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16 August 2015 Delft University of Technology Electrical Power System Essentials ET2105 Electrical Power System Essentials Prof. Lou van der Sluis The.

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Presentation on theme: "16 August 2015 Delft University of Technology Electrical Power System Essentials ET2105 Electrical Power System Essentials Prof. Lou van der Sluis The."— Presentation transcript:

1 16 August 2015 Delft University of Technology Electrical Power System Essentials ET2105 Electrical Power System Essentials Prof. Lou van der Sluis The Generation of Electric Energy

2 2 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials The Generation of Electric Energy Electricity: the energy carrier of the future Boundary conditions: Oil, gas, coal and uranium resources are limited Ecological impact Reliability of supply Low prices

3 3 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials Fuel Mix Capacity [GW]FranceNetherlandsGermanyAustriaSwitzerlandItaly Hydro power25.4-9.111.813.321.1 Nuclear power63.20.520.3-3.2- Conventional thermal24.819.370.46.30.366.2 Renewables2.42.324.50.90.32.5 total115.822.1124.319.017.189.8 Installed generation capacity in some European countries in the year 2006

4 4 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials Thermal Power Plant (1) The Amercentrale in the Netherlands (Courtesy of TenneT TSO B.V.)

5 5 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials Thermal Power Plant (2) The principal components of a thermal power plant with the Rankine Cycle

6 6 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials The Principals of Thermodynamics (1) Q:The heat added to the system [J] U :The internal energy [J] W :The work done by the system [J] P:The gas pressure [Pa] V:The gas volume [m 3 ] dQ = dU + dW = dU + pdV

7 7 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials The Principals of Thermodynamics (2) pV-diagram of an ideal gas with two states (p 1, V 1 ) and (p 2, V 2 )

8 8 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials The Principals of Thermodynamics (3) Schematic representation of a heat engine working between a hot reservoir (T 1 ) and a cold reservoir (T 2 )

9 9 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials The Principals of Thermodynamics (4) The pV-diagram of the Carnot cycle

10 10 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials Thermal Power Plant (1) The principal components of a thermal power plant with the Rankine Cycle

11 11 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials Thermal Power Plant (2) The Rankine Cycle

12 12 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials Nuclear Power Plant (1) A typical fission reaction

13 13 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials Nuclear Power Plant (2) The Boiling Water Reactor

14 14 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials Nuclear Power Plant (3) The Pressurized Water Reactor

15 15 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials Nuclear Fusion A typical fusion reaction

16 16 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials Wind Energy Courtesy of TenneT TSO B.V.

17 17 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials Wind Turbines (1) The Danish wind turbine concept

18 18 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials Wind Turbines (2) Wind turbine with a doubly-fed induction generator

19 19 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials Wind Turbines (3) A direct drive wind turbine

20 20 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials Hydro Power

21 21 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials Water Turbines (1) The Kaplan Water Turbine Courtesy of Voith Siemens Hydro Power Generation GmbH & Co. KG

22 22 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials Water Turbines (2) The Francis Water Turbine Courtesy of Voith Siemens Hydro Power Generation GmbH & Co. KG

23 23 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials Water Turbines (3) The Pelton Wheel Turbine Courtesy of Voith Siemens Hydro Power Generation GmbH & Co. KG

24 24 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials Solar Power (1) Solar Power Tower Courtesy of DOE/NREL

25 25 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials Solar Power (2) Solar Panels Courtesy of DOE/NREL

26 26 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials Geothermal Power (1) Dry Steam Power Plant

27 27 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials Geothermal Power (2) Flash Steam Power Plant

28 28 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials Geothermal Power (3) Binary-Cycle Power Plant

29 29 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials The Synchronous Machine (1)

30 30 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials The Synchronous Machine (2) Four-pole salient-pole rotorTwo-pole cylindrical rotor Generator Types

31 31 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials The Synchronous Machine (3) Equivalent Circuit No power exchange with the grid

32 32 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials The Synchronous Machine (4) Generator injects power into the gridNo power exchange Grid interaction

33 33 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials The Synchronous Machine (5) Generator injects power into the grid Equivalent Circuit

34 34 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials The Infinite Bus (1)

35 35 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials The Infinite Bus (2)

36 36 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials The Synchronous Machine (6) Generator Heating Limits

37 37 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials The Synchronous Machine (7) Active power as a function of the power angel 

38 38 2. The Generation of Electric Energy | 38 ET2105 Electrical Power System Essentials The Synchronous Machine (8) Example of a Loading Capability Curve

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