The Programme of Lectures
1. Physical properties of materials of the transported. Grading curve. Distribution of disperse systems and their physical properties. Concentration. The viscosity of suspensions. Speed suspension. The movement of material particles in the fluid flow.
2. Sedimentation velocity. Sedimentation velocity in the limited environment. Speed of suspension.
3. Laminar flow of no Newtonian fluids. Power of the flow equations.
4. Bingham of the flow equation.
5. Turbulent fluid flow and dispersion systems in the pipe. Equation of continuity and momentum equations for turbulent flow of fluid and dispersion systems.
6. The structure of turbulent flow in pipes.
7. Isothermal and adiabatic flow of gas by pipeline. Hydraulic gradient for speed up of the gas. Branch and circular pipes when gas flow.
8. Movement of the solids in pipes. Diffusion theory of flow of suspensions. Gravitational theory of flow of suspensions. Variables in the cross section of the pipes. The calculation parameters of hydraulic transport.
9. Hydraulic gradient in the flow of suspensions. Durand function. Hydraulic gradient for non-homogeneous materials. Critical velocity and its calculation.
10. Machinery and technology of the hydraulic transport. Pipes. Fittings. Pumps. Dosing equipment. Environmental waste disposal.
11. The calculation parameters of pneumatic transport, basic value. Calculation of gradient of hydraulic. Pneumatic transport material.
12. Machinery and technology for pneumatic transport. Mixers and feeders. Traffic pipes and accessories.
13. Pipeline transport of the container. Velocity characteristics of flow containers. Hydraulic gradient.
14. Wear of machinery - erosive, abrasive, corrosive. The choice of materials.
1. Physical properties of materials of the transported. Grading curve. Distribution of disperse systems and their physical properties. Concentration. The viscosity of suspensions. Speed suspension. The movement of material particles in the fluid flow.
2. Sedimentation velocity. Sedimentation velocity in the limited environment. Speed of suspension.
3. Laminar flow of no Newtonian fluids. Power of the flow equations.
4. Bingham of the flow equation.
5. Turbulent fluid flow and dispersion systems in the pipe. Equation of continuity and momentum equations for turbulent flow of fluid and dispersion systems.
6. The structure of turbulent flow in pipes.
7. Isothermal and adiabatic flow of gas by pipeline. Hydraulic gradient for speed up of the gas. Branch and circular pipes when gas flow.
8. Movement of the solids in pipes. Diffusion theory of flow of suspensions. Gravitational theory of flow of suspensions. Variables in the cross section of the pipes. The calculation parameters of hydraulic transport.
9. Hydraulic gradient in the flow of suspensions. Durand function. Hydraulic gradient for non-homogeneous materials. Critical velocity and its calculation.
10. Machinery and technology of the hydraulic transport. Pipes. Fittings. Pumps. Dosing equipment. Environmental waste disposal.
11. The calculation parameters of pneumatic transport, basic value. Calculation of gradient of hydraulic. Pneumatic transport material.
12. Machinery and technology for pneumatic transport. Mixers and feeders. Traffic pipes and accessories.
13. Pipeline transport of the container. Velocity characteristics of flow containers. Hydraulic gradient.
14. Wear of machinery - erosive, abrasive, corrosive. The choice of materials.