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This study complements a series of preliminary experimental studies of the destabilization of a granular stack immersed by fluidization, the particular case being the transient regime of homogeneous fluidization. The significant influence of the initial density (initial volume fraction) of the granular stack on the transient homogeneous fluidization regime is highlighted. An initially loose stack fluidizes turbulently and chaotically in a few seconds, from the injection zone to the top of the granular layer. Conversely, for the same material in an initially dense state, there is a mass takeoff of the stack, which is added to the propagation of porosity wave instability from the bottom to the top of the stack with fast kinetics that decompacts the medium. The results also showed that the velocity of this porosity wave seems almost constant regardless of the fluidization velocity.
Czasopismo
Rocznik
Tom
Strony
155--171
Opis fizyczny
Bibliogr. 26 poz., rys. kolor.
Twórcy
autor
- University of Science and Technology of Beijing, Beijing 100083, China
autor
- University of Science and Technology of Beijing, Beijing 100083, China
autor
- Faculty of Science and Technology of Bamako, Bamako, BP: E3206, Mali
Bibliografia
- 1. K. Shakourzadeh, Techniques de fluidisation, Techniques, Traité Génie des procédés, 2002.
- 2. M. Foster, F. Robin, M. Spannagle, The statistics of embankment dam failures and accidents, Canadian Geotechnical Journal, 37, 1992, 1000–1024, 2000.
- 3. S. Bonelli, Erosion in Geomechanics Applied to Dams and Levees, Wiley, London, 2013.
- 4. R. Fell, P. MacGregor, D. Stapledon, Geotechnical Engineering of Embankment Dams, Balkema, Rotterdam, 1992.
- 5. ICOLD, Dam Failures Statistical Analysis, Commission Internationale des Grands Barrages, Prague, 1995.
- 6. USCOLD 1988, Lessons from Dam Incidents USA II, United States Community on Large Dams, New York, 1988.
- 7. B. Singh, R.S. Varshney, Engineering for Embankment Dams, Balkema, London, 1995.
- 8. L.M. Zhang, Q. Chen, Seepage failure mechanism of the Gouhou rockfill dam during reservoir water infiltration, NII-Electronic Library Services, 46, 5, 557–568, 2006.
- 9. J.A. Charles, Internal erosion in European embankment dams, Building Research Establishment Ltd., pp. 378–393, London, 2002.
- 10. P. Rigord, A. Guarino, V. Vidal, Localized instability of a granular layer submitted to an ascending liquid flow, Granulal Matter, 191–197, 2005.
- 11. R.K. Niven, N. Khalili, In situ fluidisation by a single internal vertical jet, Journal of Hydraulic Research, 36, 2, 199–228, 1998.
- 12. J.E. van Zyl, T. Bird, C.R.I. Clayton, A. Dennis, M.O.A. Alsaydalani, Soil fluidization outside leaks in water distribution pipes – preliminary observations, Proceedings ICE - Water Management, 166, 10, 546–555, 2013.
- 13. M.O.A. Alsaydalani, C.R.I. Clayton, Internal fluidization in granular soils, Journal of Geotechnical and Geoenvironmental Engineering, 140, 3, 4013024, 2014.
- 14. A. Mahadevan, A.V. Orpe, A. Kudrolli, L. Mahadevan, Flow-induced channelization in a porous medium, EPL (Europhysics Letters), 98, 5, 58003, 2012.
- 15. F. Zoueshtiagh, A. Merlen, Effect of a vertically flowing water jet underneath a granular bed, Physical Review E, 75, 2006, 1–12, 2007.
- 16. P. Philippe, M. Badiane, Localized fluidization in a granular medium, Physical Review E, 87, 31–33, 2013.
- 17. R.H. Perry, D.W. Green, J.O. Maloney, Perry’s Chemical Engineers’ Handbook, 7th ed., McGraw-Hill, New York, 1997.
- 18. X. Cui, J. Li, A. Chan, D. Chapman, A 2D DEM-LBM study on soil behaviour due to locally injected fluid, Particuology, 10, 2, 242–252, 2012.
- 19. X. Cui, Numerical Simulation of Internal Fluidization and Cavity Evolution Due toa Leaking Pipe Using the Coupled DEM-LBM Technique, University of Birmingham Research Archive e-theses Repository, Birmingham, 2012.
- 20. V. Chávez, E. Mendoza, R. Silva, A. Silva, M.A. Losada, An experimental method to verify the failure of coastal structures by wave induced liquefaction of clayey soils, Coastal Engineering, 123,1–10, 2017.
- 21. G.K. Batchelor, Sedimentation in a dilute dispersion of spheres, Journal of Fluid Mechanics, 52, 2, 245, 1972.
- 22. J. Richardson, W. Zaki, Sedimentation and fluidisation: Part I, Transactions of the Institution of Chemical Engineers, 32, 3, 35–53, 1954.
- 23. A.R. Khan, J.F. Richardson, Fluid-particle interactions and flow characteristics of fluidized beds and settling suspensions of spherical particles, Chemical Engineering Communications, 78, 1, 111–130, 1989.
- 24. J. Garside,M.R. Ai-Dibouni, Velocity-voidage relationships for fluidization and sedimentation, Industrial and Engineering Chemistry Process Design, 16, 2, 206–214, 1977.
- 25. S. Rapagna, R. Di Felice, L.G. Gibilaro, P.U. Foscolo, Steady-state expansion characteristics of monosize spheres fluidised by liquids, Chemical Engineering Commuications, 79, 1, 131–140, 1989.
- 26. L. Gibilaro, Fluidization Dynamics, British Library Cataloguing in Publication Data, London, 2001.
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019.)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5e179be6-0f70-442b-808d-37a16119e2e4