Constant Froude number in a circular hydraulic jump and its implication on the jump radius selection

Abstract

The properties of a standard hydraulic jump depend critically on a Froude number Fr defined as the ratio of the flow velocity to the gravity waves speed. In the case of a horizontal circular jump, the question of the Froude number is not well documented. Our experiments show that Fr measured just after the jump is locked on a constant value that does not depend on flow rate Q, kinematic viscosity and surface tension γ. Combining this result to a lubrication description of the outer flow yields, under appropriate conditions, a new and simple law ruling the jump radius RJ : RJ (ln (R∞RJ))3/8 Q5/8 -3/8, in excellent agreement with our experimental data. This unexpected RJ result asks an unsolved question to all available models.