The program of lectures
Week Lectures content
1 Fluid mechanism: definition, composition, division, function.
Hydraulic circuit: structure, function diagrams. Graphical elements of the brand.
Pneumatic circuit: structure, function diagrams. Graphical elements of the brand.
2 The basic hydraulic circuits: syntax, examples of practical applications.
3 Working fluids for hydraulic circuits: types, properties, applications.
4 Fundamentals of the theory of hydrostatic circuits: computation of the hydraulic circuit
steady state.
5 Hydrostatic converters: definitions, distribution, characteristic
parameters and their mutual relations. Efficiency. Static characteristics.
6 Hydrostatic rotary converters: design, function,
parameters, characteristics, applications. Control of the geometric volume of hydrostatic
converters.
7 Rocking motors. Linear motors. Seals in hydraulics.
Multipliers pressure. Hydraulic units.
8 Distributors, one-way valves, controlled one-way valves,
two-way hydraulic lock, stop valves.
9 Choke. Control of variable resistance. Flow control valves. Pressure valves.
10 Hydraulic accumulators and their use in circuits. Filters and Filtration
liquids.
11 Proportional technology. Servo technology.
12 Track Drive. Pneumatic actuators and pneumatic control systems.
13 Starting and stopping power. Volume control. Hydrostatic transmission. Applications.
14 Application of hydraulics in the nuclear power industry
Program of exercises and seminars + individual students' work
1. Fluid mechanism: applications. Video film.
2. Graphic symbols of the elements.
3. Project of graphical symbols of elements, synthesis of simple hydraulic circuits.
4. Basic hydraulic circuits: demonstration on the trainer. TEST number 1: Graphic symbols of the elements. Basic relationship from fluid mechanics. The test may receive up to 10 points.
5. Hydraulic fluids: examples on the viscosity and compressibility. Hydrostatic converters: examples of the basic relationships between the parameters hydrostatic converters. Efficiency.
6. Project No. 1. Design of a hydraulic circuit including the specification elements. The project can receive up to 10 points.
7. Calculation of parameters of the hydraulic circuit in the steady state with efficiency. Demonstration of a geometric control volume pump.
8. Hydraulic cylinder: practice the basic relations. Design of hydraulic cylinder. Seals of hydraulic cylinder.
9. Acceleration and braking of the hydraulic motor with load.
10. Control the hydro motor by control valves. Design, calculation. Demonstration of the trainer. Measurement of characteristics of the throttle valve.
11. Hydraulic calculation of pipe: friction pressure loss in piping and hoses. Pressure losses in piping and their local measurements. Project No. 2. Measurement p-Q characteristics of hydraulic components. The project can receive up to 5 points.
12. Proposal hydrostatic transmission.
13. Project No. 3. Composition of pneumatic circuits - use of trainer. Task 4: To meet the job can receive up to 10 points.
14. Design and calculation of accumulator. Credit.
List of questions to examination
No question wording of the question
1 Working fluids for hydraulic circuits: physical properties lubricity, chemical properties.
2 Working fluids for hydraulic circuits: mineral oil, heavy flammable liquids, organic liquids.
3 Hydrostatic Transducers: definition, characteristic parameters efficiency, static characteristics.
4 Transmitters Hydrostatic gear, vane, screw.
5 Hydrostatic radial piston transducers.
6 Hydrostatic axial piston transducers.
7 Managing geometric volume hydrostatic transducer. Control of constant pressure and constant power.
8 Linear motors: design, calculation, production technology.
9 Part-turn motors. Hydraulic units. Multipliers pressure.
10 Seals in hydraulics.
11 Distributors.
12 One-way valves, controlled one-way valves, bilateral hydraulic lock, stop valves.
13 Butterfly valves. Flow control valves.
14 Pressure valves.
15 Hydraulic accumulators and their use in circuits.
16 Proportional technology.
17 Servo technology.
18 Filters and filtration of liquids.
19 Pipes, hoses, fittings. Calculation of pressure loss in piping and fittings.
20 Hydraulic drive: the drive structure, steady-state drive.
21 Acceleration and braking power.
22 Hydraulic circuits open and closed.
23 Control of hydraulic power variable resistor.
24 Positive traction control. Hydrostatic transmission.
25 Pneumatic drives: sources, distribution and compressed air.
26 Pneumatic motors: structure, characteristics, and management.
Week Lectures content
1 Fluid mechanism: definition, composition, division, function.
Hydraulic circuit: structure, function diagrams. Graphical elements of the brand.
