JEPTER, Volume 80, Number 4, 2007 USE OF EQUATIONS FOR TRANSFER OF PARTICLE PULSATION CHARACTERISTICS FOR CALCULATING TWO-PHASE FLOWS IN THE STABILIZED SECTION OF A TUBE B. B. Rokhman

OF EQUATIONS FOR TRANSFER OF PARTICLE
PULSATION CHARACTERISTICS FOR CALCULATING
TWO-PHASE FLOWS IN THE STABILIZED SECTION
OF A TUBE 

B. B. Rokhman

UDC 532.529:662.62

A stationary isothermal system of equations defining the 
behavior of a two-phase rising flow in the region of steady motion 
of a gas suspension in an axially symmetric channel has been developed. 
The equation of motion of the carrying medium is closed using a one-parameter 
model of turbulence, and the equation of momentum transfer in the 
dispersed phase is closed with the use of the equations for the second, 
third, and fourth moments of the pulsation velocities of the particles. 
The main mechanisms of two-phase turbulent flows were numerically 
investigated.

Institute of Coal Power Production, National Academy of 
Sciences and Mintopenergo of Ukraine, 19 Andreevskaya Str., Kiev, 
04070, Ukraine. Translated from Inzhenerno-Fizicheskii Zhurnal, Vol. 
80, No. 4, pp. 99-109, July-August, 2007. Original article 
submitted November 19, 2005.