CTU FEE Moodle
Power Machine Equipment
B232 - Summer 23/24
This is a grouped Moodle course. It consists of several separate courses that share learning materials, assignments, tests etc. Below you can see information about the individual courses that make up this Moodle course.
Power Machine Equipment - A1M14ESZ
Main course
| Credits | 4 |
| Semesters | Winter |
| Completion | Assessment + Examination |
| Language of teaching | Czech |
| Extent of teaching | 2+2s |
Annotation
Analysis of basic functions and operational accidents for power engineering. Quantitative and qualitative balance energy of machine equipment. Analysis of influence breakdowns of machine equipment, modes of regulation power output of power machine equipment. Operating optimisation. Operation properties of power machine equipment of power plant.
Study targets
No data.
Course outlines
1.Basic cycles of power plants, energy balances, determination of basic operating parameters.
2.Qualitative evaluation of basic heat technical process, method increase of thermal efficiency.
3.Equipment for transport liquids and gas, principle, characteristics, working point.
4.Steam turbines, principal, operation, regulation possibility, regulation efficiency.
5.Regulation power output of heat cycles, extraction turbine, bleeder turbine.
6.Condensation, cooling cycles, analysis operating failures of condensation systems.
7.Co-operation and operating structures of machine equipment in power engineering.
8.Basic types of boilers, energy balances, operating parameters, regulation possibility.
9.Economy and ecology effects of cogeneration production, trends, little cogeneration.
10.Steam-gas heat cycles, trends, limits of utilisation, ecology effect.
11.Long-distance traffic of heat, economy effects, technical problems.
12.Secondary cycle JE, analysis function, basic operating parameters, ecology problems.
13.Scrap energy in power engineering, heat pumps, energy balance, regulation.
14.Hydroelectric power plants, basic types of hydraulic turbines, energy balance, regulation.
2.Qualitative evaluation of basic heat technical process, method increase of thermal efficiency.
3.Equipment for transport liquids and gas, principle, characteristics, working point.
4.Steam turbines, principal, operation, regulation possibility, regulation efficiency.
5.Regulation power output of heat cycles, extraction turbine, bleeder turbine.
6.Condensation, cooling cycles, analysis operating failures of condensation systems.
7.Co-operation and operating structures of machine equipment in power engineering.
8.Basic types of boilers, energy balances, operating parameters, regulation possibility.
9.Economy and ecology effects of cogeneration production, trends, little cogeneration.
10.Steam-gas heat cycles, trends, limits of utilisation, ecology effect.
11.Long-distance traffic of heat, economy effects, technical problems.
12.Secondary cycle JE, analysis function, basic operating parameters, ecology problems.
13.Scrap energy in power engineering, heat pumps, energy balance, regulation.
14.Hydroelectric power plants, basic types of hydraulic turbines, energy balance, regulation.
Exercises outlines
1.Orientation calculation of basic economy parameters heat cycle with condensing turbine.
2.Qualitative evaluation of basic energy transformation heat cycle with steam turbine.
3.Evaluation influence of failure reconditioning of heat water.
4.Power consumption of centrifugal pump, change of working point.
5.Power consumption of centrifugal fun, change of working point, saving of energy.
6.Power consumption of extraction steam turbine, influence of change rate of flow.
7.Influence of regulation power output on basic economy parameters.
8.Influence breakdowns of condensation and cooling cycle on basic economy parameters.
9.Basic qualitative and quantitative balance of steam boiler, total heating value, heating values.
10.Basic calculation of little cogeneration production, economy and ecology effects.
11.Power consumption of steam-gas heat cycles, trends, ecology effect.
12.Basic calculation of long-distance traffic of heat. Influence of basic operating parameters.
13.Secondary cycle JE, basic balance of water separator and superheater.
14.Basic calculation of heat pump on waste heat.
2.Qualitative evaluation of basic energy transformation heat cycle with steam turbine.
3.Evaluation influence of failure reconditioning of heat water.
4.Power consumption of centrifugal pump, change of working point.
5.Power consumption of centrifugal fun, change of working point, saving of energy.
6.Power consumption of extraction steam turbine, influence of change rate of flow.
7.Influence of regulation power output on basic economy parameters.
8.Influence breakdowns of condensation and cooling cycle on basic economy parameters.
9.Basic qualitative and quantitative balance of steam boiler, total heating value, heating values.
10.Basic calculation of little cogeneration production, economy and ecology effects.
11.Power consumption of steam-gas heat cycles, trends, ecology effect.
12.Basic calculation of long-distance traffic of heat. Influence of basic operating parameters.
13.Secondary cycle JE, basic balance of water separator and superheater.
14.Basic calculation of heat pump on waste heat.
Literature
1) Cengel,Yunus A. Thermodynamics An Engineering Approach. ISBN 0-07-288495-9 McGraw-Hill 2006.
Requirements
No data.
Power Machine Equipment - B1M14ESZ
| Credits | 5 |
| Semesters | Winter |
| Completion | Assessment + Examination |
| Language of teaching | Czech |
| Extent of teaching | 2P+2C |
Annotation
The course deals with the analysis of the basic functions and characteristics of machinery used in the energy sector, introduces students to quantitative and qualitative energy balances of these devices to an extent, allowing to obtain the technical basis for the economic evaluation, as well as operating system optimization. It also deals with the analysis of the impact of failures of machine elements of the power system to the technical indicators and economical operation and performance of the most important methods of control machinery of power plants in terms of their operational optimization.
