Numerical and Experimental Analysis of the Hydrodynamic Performance of a Three-Dimensional Finite-Length Rotating Cylinder

Abstract: The hydrodynamic performance of a three-dimensional finite-length rotating cylinder is studied by means of a physical tank and numerical simulation. First, according to the identified influencing factors, a hydrodynamic performance test of the rotating cylinder was carried out in a circulating water tank. In order to explore the changing law of hydrodynamic performance with these factors, a particle image velocimetry device was used to monitor the flow field. Subsequently, a computational field dynamics numeri… Show more

“…The presented model tests did not allow for the measurement of the lift force generated by RC in operational conditions. However, the steady course keeping trial allowed to verify the empirical formula proposed for the isolated RC (Equation 3) [ 19 , 21 ].…”

“…Both the lift forces generated by RC and rudder can be estimated using lift force coefficients. The lift coefficient of the RC was obtained experimentally in [ 19 , 21 ], the lift coefficient of the rudder was the coefficient of the rudder profile of NACA (National Advisory Committee for Aeronautics) airfoil series.…”

“…The usual methods used to predict the lift force are based on empirical equations, physical modeling [ 15 , 16 , 17 , 18 ], and numerical simulation [ 19 , 20 , 21 , 22 ]. The empirical methods are mainly developed for the large aspect ratio aerodynamic rotors operated at high Reynolds numbers [ 21 , 22 ]. The detailed literature study on the research related to isolated rotating cylinders was presented in [ 19 ].…”

Investigations of Hydrodynamic Force Generated on the Rotating Cylinder Implemented as a Bow Rudder on a Large-Scale Ship Model

“…The presented model tests did not allow for the measurement of the lift force generated by RC in operational conditions. However, the steady course keeping trial allowed to verify the empirical formula proposed for the isolated RC (Equation 3) [ 19 , 21 ].…”

“…Both the lift forces generated by RC and rudder can be estimated using lift force coefficients. The lift coefficient of the RC was obtained experimentally in [ 19 , 21 ], the lift coefficient of the rudder was the coefficient of the rudder profile of NACA (National Advisory Committee for Aeronautics) airfoil series.…”

“…The usual methods used to predict the lift force are based on empirical equations, physical modeling [ 15 , 16 , 17 , 18 ], and numerical simulation [ 19 , 20 , 21 , 22 ]. The empirical methods are mainly developed for the large aspect ratio aerodynamic rotors operated at high Reynolds numbers [ 21 , 22 ]. The detailed literature study on the research related to isolated rotating cylinders was presented in [ 19 ].…”

Investigations of Hydrodynamic Force Generated on the Rotating Cylinder Implemented as a Bow Rudder on a Large-Scale Ship Model

“… The presented experimental test setup was constructed to observe all phenomena including vibrations without causing damage to the drive, supporting structure, and measuring devices. Wang et al [ 14 ] observed the vortex-induced vibrations increasing with the increase of the cylinder aspect ratio at the same value of α. The smooth progress of the experiment was affected for α of about 4 with a possible damage of devices.…”

“…In the experiment presented by Wang et al [ 14 ], the tested cylinder was installed under the plate situated on the water surface, eliminating the free surface effect and tip vortices on the top of the cylinder. For the cylinder of 0.1 m diameter and aspect ratio 1, at Reynolds numbers in the range of from Re = 2 × 10 5 to 1 × 10 6 and α = 2, the lift coefficient was equal to 3.5.…”

Experimental Method for the Measurements and Numerical Investigations of Force Generated on the Rotating Cylinder under Water Flow

Effects of viscoelastic fluid on noise reduction of the flow over a circular cylinder