SIMULATION OF THE STRUCTURE OF GAS-LIQUID FLOWS IN THE APPLICATION OF THE WATER-AIR MODEL FOR RESEARCH OF THE STEAM-WATER SYSTEM

Mirzakhmadov Bakhodir Nosirjon oghli; Khudaikulov Sovet Ishankulovich

SIMULATION OF THE STRUCTURE OF GAS-LIQUID FLOWS IN THE APPLICATION OF THE WATER-AIR MODEL FOR RESEARCH OF THE STEAM-WATER SYSTEM

Authors

Mirzakhmadov Bakhodir Nosirjon oghli Doctoral Student at the Tashkent Institute of Architecture and Civil Engineering
Khudaikulov Sovet Ishankulovich Ph.D. prof., YEOJU. Tashkent Technical Institute

Keywords:

two-phase system, dispersed flow, water-supply model, models, steam content in the water volume.

Abstract

The joint motion of gas and liquid forming a gas-liquid system is considered. The forms of joint motion of gas and liquid are investigated as the motion of two continuous ones interacting along the interface of flows before the movement of the foam flow, in which both phases form a complex, thin and unstable structure. Forces arise on the interfaces, which, even in an isothermal flow, have a significant effect on the fields of flow characteristics. Simulation of the similarity of gas-liquid flows in theoretical terms is presented. Complexes and linear scales of gravitational-viscous interaction of falling films of a viscous liquid caused by molecular viscosity have been obtained.

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Mirzakhmadov Bakhodir Nosirjon oghli, & Khudaikulov Sovet Ishankulovich. (2022). SIMULATION OF THE STRUCTURE OF GAS-LIQUID FLOWS IN THE APPLICATION OF THE WATER-AIR MODEL FOR RESEARCH OF THE STEAM-WATER SYSTEM. EPRA International Journal of Multidisciplinary Research (IJMR), 8(10), 96–102. Retrieved from https://eprajournals.net/index.php/IJMR/article/view/982

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Issue

Vol. 8 No. 10 (2022): EPRA International Journal of Multidisciplinary Research (IJMR)

Section

Articles