Reuther, S., Voigt, A.: The interplay of curvature and vortices in flow on curved surfaces. Multiscale Modeling & Simulation 13, 632-643 (2015)S. Reuther and A. Voigt. The interplay of curvature and vortices in flow on curved surfaces. SIAM Multiscale Model. Simul., 13(2):632-643,...
the conservation law of dipole moment cannot remain unchanged on a curved space. Below, we show that, in curved space, the dynamics of vortices and the mobility constraints change. Vortices on a curved space have been studied in86,87,88and can be experimentally realized in thin4He ...
It would be interesting to extend the discussion of this and the next two sections to curved surfaces (i. e., nonflat metrics) with boundaries, and the extension to dimensions [14, 15, 16]. The front and back faces are “morally” indistinguishable, being anticonformally equivalent. The ...
Thus, the whole wing boundary layer (on both the pressure and suction surfaces) has to be computed accurately to provide the initial conditions for the vortex computation itself. Likewise, the model of turbulence adopted also has to be capable of resolving accurately the complex wing boundary ...
subjected to crystallization conditions in the presence of Dean vortices, which Dean vortices result from said liquid flowing through a channel having at least one curvature, wherein said material crystallizes on solid surfaces, in particular on surfaces of the heterogeneous particles present in the ...
Vortex generators, which look like small fins perched on the surfaces of the aircraft, improve an aircraft's aerodynamic performance by delaying boundary layer separation. The boundary layer is a small layer of air that surrounds the aircraft and is somewhat slow moving compared to the aircraft as...
said wall portions being close to the tips. To ensure an optimal material circulation along all surfaces of the container and specifically along all surfaces of the chamber, the said wall portions shall be smooth and rounded around the orbits of the tips as far as possible. However, as descri...
Reuther, S., Voigt, A.: The interplay of curvature and vortices in flow on curved surfaces. Multiscale Model. Simul. 13, 632-643 (2015)Reuther R, Voigt A. 2014 The interplay of curvature and vortices in flow on curved surfaces. SIAM J. Multiscale Model. Simul. 13, 632-643. (doi:...
Voigt, The interplay of curvature and vortices in flow on curved surfaces, Multiscale Model. Simul., 13 (2015), pp. 632-643.Reuther S, Voigt A. 2015 The interplay of curvature and vortices in flow on curved surfaces. Multiscale Model. Sim. 13, 632-643. (doi:10.1137/140971798)...
Yang, Y. (1990) Vortices on asymptotically Euclidean Riemann surfaces. Nonlinear Anal. 15: pp. 577-596Y. Yang, Vortices on asymptotically Euclidean Riemann surfaces, Nonlinear Anal. 15, 577-596 (1990).Y. Yang, Vortices on asymptotically Euclidean Riemann surfaces, Nonlinear Anal. 15, 577-596...