. In the present work, a recently verified asymptotic analysis is extended to approximate spontaneous capillary flows in a large class of cylindrical containers of irregular polygonal section experiencing a step reduction in gravitational acceleration. Drop tower tests are conducted using partially-filled irregular triangular containers for comparison with the theoretical predictions. The degree to which the experimental data agree with the theory is a testament to the robustness of the basic analytical assumption of predominantly parallel flow. As a result, the closed form analytical expressions presented serve as simple, accurate tools for predicting bulk flow characteristics essential to practical low-g system design and analysis. Equations for predicting corner wetting rates, total container flow rates, and transient surfaces shapes are provided that are relevant also to terrestrial applications such as capillary flow in porous media. |
| File Size | 1296924 |
| Page Count | 26 |
| File Format | |
| Alternate Webpage(s) | http://archive.org/details/NASA_NTRS_Archive_20010091379 |
| Archival Resource Key | ark:/13960/t40s4qj82 |
| Language | English |
| Publisher Date | 2001-07-01 |
| Access Restriction | Open |
| Subject Keyword | Fluid Mechanics And Thermodynamics Viscosity Wetting Corner Flow Flow Characteristics Capillary Flow Drop Towers Asymptotic Methods Liquid-solid Interfaces Interfacial Tension Cylindrical Bodies Surface Properties Parallel Flow Flow Velocity Shapes Microgravity Menisci Ntrs Nasa Technical Reports ServerĀ (ntrs) Nasa Technical Reports Server Aerodynamics Aircraft Aerospace Engineering Aerospace Aeronautic Space Science |
| Content Type | Text |
| Resource Type | Technical Report |
