Control of Fluid-Containing Rotating Rigid Bodies (Communications in Cybernetics, Systems Science and Engineering 3)

Control of Fluid-Containing Rotating Rigid Bodies (Communications in Cybernetics, Systems Science and Engineering 3)

By: Vladimir I. Tsurkov (author), Mikhail V. Nosov (author), Anatoly A. Gurchenkov (author)Hardback

1 - 2 weeks availability

Description

This book is devoted to the study of the dynamics of rotating bodies with cavities containing liquid. Two basic classes of motions are analyzed: rotation and libration. Cases of complete and partial filling of cavities with ideal liquid and complete filling with viscous liquid are treated. The volume presents a method for obtaining relations between angular velocities perpendicular to main rotation and external force momentums, which are treated as control. The developed models and methods of solving dynamical problems as well as numerical methods for solving problems of optimal control can be used for studying the dynamics of aircraft in the atmosphere and spacecraft with stores of liquid fuel, which are rotating around some axis for stabilization. The results are also applicable in the development of fast revolving rotors, centrifuges and gyroscopes, which have cavities filled with liquid. This work will be of interest to researchers at universities and laboratories specializing in problems of control for hybrid systems, as well as to under-/postgraduates with this specialization. It will also benefit researchers and practitioners in aerospace and mechanical engineering.

Create a review

About Author

Anatoly A. Gurchenkov, Doctor of Science (in physics and mathematics), Leading Researcher at the Department of Complex Systems, Computer Center, Russian Academy of Sciences and Professor at the Russian State Technological University (MATI). A well-known specialist in stability and control of rotating dynamic systems with a fluid-filled cavity. Author of more than 100 papers published by the Russian Academy of Sciences, "Fizmatlit" and other publishing houses, including four monographs; author of two patents. Mikhail V. Nosov, Candidate of Science (in physics and mathematics), Senior Researcher at the Department of Complex Systems, Computer Center, Russian Academy of Sciences. Author of more than 25 papers published by the Russian Academy of Sciences and other publishing houses. Teaches courses in programming, computer science, and theory of relational databases at the Russian State Technological University (MATI). Vladimir I. Tsurkov, Doctor of Science (in physics and mathematics), Head of the Department of Complex Systems Computer Center, Russian Academy of Sciences, and Professor at the Moscow Institute of Physics and Technology. Member of the Institute for Management Sciences and Operations Research (USA), Associate Member of the Russian Academy of Natural Sciences, Member of the Editorial Board of the Journal of Computer and Systems Sciences International. One of the leading experts in aggregation-based decomposition methods and a well-known specialist in analysis of numerical methods related to operation research models, in large-scale hierarchical optimization and control, and in catastrophe theory. Author of more than 180 papers published by the Russian Academy of Sciences, "Fizmatlit" and other publishing houses (in particular, Kluwer), including six monographs.

Contents

Introduction Control of a rotating rigid body with a cavity completely filled with an ideal fluid Equations of motion of a rigid body with a cavity completely filled with an ideal incompressible fluid Stability of the steady rotation of a solid body with a cavity containing a fluid The dependence of the angular velocity of the perturbed motion on the moment of external forces An equivalent system of equations convenient for studying optimal control problems An example with discontinuous control Application of Bellman's optimality principle Reduction of the main relation to a fourth-order system Control of a rotating rigid body containing a fluid with free surface Statement of the problem Small oscillations of a viscous fluid partially filling a vessel Rotational motions of a rigid body with a cavity partially filled with a fluid Linearization of the problem Hydrodynamic problem The Bubnov-Galerkin method Stability of the free rotation of a body-fluid system Equations of motion of a body-fluid system in an equivalent form Oscillations of a plate in a viscous fluid: The flat wall model An unsteady boundary layer on a rotating plate Longitudinal quasi-harmonic oscillations of a plate Boundary layer structure Tangential stress vector Oscillatory solutions Oscillations of a viscous incompressible fluid above a porous plate in the presence of medium injection (suction) Motion of the plate with a constant acceleration Control of a rotating rigid body containing a viscous fluid Small oscillations of a viscous fluid completely filling a vessel Equations of the perturbed motion of a body with a cavity containing a viscous fluid Coefficients of inertial couplings of a rigid body with a fluid: the case of a cylindrical cavity Oscillations of a viscous incompressible fluid in a cavity of a rotating body Internal friction moment in a fluid-filled gyroscope Stability of a fluid-filled gyroscope Equations of motion for a rigid body with a cavity equipped with fluid oscillation dampers An integral relation in the case of a viscous fluid An equivalent system in the optimal control setting Conclusion

Product Details

  • publication date: 11/04/2013
  • ISBN13: 9781138000216
  • Format: Hardback
  • Number Of Pages: 160
  • ID: 9781138000216
  • weight: 442
  • ISBN10: 1138000213

Delivery Information

  • Saver Delivery: Yes
  • 1st Class Delivery: Yes
  • Courier Delivery: Yes
  • Store Delivery: Yes

Prices are for internet purchases only. Prices and availability in WHSmith Stores may vary significantly

Close