Numerical simulation of minimum B‐jumps at abrupt drops |
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| Authors: | Nuray Denli Tokyay A. Burcu Altan‐Sakarya Elvan Eski |
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| Affiliation: | 1. Department of Civil Engineering, Middle East Technical University, 06531 Ankara, Turkey;2. Associate Professor.;3. Assistant Professor. |
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| Abstract: | A numerical simulation of minimum B‐jumps in horizontal rectangular channels having an abrupt drop is given. Gradually varied, steady, supercritical flow is assumed as the initial condition. An unsteady flow is created by increasing the downstream depth. One‐dimensional, unsteady Saint‐Venant equations are solved by using the MacCormack and the dissipative two–four explicit finite difference schemes. The steady flow solution is obtained by treating the time variable as an iteration parameter and letting the solution converge to the steady state. The abrupt drop is treated as an interior boundary and solved by the method of characteristics. The results are compared with experimental and analytical studies. Copyright © 2007 John Wiley & Sons, Ltd. |
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| Keywords: | hydraulic jump minimum B‐jump abrupt drop numerical simulation finite difference scheme |
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