In this research, the adverse hydraulic jump formed in a gradually expanding stilling basin of rectangular cross section is investigated both thedretically and experimentally. The experiments were conducted in a specially designed model for a wide range of bed slopes and diverging angles of the basin walls in addition to classic jump for a wide range of Froude numbers. A momentum-based theory is presented to determine the sequent depth ratio. The results show that there is good agreement between theoretical and experimental data. Comparison of important parameters of a diverging hydraulic jump on the adverse slope, such as length, sequent depth and energy loss, with those in the classic jumps indicated that any increase in the adverse bed slope and the diverging angle of basin wall would cause a reduction of the sequent depth and relative length of jump and increase in the relative energy loss in comparison to the classical hydraulic jump.

• 出版日期2014-2