AAAAAA
Results:
1-19
|
Results: 19
Authors:
Albensoeder, S
Kuhlmann, HC
Rath, HJ
Citation: S. Albensoeder et al., Three-dimensional centrifugal-flow instabilities in the lid-driven-cavity problem, PHYS FLUIDS, 13(1), 2001, pp. 121-135
Authors:
Albensoeder, S
Kuhlmann, HC
Rath, HJ
Citation: S. Albensoeder et al., Multiplicity of steady two-dimensional plows in two-sided lid-driven cavities, TH COMP FL, 14(4), 2001, pp. 223-241
Authors:
Henselowsky, C
Kuhlmann, HC
Rath, HJ
Citation: C. Henselowsky et al., Heat transfer from hot wires at small forced-flow velocities, Z ANG MA ME, 81, 2001, pp. S497-S498
Authors:
Lee, YS
Kuhlmann, HC
Rath, HJ
Chun, CH
Citation: Ys. Lee et al., Stability of thermocapillary flow in cylindrical liquid bridges: Rotation of the hot disk, Z ANG MA ME, 81, 2001, pp. S503-S504
Authors:
Nienhuser, C
Kuhlmann, HC
Rath, HJ
Citation: C. Nienhuser et al., Instability of buoyant-thermocapillary flows in non-cylindrical liquid bridges, Z ANG MA ME, 81, 2001, pp. S509-S510
Authors:
Albensoeder, S
Kuhlmann, HC
Rath, HJ
Citation: S. Albensoeder et al., The lid-driven cavity revisited: Stability of two-dimensional flow, Z ANG MA ME, 81, 2001, pp. S779-S780
Authors:
Blohm, C
Albensoeder, S
Kuhlmann, HC
Broda, M
Rath, HJ
Citation: C. Blohm et al., The two-sided lid-driven cavity: Aspect-ratio dependence of the flow stability, Z ANG MA ME, 81, 2001, pp. S781-S782
Authors:
Leypoldt, J
Kuhlmann, HC
Rath, HJ
Citation: J. Leypoldt et al., Stability of hydrothermal-wave states, Z ANG MA ME, 81, 2001, pp. S785-S786
Authors:
Albensoeder, S
Kuhlmann, HC
Rath, HJ
Citation: S. Albensoeder et al., Multiple solutions in lid-driven cavity flows I. Parallel wall motion, Z ANG MA ME, 80, 2000, pp. S615-S616
Authors:
Blohm, C
Murck, M
Kuhlmann, HC
Rath, HJ
Citation: C. Blohm et al., Velocity and wall-shear-stress measurements of internal vortex flows in a two-sided lid-driven cavity, Z ANG MA ME, 80, 2000, pp. S621-S622
Authors:
Kuhlmann, HC
Albensoeder, S
Rath, HJ
Citation: Hc. Kuhlmann et al., Multiple solutions in lid-driven cavity flows II. Anti-parallel wall motion, Z ANG MA ME, 80, 2000, pp. S649-S650
Authors:
Henselowsky, C
Kuhlmann, HC
Rath, HJ
Citation: C. Henselowsky et al., Experimental setup for low Reynolds number calibration of thermal anemometers, Z ANG MA ME, 80, 2000, pp. S685-S686
Authors:
Nienhuser, C
Kuhlmann, HC
Rath, HJ
Citation: C. Nienhuser et al., Linear stability analysis of thermocapillary convection in liquid bridges and the energy budget of neutral perturbations, Z ANG MA ME, 80, 2000, pp. S697-S698
Authors:
Sakurai, M
Kuhlmann, HC
Rath, HJ
Citation: M. Sakurai et al., Marangoni convection in an open boat, Z ANG MA ME, 80, 2000, pp. S701-S702
Authors:
Schmidt, G
Kuhlmann, HC
Rath, HJ
Citation: G. Schmidt et al., Instabilities of dynamic thermo- and solutocapillary liquid layers, Z ANG MA ME, 80, 2000, pp. S705-S706
Authors:
Leypoldt, J
Kuhlmann, HC
Rath, HJ
Citation: J. Leypoldt et al., Three-dimensional numerical simulation of thermocapillary flows in cylindrical liquid bridges, J FLUID MEC, 414, 2000, pp. 285-314
Influence of variable viscosity on the onset of hydrothermal waves in thermocapillary liquid bridges
Authors:
Kozhoukharova, Z
Kuhlmann, HC
Wanschura, M
Rath, HJ
Citation: Z. Kozhoukharova et al., Influence of variable viscosity on the onset of hydrothermal waves in thermocapillary liquid bridges, Z ANG MA ME, 79(8), 1999, pp. 535-543
Authors:
Prange, H
Wanschura, M
Kuhlmann, HC
Rath, HJ
Citation: H. Prange et al., Linear stability of thermocapillary convection in cylindrical liquid bridges under axial magnetic fields, J FLUID MEC, 394, 1999, pp. 281-302
Authors:
Kuhlmann, HC
Nienhuser, C
Rath, HJ
Citation: Hc. Kuhlmann et al., The local flow in a wedge between a rigid wall and a surface of constant shear stress, J ENG MATH, 36(3), 1999, pp. 207-218
Risultati:
1-19
|