In this work, a mathematical model of a springtime thermal bar is constructed. A closed system of Reynolds-type equations is used; it is constructed based on a nonlinear system of thermohydrodynamic equations with the use of a special method for extracting the large-scale structures in a turbulent medium. A numerical solution of this system in a water reservoir with an inclined bottom is obtained; the contribution introduced by the Coriolis force into thermodynamic processes in a water reservoir in the period of existence of a springtime thermal bar is demonstrated.
$^1$Moscow State University, Moscow, 119992, Russia
$^2$P.P. Shirshov Institute of Oceanology, Russian Academy of Sciences, 36 Nakhimovskii ave., Moscow, 117997, Russia
Science News of the Faculty of Physics, Lomonosov Moscow State University
This new information publication, which is intended to convey to the staff, students and graduate students, faculty colleagues and partners of the main achievements of scientists and scientific information on the events in the life of university physicists.