Results are presented on asymmetric sloshing in partially filled circular, cylindrical tanks subjected to horizontal, periodic forcing, as well as on geyser formation and following sloshing caused by a sudden change in Bond number. Asymmetric sloshing is controlled by three parameters that are the liquid depth parameter, the frequency o¨set parameter (depending on forcing frequency and forcing amplitude), and the damping. Results are presented that cover a wide range of forcing frequencies and forcing amplitudes in the asymptotic limit of large fluid depth and low viscosity liquids. Geyser formation and axisymmetric sloshing is initiated by dam-break experiments, simulating a sudden change in Bond number. This problem is encountered in liquid-propellant fuel tanks where under microgravity conditions, the liquid rises near the containerwall. Engine restart (sudden axial acceleration) can cause geyser formation followed by violent liquid sloshing and gas entrainment.