In narrow open channels, the three-dimensional nature of the flow and the transport momentum from the sidewalls to the central region cause the maximum longitudinal velocity to occur below the water surface. The entropy model is unable to accurately describe the velocities near the free surface when the dip phenomenon exists. The present paper proposes a new dip-modified entropy law for steady open channel flows, which consists of three additional terms: the first one similar to Coles' function; the second one linearly proportional to the logarithmic distance from the free surface; and the third one depending on the cubic correction near the maximum velocity. The validity of the new model was tested on a set of laboratory measurements carri...
The entropy-based approach allows the estimation of the mean flow velocity in open channel flow by u...
This paper examines the discharge and velocity distributions in natural open channel flows using the...
A two-dimensional velocity profile based upon the principle of maximum entropy (POME) for wide open ...
In narrow open channels, the three-dimensional nature of the flow and the transport momentum from th...
The knowledge of the fluid discharge in free surface flows requires a great number of velocity measu...
The three-dimensional structure of river flow and the presence of secondary currents, mainly near wa...
Two different data sets (LDA, propeller) were used to observe the occurrence of the dip effectin rec...
An analytical model to predict the velocity-dip-position at the central section of open channels is ...
The entropy model allows estimating, in an expeditive way, both water discharge and flow velocity fi...
A theoretic-analytical formulation, based on entropy velocity profile law and classical relationship...
The way to evaluate the entropy parameter M through the ratio between medium and maximum velocity, Φ...
The modified log-wake law, which was developed for turbulent boundary layers and pipe flows, is exte...
Water discharge assessment in open channel flow is one of the most crucial issues for hydraulic engi...
The aim of the present study is to assess the impact of the velocity-dip and wake strength on the ve...
The entropy-based approach allows the estimation of the mean flow velocity in open channel flow by u...
This paper examines the discharge and velocity distributions in natural open channel flows using the...
A two-dimensional velocity profile based upon the principle of maximum entropy (POME) for wide open ...
In narrow open channels, the three-dimensional nature of the flow and the transport momentum from th...
The knowledge of the fluid discharge in free surface flows requires a great number of velocity measu...
The three-dimensional structure of river flow and the presence of secondary currents, mainly near wa...
Two different data sets (LDA, propeller) were used to observe the occurrence of the dip effectin rec...
An analytical model to predict the velocity-dip-position at the central section of open channels is ...
The entropy model allows estimating, in an expeditive way, both water discharge and flow velocity fi...
A theoretic-analytical formulation, based on entropy velocity profile law and classical relationship...
The way to evaluate the entropy parameter M through the ratio between medium and maximum velocity, Φ...
The modified log-wake law, which was developed for turbulent boundary layers and pipe flows, is exte...
Water discharge assessment in open channel flow is one of the most crucial issues for hydraulic engi...
The aim of the present study is to assess the impact of the velocity-dip and wake strength on the ve...
The entropy-based approach allows the estimation of the mean flow velocity in open channel flow by u...
This paper examines the discharge and velocity distributions in natural open channel flows using the...
A two-dimensional velocity profile based upon the principle of maximum entropy (POME) for wide open ...