Approximate method of solving problems of fluid agitation in rotating cavities

1. M. Ya. Barnyak and I. A. Lukovskii, “Determination of the frequencies and models of natural ideal fluid oscillations in a vessel for a large relative depth,” Prikl. Mekh.,10, No. 5, 109–115 (1974).

   Google Scholar 

2. I. B. Bogoryad, “On solution of the problem of agitation of a fluid partially filling a cavity, by a variational method,” Prikl. Mat. Mekh.,26, No. 6, 1122–1127 (1962).

   Google Scholar 

3. L. V. Kantorovich and V. I. Krylov, Approximate Methods of Higher Analysis [in Russian], Gostekhizdat, Moscow-Leningrad (1950).

   Google Scholar 

4. S. F. Feshchenko, I. A. Lukovskii, B. I. Rabinovich, et al., Methods of Computing the Apparent Fluid Masses in Moving Cavities [in Russian], Naukova Dumka, Kiev (1969).

   Google Scholar 

5. G. N. Mikishev and B. I. Rabinovich, Dynamics of a Solid with Partially Fluid-Filled Cavities [in Russian], Mashinostroenie, Moscow (1968).

   Google Scholar 

6. S. G. Mikhlin, Variational Methods in Mathematical Physics [in Russian], Gostekhizdat, Moscow (1957).

   Google Scholar 

7. N. N. Moiseev and A. A. Petrov, Numerical Methods of Computing the Natural Oscillations Frequencies of a Bounded Fluid Volume [in Russian], Izd. Vychisl. Tsentr. Akad. Nauk SSSR (1966).

8. E. M. Stazhkov, “Algorithms for the numerical solution of the problem to determine the frequencies and apparent masses of the fluid in computing the oscillations of a structure with liquid tanks,” Issled. Teor. Sooruzh., No. 20, 62–73 (1974).

   Google Scholar 

9. V. P. Shmakov, “On the calculation of the natural fluid oscillations in fixed vessels,” in: Dynamics of Elastic and Solid Bodies Interacting with a Liquid [in Russian], Izd. Tomsk Univ. (1978), pp. 157–162.

Download references