Pneumatic circuit: structure, function diagrams. Graphical elements of the brand.
2 The basic hydraulic circuits: syntax, examples of practical applications.
3 Working fluids for hydraulic circuits: types, properties, applications.
4 Fundamentals of the theory of hydrostatic circuits: computation of the hydraulic circuit
steady state.
5 Hydrostatic converters: definitions, distribution, characteristic
parameters and their mutual relations. Efficiency. Static characteristics.
6 Hydrostatic rotary converters: design, function,
parameters, characteristics, applications. Control of the geometric volume of hydrostatic
converters.
7 Rocking motors. Linear motors. Seals in hydraulics.
Multipliers pressure. Hydraulic units.
8 Distributors, one-way valves, controlled one-way valves,
two-way hydraulic lock, stop valves.
9 Choke. Control of variable resistance. Flow control valves. Pressure valves.
10 Hydraulic accumulators and their use in circuits. Filters and Filtration
liquids.
11 Proportional technology. Servo technology.
12 Track Drive. Pneumatic actuators and pneumatic control systems.
13 Starting and stopping power. Volume control. Hydrostatic transmission. Applications.
14 Application of hydraulics in the nuclear power industry
Program of exercises and seminars + individual students' work
1. Fluid mechanism: applications. Video film.
2. Graphic symbols of the elements.
3. Project of graphical symbols of elements, synthesis of simple hydraulic circuits.
4. Basic hydraulic circuits: demonstration on the trainer. TEST number 1: Graphic symbols of the elements. Basic relationship from fluid mechanics. The test may receive up to 10 points.
5. Hydraulic fluids: examples on the viscosity and compressibility. Hydrostatic converters: examples of the basic relationships between the parameters hydrostatic converters. Efficiency.
6. Project No. 1. Design of a hydraulic circuit including the specification elements. The project can receive up to 10 points.
7. Calculation of parameters of the hydraulic circuit in the steady state with efficiency. Demonstration of a geometric control volume pump.
8. Hydraulic cylinder: practice the basic relations. Design of hydraulic cylinder. Seals of hydraulic cylinder.
9. Acceleration and braking of the hydraulic motor with load.
10. Control the hydro motor by control valves. Design, calculation. Demonstration of the trainer. Measurement of characteristics of the throttle valve.
11. Hydraulic calculation of pipe: friction pressure loss in piping and hoses. Pressure losses in piping and their local measurements. Project No. 2. Measurement p-Q characteristics of hydraulic components. The project can receive up to 5 points.
12. Proposal hydrostatic transmission.
13. Project No. 3. Composition of pneumatic circuits - use of trainer. Task 4: To meet the job can receive up to 10 points.
14. Design and calculation of accumulator. Credit.
List of questions to examination
No question wording of the question
1 Working fluids for hydraulic circuits: physical properties lubricity, chemical properties.
2 Working fluids for hydraulic circuits: mineral oil, heavy flammable liquids, organic liquids.
3 Hydrostatic Transducers: definition, characteristic parameters efficiency, static characteristics.
4 Transmitters Hydrostatic gear, vane, screw.
5 Hydrostatic radial piston transducers.
6 Hydrostatic axial piston transducers.
7 Managing geometric volume hydrostatic transducer. Control of constant pressure and constant power.
8 Linear motors: design, calculation, production technology.
9 Part-turn motors. Hydraulic units. Multipliers pressure.
10 Seals in hydraulics.
11 Distributors.
12 One-way valves, controlled one-way valves, bilateral hydraulic lock, stop valves.
13 Butterfly valves. Flow control valves.
14 Pressure valves.
15 Hydraulic accumulators and their use in circuits.
16 Proportional technology.
17 Servo technology.
18 Filters and filtration of liquids.
19 Pipes, hoses, fittings. Calculation of pressure loss in piping and fittings.
20 Hydraulic drive: the drive structure, steady-state drive.
21 Acceleration and braking power.
22 Hydraulic circuits open and closed.
23 Control of hydraulic power variable resistor.
24 Positive traction control. Hydrostatic transmission.
25 Pneumatic drives: sources, distribution and compressed air.
26 Pneumatic motors: structure, characteristics, and management.