The apparent mass effect is enhanced significantly when the motion of a body changes quickly, such as a flapping wing or an impulsively started plate. Previous method for calculating the apparent mass of a given body needs to adopt the assumption of ideal flow and know the potential of velocity field arising in the fluid due to the motion of the body. However, the assumption of ideal flow is contrary to real fluid field and it is hard to obtain the potential of velocity field in most cases. In this paper, a new method based on the vorticity moment theorem for calculating the apparent mass of the body of revolution in the axial direction due to axial acceleration is developed. This method has no assumption of ideal flow and establishes the r...
The development of mathematical models of marine vehicle manoeuvring has had a long history. To help...
The observed flow field about slender inclined bodies of revolution is compared with the calculated ...
A new method is presented for obtaining the velocity potential of the flow about a body of revolutio...
The problem of mathematically modelling the symmetric vortex pair formed on the lee side of a body ...
Added mass characterises the additional force required to accelerate a body when immersed in an idea...
Electrical analogy technique for determining rotational apparent masses of body in two- dimensional ...
The incompressible Navier-Stokes equations are numerically solved for steady flow around an ogive-cy...
In this paper we shall attempt to review the existing information, both theoretical and experimenta...
Two methods are presented characteristics of bodies SUMMARY for predicting the aerodynamic in in...
Solution for compressible flow past slender bodies of revolution has been derived by an iteration pr...
'The views expressed herein are those of the authors alone and do not neeessurily represent tho...
Darwin (1953) introduced a simple heuristic that relates the Lagrangian fluid drift induced by a sol...
Aquatic locomotion of a deformable body from rest up to its asymptotic speed is given by the unstead...
Classical potential flow added mass theory does not appear to account for all the forc...
The observed flow field about slender inclined bodies of revolution is compared with the calculated ...
The development of mathematical models of marine vehicle manoeuvring has had a long history. To help...
The observed flow field about slender inclined bodies of revolution is compared with the calculated ...
A new method is presented for obtaining the velocity potential of the flow about a body of revolutio...
The problem of mathematically modelling the symmetric vortex pair formed on the lee side of a body ...
Added mass characterises the additional force required to accelerate a body when immersed in an idea...
Electrical analogy technique for determining rotational apparent masses of body in two- dimensional ...
The incompressible Navier-Stokes equations are numerically solved for steady flow around an ogive-cy...
In this paper we shall attempt to review the existing information, both theoretical and experimenta...
Two methods are presented characteristics of bodies SUMMARY for predicting the aerodynamic in in...
Solution for compressible flow past slender bodies of revolution has been derived by an iteration pr...
'The views expressed herein are those of the authors alone and do not neeessurily represent tho...
Darwin (1953) introduced a simple heuristic that relates the Lagrangian fluid drift induced by a sol...
Aquatic locomotion of a deformable body from rest up to its asymptotic speed is given by the unstead...
Classical potential flow added mass theory does not appear to account for all the forc...
The observed flow field about slender inclined bodies of revolution is compared with the calculated ...
The development of mathematical models of marine vehicle manoeuvring has had a long history. To help...
The observed flow field about slender inclined bodies of revolution is compared with the calculated ...
A new method is presented for obtaining the velocity potential of the flow about a body of revolutio...
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