1. Constant of similarity, criterion of similarity (simplex, complex). Criterion equations.
2. Basic terms of flow. Physical properties of fluids. Basic types of pressure. Pressure loss. Statics of one gas. Calculation of atmospheric pressure. Statics of two gases. Euler's equation of fluid statics. Differential equation for the pressure function.
3. Fluid flow - classification. General equation of continuity. Continuity equation for one-way flow. Euler's equation of motion, total derivative. Navier – Stokes equation. Bernoulli's equation.
4. Types of real fluid flow. Reynolds criterion. Laminar flows in tubes. Velocity profile. Hagen - Poiseuille law. Turbulent flow. Boundary layer.
5. Hydraulic losses - pressure loss, height loss. Friction losses, Darcy - Weisbach relationship. Types of roughness. Effect of roughness on hydraulic resistance. Coefficient of friction in circular pipes - 5 areas. Local losses.
6. Gas discharge openings. Gas discharge at low speeds. Gas discharge at high speeds. The flow in the high speed. Convergent nozzle, Laval nozzle. Height of chimney.
7. Modes of heat transfer. Basic terms in heat conduction. Fourier's law. Thermal conductivity for gases, liquids and solids. Fourier heat equation. Coefficient of thermal conductivity. Conditions of uniformity.
8. Steady one - dimensional heat conduction through one and multi-layer planar and cylindrical wall at boundary conditions I., II. and III. kind - temperature and heat flux.
9. Multidirectional steady tasks. Analytical solutions - method of separation of variables. Numerical solutions.
10. Transient heat conduction. Numerical solution, stability, accuracy.
11. Fourier - Kirchhoff equations for convective heat transfer. Heat transfer between fluid and solid surface. Velocity and thermal boundary layer. Specific values of the coefficient k. The use of similarity theory for the solution of convective heat transfer. Influence of temperature changes on fluid convection heat.
12. Physical principles of radiation. Basic terms. Planck's law. Wien's displacement law. Stefan-Boltzmann law. Lambert's law. Radiation properties. Kirchhoff's law.
13. Spectral radiation properties. Grey body. Radiation between bodies. View factor (angular coefficient). Fundamental rules. Radiation between two parallel flat surfaces, the effect of shielding. Radiation between two curved surfaces. Gaseous radiation. Basic laws. Radiation of the gas mixtures.
2. Basic terms of flow. Physical properties of fluids. Basic types of pressure. Pressure loss. Statics of one gas. Calculation of atmospheric pressure. Statics of two gases. Euler's equation of fluid statics. Differential equation for the pressure function.
3. Fluid flow - classification. General equation of continuity. Continuity equation for one-way flow. Euler's equation of motion, total derivative. Navier – Stokes equation. Bernoulli's equation.
4. Types of real fluid flow. Reynolds criterion. Laminar flows in tubes. Velocity profile. Hagen - Poiseuille law. Turbulent flow. Boundary layer.
5. Hydraulic losses - pressure loss, height loss. Friction losses, Darcy - Weisbach relationship. Types of roughness. Effect of roughness on hydraulic resistance. Coefficient of friction in circular pipes - 5 areas. Local losses.
6. Gas discharge openings. Gas discharge at low speeds. Gas discharge at high speeds. The flow in the high speed. Convergent nozzle, Laval nozzle. Height of chimney.
7. Modes of heat transfer. Basic terms in heat conduction. Fourier's law. Thermal conductivity for gases, liquids and solids. Fourier heat equation. Coefficient of thermal conductivity. Conditions of uniformity.
8. Steady one - dimensional heat conduction through one and multi-layer planar and cylindrical wall at boundary conditions I., II. and III. kind - temperature and heat flux.
9. Multidirectional steady tasks. Analytical solutions - method of separation of variables. Numerical solutions.
10. Transient heat conduction. Numerical solution, stability, accuracy.
11. Fourier - Kirchhoff equations for convective heat transfer. Heat transfer between fluid and solid surface. Velocity and thermal boundary layer. Specific values of the coefficient k. The use of similarity theory for the solution of convective heat transfer. Influence of temperature changes on fluid convection heat.
12. Physical principles of radiation. Basic terms. Planck's law. Wien's displacement law. Stefan-Boltzmann law. Lambert's law. Radiation properties. Kirchhoff's law.
13. Spectral radiation properties. Grey body. Radiation between bodies. View factor (angular coefficient). Fundamental rules. Radiation between two parallel flat surfaces, the effect of shielding. Radiation between two curved surfaces. Gaseous radiation. Basic laws. Radiation of the gas mixtures.