Transient Propagation Behavior Of Two Phase Flow Equations
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| Release | : 1975 |
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The capability of published two-phase flow equation sets to predict transient propagation behavior has been studied numerically. The equation sets are those cited by Wallis for separated flow and extensions of those used by Rudinger and Chang for dispersed flow. The primary difference between these two sets is that in the set cited by Wallis, the pressure gradient appearing in each momentum equation is weighted by the phase volume fraction, whereas in the extended Rudinger--Chang set, the pressure gradient appears only in the ''continuous'' phase. The original Rudinger--Chang set had to be modified because it can adequately describe only the transient flow of very dilute suspensions of solids in air. This numerical study shows that pressure pulses propagate at essentially the sound speeds obtained from characteristics analysis for the equation sets investigated. Comparisons of numerical results with experimental air-water pressure propagation data show that only the modified Rudinger--Chang equation set exhibits propagation behavior in good agreement with the experimental observations at low (less than 10 percent) void fractions. None of the equation sets adequately predict the experimental pressure propagation rates in the range of void fractions from 10 to 60 percent where the flow regime was observed to change from bubbly to full slug flow. The modified Rudinger-- Chang set explains an apparent discontinuity in the experimental pressure wave propagation speed at a void fraction of 50 percent if the entire pressure gradient is assumed to be carried by the liquid for less than 50 percent voids and by the vapor for greater than 50 percent voids; however, the magnitude of the calculated discontinuity is greater than the experimental discontinuity. (auth).
| Author | : Cl Kleinstreuer |
| Publisher | : Routledge |
| Total Pages | : 472 |
| Release | : 2017-11-01 |
| Genre | : Science |
| ISBN | : 1351406485 |
This graduate text provides a unified treatment of the fundamental principles of two-phase flow and shows how to apply the principles to a variety of homogeneous mixture as well as separated liquid-liquid, gas-solid, liquid-solid, and gas-liquid flow problems, which may be steady or transient, laminar or turbulent.Each chapter contains several sample problems, which illustrate the outlined theory and provide approaches to find simplified analytic descriptions of complex two-phase flow phenomena.This well-balanced introductory text will be suitable for advanced seniors and graduate students in mechanical, chemical, biomedical, nuclear, environmental and aerospace engineering, as well as in applied mathematics and the physical sciences. It will be a valuable reference for practicing engineers and scientists. A solutions manual is available to qualified instructors.
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| Total Pages | : 612 |
| Release | : 1976 |
| Genre | : Nuclear energy |
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| Author | : United States. Energy Research and Development Administration |
| Publisher | : |
| Total Pages | : 1320 |
| Release | : 1976 |
| Genre | : Power resources |
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| Author | : Nicholas Tsoulfanidis |
| Publisher | : Chem/Mats-Sci/E |
| Total Pages | : 534 |
| Release | : 1983 |
| Genre | : Nuclear counters |
| ISBN | : 9780891165231 |
The fundamentals of nuclear radiation counting for undergraduate and graduate students in nuclear science, engineering, nuclear medicine, and health physics, and for laboratory engineers, scientists, and technicians. Covers statistical errors, different types of radiation detectors, relative and absolute measurements, spectroscopy, analyzing experimental data, activation analysis, and health physics. Annotation copyright by Book News, Inc., Portland, OR
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| Release | : 1978 |
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A simplified mathematical model including nonequilibrium two-phase transient flow was developed based on experimental results with a heated annular tube in a low pressure system. The model determines operating limits to avoid flow instability transients and also predicts system behavior during a transient. Correlations describe two-phase flow characteristics within controlling parts of the system subject to flashing and subcooled nucleate boiling. Two-phase flow experimental data can be used to extend this model to other one-dimensional systems. Accordingly, the model should be useful to designers and analysts of systems subject to two-phase flow for which some experimental data are available.
| Author | : Neil E. Todreas |
| Publisher | : CRC Press |
| Total Pages | : 671 |
| Release | : 2021-12-13 |
| Genre | : Science |
| ISBN | : 1482239612 |
This book provides advanced coverage of a wide variety of thermal fluid systems and technologies in nuclear power plants, including discussions of the latest reactor designs and their thermal/fluid technologies. Beyond the thermal hydraulic design and analysis of the core of a nuclear reactor, the book covers other components of nuclear power plants, such as the pressurizer, containment, and the entire primary coolant system. Placing more emphasis on the appropriate models for small-scale resolution of the velocity and temperature fields through computational fluid mechanics, the book shows how this enhances the accuracy of predicted operating conditions in nuclear plants. It introduces considerations of the laws of scaling and uncertainty analysis, along with a wider coverage of the phenomena encountered during accidents. FEATURES Discusses fundamental ideas for various modeling approaches for the macro- and microscale flow conditions in reactors Covers specific design considerations, such as natural convection and core reliability Enables readers to better understand the importance of safety considerations in thermal engineering and analysis of modern nuclear plants Features end-of-chapter problems Includes a solutions manual for adopting instructors This book serves as a textbook for advanced undergraduate and graduate students taking courses in nuclear engineering and studying thermal/hydraulic systems in nuclear power plants.
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| Total Pages | : 640 |
| Release | : 1977 |
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| Total Pages | : 1124 |
| Release | : 1987 |
| Genre | : Aeronautics |
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| Author | : Herbert Staedtke |
| Publisher | : John Wiley & Sons |
| Total Pages | : 288 |
| Release | : 2006-12-13 |
| Genre | : Science |
| ISBN | : 3527609113 |
Here, the author, a researcher of outstanding experience in this field, summarizes and combines the recent results and findings on advanced two-phase flow modeling and numerical methods otherwise dispersed in various journals, while also providing explanations for numerical and modeling techniques previously not covered by other books. The resulting systematic and comprehensive monograph is unrivalled in its kind, serving as a reference for both researchers and engineers working in engineering as well as in environmental science.
