Water Science and Technology (Aug 2021)

Modern vision for critical flow in an egg-shaped section

  • Hachemi Rachedi Lamia,
  • Lakehal Moussa,
  • Achour Bachir

DOI
https://doi.org/10.2166/wst.2021.274
Journal volume & issue
Vol. 84, no. 4
pp. 840 – 850

Abstract

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The critical regime plays a primordial role in the study of gradually varying flows by classifying flow regimes and slopes. Through this work, a new approach is proposed to analyze critical flow regime in an egg-shaped channel. Based on both the definition of Froude number and Achour and Bedjaoui general discharge relationship, a relation between critical and normal depths is derived and then graphically represented for the particular case of a smooth channel characterized by a generating diameter equal to 1 m. The results show the influence of the slope on the frequency of occurrence of the critical regime. At the same time and independently of the flow rate, a very advantageous approach for the calculation of the Froude number has been proposed. The study shows that there are six zones to differentiate the various flow states, namely: on the one hand for steep slopes two subcritical zones interspersed by a supercritical zone and on the other hand for mild slopes a zone corresponding to uniform flow, an area where the flow is probably gradually varied and finally an area where the flow is abruptly varied. Based on the specific energy equation, a validation process concluded that the proposed relationships were reliable. HIGHLIGHTS Determination of the frequency of occurrence of the critical regime.; The nature of the flow regime can be deduced from the value of the slope.; New theoretical approach for the study of the critical regime in an egg-shaped conduit considered as a form with several advantages.; The Froude number can be determined independently of the flow rate. Establishment of an abacus to define the flow domain including non-uniform flows.;

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