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Empirical Formulation of Flow Characteristics in Trapezoidal Channels

Gandhi, S. / Singh, R. P.

Abstract Empirical relations for hydraulic jump characteristics, viz. sequent depth ratio (Y2/Y1), efficiency of jump (E2/E1) and relative length of jump (Lj/Y1) in trapezoidal channel with/without appurtenances are developed by introducing dimensionless Reynolds number, and neglecting the frictional effect for approach Froude number (varied between 2 and 10 under different conditions). Developed empirical models were also validated and compared with acquired experimental data as well as with literature data. Close fitness of the empirical models with appurtenances under varying dimensions, positions of baffle blocks provides accurate prediction of same for higher value of Froude number.

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Empirical Formulation of Flow Characteristics in Trapezoidal Channels

Gandhi, S. / Singh, R. P.

Abstract Empirical relations for hydraulic jump characteristics, viz. sequent depth ratio (Y2/Y1), efficiency of jump (E2/E1) and relative length of jump (Lj/Y1) in trapezoidal channel with/without appurtenances are developed by introducing dimensionless Reynolds number, and neglecting the frictional effect for approach Froude number (varied between 2 and 10 under different conditions). Developed empirical models were also validated and compared with acquired experimental data as well as with literature data. Close fitness of the empirical models with appurtenances under varying dimensions, positions of baffle blocks provides accurate prediction of same for higher value of Froude number.

Empirical Formulation of Flow Characteristics in Trapezoidal Channels

Gandhi, S. / Singh, R. P.

Abstract Empirical relations for hydraulic jump characteristics, viz. sequent depth ratio (Y2/Y1), efficiency of jump (E2/E1) and relative length of jump (Lj/Y1) in trapezoidal channel with/without appurtenances are developed by introducing dimensionless Reynolds number, and neglecting the frictional effect for approach Froude number (varied between 2 and 10 under different conditions). Developed empirical models were also validated and compared with acquired experimental data as well as with literature data. Close fitness of the empirical models with appurtenances under varying dimensions, positions of baffle blocks provides accurate prediction of same for higher value of Froude number.

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Titel:

Empirical Formulation of Flow Characteristics in Trapezoidal Channels

Beteiligte:

Gandhi, S. (Autor:in) / Singh, R. P. (Autor:in)

Erschienen in:

Journal of The Institution of Engineers (India): Series A ; 97 ; 247-253

Erscheinungsdatum:

27.05.2016

Format / Umfang:

7 pages

ISSN:

2250-2157 , 2250-2149

DOI:

https://doi.org/10.1007/s40030-016-0153-3

Medientyp:

Aufsatz (Zeitschrift)

Format:

Elektronische Ressource

Sprache:

Englisch

Schlagwörter:

Trapezoidal channel , Hydraulic jump , Energy dissipation , Reynolds number , Baffles Engineering , Civil Engineering

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