1 Introduction, repeating thermodynamics and hydromechanics.
2 Compressors ideal jet theory, diagram, description of, simplistic arguments.
3 Flow of gases and vapors through nozzles, reheat factor, calculate the main dimensions of nozzles, the critical value, the effect of backpressure. Theory
4 Real jet compressors, boundary layer theory.
5 The ideal degree of radial compressors, description, energy transformation, Euler's equation.
6 Actual degree of radial compressor rotor blade shapes and their influence on the construction of machines, efficiency, pompáž, with a diagram, the energy characteristics.
7 Axial vane compressors, basic characteristics, methods of solution, flow angles, the forces acting on the profile.
8 Ideal stage axial compressor, transition energies, Euler's equation, energy characteristics, velocity triangles.
9 The actual stage axial compressor, losses in energy transformation efficiency with the diagram, the energy characteristics.
10 Fans: axial shift with the degree R + S VS + R, counter-rotating rotors, radial, diagonal
11 Practical operation of compressor stations, measurement, humidity
12 Pumps: Theory. Geodetic height, head, manometric height, limit height of the suction pump. Transformation of energy.
13 Pumps: process measurement, the energy characteristics. Parallel and serial dynamic collaboration tools, working point. Control Performance.
2 Compressors ideal jet theory, diagram, description of, simplistic arguments.
3 Flow of gases and vapors through nozzles, reheat factor, calculate the main dimensions of nozzles, the critical value, the effect of backpressure. Theory
4 Real jet compressors, boundary layer theory.
5 The ideal degree of radial compressors, description, energy transformation, Euler's equation.
6 Actual degree of radial compressor rotor blade shapes and their influence on the construction of machines, efficiency, pompáž, with a diagram, the energy characteristics.
7 Axial vane compressors, basic characteristics, methods of solution, flow angles, the forces acting on the profile.
8 Ideal stage axial compressor, transition energies, Euler's equation, energy characteristics, velocity triangles.
9 The actual stage axial compressor, losses in energy transformation efficiency with the diagram, the energy characteristics.
10 Fans: axial shift with the degree R + S VS + R, counter-rotating rotors, radial, diagonal
11 Practical operation of compressor stations, measurement, humidity
12 Pumps: Theory. Geodetic height, head, manometric height, limit height of the suction pump. Transformation of energy.
13 Pumps: process measurement, the energy characteristics. Parallel and serial dynamic collaboration tools, working point. Control Performance.