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Full Description
This book presents mathematical fundaments and results on sloshing in an upright circular cylindrical tank with semi-analytical solutions. The book outlines generic mathematical and physical aspects of the multimodal method, describes milestones, and presents several versions of modal systems for an upright circular tank, both linear and nonlinear.
The book offers an extended description of the state-of-the-art theoretical sloshing with more than 200 references. It presents mathematical fundamentals of free-surface sloshing problems, details linear and nonlinear modal equations, provides analytical estimates of viscous damping, and covers stability analysis of steady-state solution.
The book is for engineers dealing with sloshing, applied mathematicians working on free-surface problems, and lecturers in fluid mechanics that need to know the fundamentals and analytical solutions from surface wave theory.
Contents
1. Introduction. 2. Differential, Variational and Modal Statements of the Sloshing Problem. 3. Damping in Liquid Sloshing Dynamics. 4. Linear Modal Theory. 5. Nonlinear Asymptotic Modal Theory of the Narimanov-Moiseev Type. 6. Steady-state (periodic) Solutions of the Narimanov-Moiseev Type Modal Equations. 7. Steady-State Sloshing for the Longitudinal Forcing.
8. Steady-State Sloshing for Orbital Forcing. Appendix: Tables of hydrodynamic coefficients