Study targets
No data.
Course outlines
1. The basic types of cycles used in power engineering, energy balance, determine the basic operating parameters.
2. Qualitative evaluation of basic heat technical processes, thermal cycles in the energy sector.
3. Energy intensity in the transportation of liquids and gases, the working point, the energy regulatory assessment methods.
4. The steam turbine, basic principal, basic balance and output characteristics of the basic types of steam turbines.
5. Ways power control condensation and heat circulation. Turbine with controlled steam draw.
6. Condensation, cooling circuits, analysis of operating failures of condensation systems. Impact on the economy of operation of the unit.
7. Synergies and operational linkages and regulatory machinery in the most important energy systems.
8. Basic types of steam generators, energy balance, operating characteristics and modes of regulation.
9. Economic and ecological effects of cogeneration production, trends, "small cogeneration".
10. CCGT cycles, trends, possibilities and limits of use in the Central European region. Ecological effect.
11. Long-distance heat supply, operational issues, energy intensity.
12. The secondary circuit is, function analysis, operational and regulatory characteristics, safety and environmental issues.
13. Drain the energy in the energy, heat pumps, balances, operational capabilities and practical limits of applicability
14. Reserve
2. Qualitative evaluation of basic heat technical processes, thermal cycles in the energy sector.
3. Energy intensity in the transportation of liquids and gases, the working point, the energy regulatory assessment methods.
4. The steam turbine, basic principal, basic balance and output characteristics of the basic types of steam turbines.
5. Ways power control condensation and heat circulation. Turbine with controlled steam draw.
6. Condensation, cooling circuits, analysis of operating failures of condensation systems. Impact on the economy of operation of the unit.
7. Synergies and operational linkages and regulatory machinery in the most important energy systems.
8. Basic types of steam generators, energy balance, operating characteristics and modes of regulation.
9. Economic and ecological effects of cogeneration production, trends, "small cogeneration".
10. CCGT cycles, trends, possibilities and limits of use in the Central European region. Ecological effect.
11. Long-distance heat supply, operational issues, energy intensity.
12. The secondary circuit is, function analysis, operational and regulatory characteristics, safety and environmental issues.
13. Drain the energy in the energy, heat pumps, balances, operational capabilities and practical limits of applicability
14. Reserve
Exercises outlines
1. Calculation of basic technical-economic indicators of energy circulation with condensing turbine.
2. Qualitative evaluation of basic energy transformations of thermal energy cycle with steam turbine.
3. Evaluation of the effect of failures in the regenerative heating system on the basic indicators of operating economics of the block.
4. Energy intensity of pumping systems in power engineering, energy assessment of used control methods.
5. Energy intensity of flue gas and air transport, energy savings caused by choice of optimal regulation.
6. Energy balance of a steam turbine with unregulated consumption, turbine behavior when steam flow changes.
7. Calculation of the influence of turbine power control on the operating economics of the block for basic control methods.
8. Assessment of the influence of the most frequent defects in condensation and cooling circuit on technical and economic indicators of the block.
9. Basic quantitative and qualitative energy balance of steam generator, gross calorific value, calorific value, main losses.
10. Approximate calculation of parameters needed for determination of economic and ecological effects of small cogeneration.
11. Energy balance of CCGT, familiarization with modern CCGT circulation
12. Indicative calculation of energy performance in long-distance gas transport. Analysis of operating parameters influence.
13. Introduction to the secondary cycle of nuclear power plant. Basic energy and mass balance of separator and superheater.
14. Reserve
2. Qualitative evaluation of basic energy transformations of thermal energy cycle with steam turbine.
3. Evaluation of the effect of failures in the regenerative heating system on the basic indicators of operating economics of the block.
4. Energy intensity of pumping systems in power engineering, energy assessment of used control methods.
5. Energy intensity of flue gas and air transport, energy savings caused by choice of optimal regulation.
6. Energy balance of a steam turbine with unregulated consumption, turbine behavior when steam flow changes.
7. Calculation of the influence of turbine power control on the operating economics of the block for basic control methods.
8. Assessment of the influence of the most frequent defects in condensation and cooling circuit on technical and economic indicators of the block.
9. Basic quantitative and qualitative energy balance of steam generator, gross calorific value, calorific value, main losses.
10. Approximate calculation of parameters needed for determination of economic and ecological effects of small cogeneration.
11. Energy balance of CCGT, familiarization with modern CCGT circulation
12. Indicative calculation of energy performance in long-distance gas transport. Analysis of operating parameters influence.
13. Introduction to the secondary cycle of nuclear power plant. Basic energy and mass balance of separator and superheater.
14. Reserve
Literature
Moran, M.,J., Shapiro, H.,N.: Fundamentals of Engineering Thermodynamics. Wiley, 2008.
Cengel,Z., Boles, M.,A.: Thermodynamics An Engineering Approach. McGraw-Hill, 2005.
Cengel,Z., Boles, M.,A.: Thermodynamics An Engineering Approach. McGraw-Hill, 2005.
Requirements
No data.