Characteristics of Hydraulic Jump
Authors: Sumit Gandhi
Abstract:
The effect of an abruptly expanding channel on the main characteristics of hydraulic jump is considered experimentally. The present study was made for supercritical flow of Froude number varying between 2 to 9 and approach to expanded channel width ratios 0.4, 0.5, 0.6 and 0.8. Physical explanations of the variation of these characteristics under varying flow conditions are discussed based on the observation drawn from experimental results. The analytical equation for the sequent depth ratio in an abruptly expanding channel as given by eminent hydraulic engineers are verified well with the experimental data for all expansion ratios, and the empirical relation was also verified with the present experimental data.
Keywords: Abruptly Expanding Channel, Hydraulic Jump, Efficiency, Sequent Depth Ratio.
Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1092253
Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 4182References:
[1] Agarwal. V. C., "Graphical Solution to the Problem of Sequent Depth and Energy Loss in Spatial Hydraulic Jump”, Water & Maritime Engineering 14 B, March 2001, Issue 1A, 2001, pp. 1 - 3.
[2] Bidone Giorgio, "Observations on the Height of Hydraulic Jump”, report presented in Royal academy of sciences of Turin, 1818, 21 – 80.
[3] Bremen. R, Hager. W. H., "T - Jump In Abruptly Expanding Channel”, Journal of Hydraulic Research, 31 (1), 1993, pp. 61 - 73.
[4] Bremen. R, Hager. W. H., "Expanding Stilling Basin”, Proceeding ICE, Water, Maritime and Engineering, 106, 1994, pp. 215 - 228.
[5] Gandhi. S., "Study of The Characteristics of Hydraulic Jump In a Suddenly Expanding Rectangular Channel”, M. Tech Thesis at Motilal Nehru National Institute of Technology, Allahabad, India, 2004.
[6] Hager. W. H., "Hydraulic Jumps in Non-Prismatic Rectangular Channels”, Journal of Hydraulic Research, 23 (1), 1985, pp. 21 - 35.
[7] Herbrand. K., "The Spatial Hydraulic Jump”, Journal of Hydraulic Research Delft, The Netherland, 11 (3), 1973, pp. 205 - 217.
[8] Matin. M. A, Alhamid. A. A, Negm. A. M., "Prediction of Sequent Depth Ratio of Hydraulic Jump In Abruptly Expanding Channel”, Proceedings of International Conference on Hydro-Science and Engineering Hydro-Science and Engineering ICHE98, Advances in Hydro-Science and Engineering, III, Cottbus/Berlin, Germany, 1998.
[9] Ranga Raju. K. G., "Flow through Open Channel”, McGraw Hill, New Delhi, 1993, 2nd Edn.
[10] Rajaratnam. N, Subramanya. K., "Hydraulic Jumps below Abrupt Symmetrical Expansions”, Proceeding ASCE, Journal of Hydraulics Division, 94 (3), 1968, pp. 481 - 503.
[11] Smith. G. D., "The Submerged Hydraulic Jump In An Abrupt Lateral Expansion”, Journal of Hydraulic Research, 27 (2), 1989, pp. 257 - 266.
[12] Unny. T. E, "The Spatial Hydraulic Jump IX IAHR Congress”, Belgrade, 1961, pp. 32 - 42.