Full-Volume, Three-Dimensional, Transient Measurements of Bubbly Flows Using Particle Tracking Velocimetry and Shadow Image Velocimetry Coupled with Pattern Recognition Techniques [electronic resource].
- Published
- College Station, Tex. : Texas Engineering Experiment Station, 2001.
Oak Ridge, Tenn. : Distributed by the Office of Scientific and Technical Information, U.S. Dept. of Energy. - Physical Description
- vp : digital, PDF file
- Additional Creators
- Texas Engineering Experiment Station and United States. Department of Energy. Office of Scientific and Technical Information
Access Online
- Restrictions on Access
- Free-to-read Unrestricted online access
- Summary
- Develop a state-of-the-art non-intrusive diagnostic tool to perform simultaneous measurements of both the temporal and three-dimensional spatial velocity of the two phases of a bubbly flow. These measurements are required to provide a foundation for studying the constitutive closure relations needed in computational fluid dynamics and best-estimate thermal hydraulic codes employed in nuclear reactor safety analysis and severe accident simulation. Such kinds of full-field measurements are not achievable through the commonly used point-measurement techniques, such as hot wire, conductance probe, laser Doppler anemometry, etc. The results can also be used in several other applications, such as the dynamic transport of pollutants in water or studies of the dispersion of hazardous waste.
- Report Numbers
- E 1.99:doe/id/13638
doe/id/13638 - Subject(s)
- Other Subject(s)
- Two-Phase Flow
- Flow Rate
- Reactor Safety
- Pattern Recognition
- Safety Analysis
- Fluid Mechanics
- Thermodynamics
- Reactor Accidents
- Computerized Simulation
- Environmental Transport
- Pollutants
- Velocimetry
- Spatial Velocity
- Bubbly Flow
- Nuclear Reactor
- Hot Wire
- Conductance Probe
- Laser Doppler Anemometry
- Particle Tracking Velocimetry
- Shadow Image Velocimetry
- Architecture Resonance Theory 2
- Lagrangian
- Hazardous Waste
- Severe Accident Simulation
- Pollutants
- Note
- Published through SciTech Connect.
11/30/2001.
"doe/id/13638"
Yassin Hassan.
(US) - Type of Report and Period Covered Note
- Final; 07/15/2000 - 11/15/2001
- Funding Information
- FG07-98ID13638
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