Sumgayit, Azerbaijan
VAC 2.5.10 Гидравлические машины, вакуумная, компрессорная техника, гидро- и пневмосистемы
UDK 532.5 Движение жидкостей. Гидродинамика
BBK 344 Общее машиностроение. Машиноведение
The current state of the issue related to the flow of two-phase (heterogeneous) liquids in hydraulic and water management systems is analysed. The paper objective is to develop hydrodynamic equations of infinitely variable two-phase fluids in accordance with mathematical models taking into account external mass exchange. Based on the problems defined in accordance with the paper objective, the task of building a mathematical model to analyze the turbulent mode of viscous fluid with a continuous flow rate change for hydraulic systems is set.
hydraulic system, turbulent mode, liquid, two-phase fluid
1. Bogomolov AI, Mikhailov KA. Hydraulics. Moscow; 1972.
2. Greenwald DI. Turbulence of channel flows. Leningrad; 1974.
3. Deich ME, Zaryankin AE. Hydro and gas dynamics, Moscow: Energoatomizdat; 1984.
4. Daleye J, Gio M, Ritmuller M. Heat transfer and hydrodynamics of two-phase flows in nuclear and thermal power engineering. Moscow: Energoatomizdat; 1984.
5. Yemtsev BT. Technical hydromechanics. Moscow: Mashinostroenie; 1978.
6. Ismailov RSh, Gakhramanov PF, Ismailova ShG, Jafarov ShT, Gurbanov AA. Phenomenological theory of turbulent motion of an incompressible medium with heat and mass transfer. Sumgayit: Sumgayit State University, Scientific News. 2010;10(2):26-32.
7. Landau LD, Lifshits E M. Hydrodynamics. Moascow: Nauka; 1986.
8. Belov IA, Isaev SA. Modeling of turbulent flows: textbook. St. Petersburg: Baltic State Technical University; 2001.
9. Monin AS, Yaglom AM. Statistical hydromechanics: part I. Moscow: Nauka; 1965.
10. Povkh IL. Technical hydromechanics. Leningrad: Mashinostroenie; 1976.
11. Rabinovich EZ. Hydraulics. Moscow; 1980.
12. Reynolds AJ. Turbulent flows in engineering applications. Moscow: Energiya; 1979.
