numerical model 
Based on the basic principles of the micrometeorology of atmospheric boundary layers and vegetation canopy, a numerical model of the interaction between forest ecosystems and atmospheric boundary layers was developed.


Kinetic theory was introduced to establish a 3D kinetic numerical model for wavelike slug gassolid flow in this paper.


The flows were also analyzed using a numerical model of the threedimensional turbulent flow in the pumps near the peak efficiency point using the k? turbulence model and the VOF cavitation model.


A threedimensional physical and numerical model of the basic pulse tube refrigerator (PTR) was developed.


The numerical model of automaton behavior is helpful in applying algebraic tools to solve the functional behavior renewal problem.


A numerical model of an ion massspectrometer is developed based on the new type of chargedparticle analyzer CAMERA suggested previously [13].


A numerical model of turbulent air flow over a curved surface is described.


A numerical model for the calculation of gas dynamic systems with turbulent mixing of supersonic jets is proposed.


A numerical model of the turbulent boundary layers in the gas dynamic channel of a supersonic MHD generator is constructed.


A numerical model of the flow is constructed in the class of piecewiseconstant functions on characteristic calculation grids [1].


A numerical model is constructed for the calculation of laminar flows with a constant value of power spent for pumping.


A numerical model is constructed for the calculation of laminar flows with a constant value of power spent for pumping.


A numerical model is developed of heat transfer in a high vertical narrow enclosure in the presence of fins on one of the isothermal side walls.


An unsteadystate threedimensional numerical model of radiation magnetogasdynamics is used to calculate the structure of an arc discharge which interacts with an external transverse magnetic field and transverse gas flow.


A twodimensional numerical model of a singleelectron transistor


A twodimensional numerical model of a singleelectron transistor is suggested.


Numerical model results are compared with experimental brightnessvoltage characteristics.


We present a numerical model that allows us to calculate the contribution of a specified scattering order in the geometric optics approximation for media composed of large particles with an arbitrary phase function.


A numerical model of the Martian atmospheresoilpolar caps system is constructed.


A numerical model of a riffle segment of a large river is applied to examine the kinematic flow structure at different phases of water regime.

