Developments in Electrical Power Systems - PowerPoint PPT Presentation

1 / 45
About This Presentation
Title:

Developments in Electrical Power Systems

Description:

Title: PowerPoint Presentation Author: Rob Oosterom Last modified by: rtds Created Date: 2/25/2003 9:00:11 AM Document presentation format: On-screen Show – PowerPoint PPT presentation

Number of Views:147
Avg rating:3.0/5.0
Slides: 46
Provided by: RobO53
Category:

less

Transcript and Presenter's Notes

Title: Developments in Electrical Power Systems


1
What is going on in Electricity Land?
  • Developments in Electrical Power Systems

Prof. Lou van der SluisElectrical Power Systems
Laboratory TU Delft
2
Introduction
  • Our society is powered by energy and information
  • A society without electricity is unthinkable
  • Electrical Engineering the practical
    application of electricity
  • What is electricity?

3
The Four Forces of Nature
  • The strong force
  • The weak force
  • The gravitational force
  • The electromagnetic force

4
The History of Electricity
  • Gilbert
  • Von Guericke
  • Van Marum
  • Van Musschenbroek
  • Franklin
  • Coulomb
  • Galvani
  • Volta
  • Oersted
  • Ampère
  • Ohm
  • Faraday
  • Henry
  • Lenz
  • Maxwell
  • Hertz

Proceed
5
Sir William Gilbert (1540 - 1603)
  • Physician to Queen Elisabeth 1 of England
  • Contemporary of Galileo
  • Published De Magnete in 1600
  • Follower of Nicolaas Copernicus
  • Magnetic forces between the planets and the sun
  • Considered the earth as a large magnet
  • Navigation

Back
6
Otto van Guericke (1602 - 1686)
  • Experiments with the Maagdenburger half spheres
  • Electric forces between the planets and the sun
  • Experiments with Amber
  • Transfer of electric charge

Back
7
Martinus van Marum (1750 - 1837)
  • Universal Scientist physics, chemistry, zoology,
    botany, mineralogy, geology
  • 1784 Curthbertson builds an electrostatic
    machine for van Marum
  • Glass discs (positive charge)
  • Flashovers over a distance of 60 cm
  • Experiments on humans
  • Improving the blood circulation

Back
8
Petrus van Musschenbroek (1692-1761)
  • 1745 Scientist of the University of Leiden,
    developed the Leyden Jar
  • The first capacitor

Back
9
Benjamin Franklin (1706 - 1790)
  • 1753 Experiments and Observations on
    Electricity made at Philadelphia in America
  • Electricity from thunderclouds
  • Charge storage in Leyden Jars
  • Member of the Royal Society in London
  • Member of the Royal Academy in Paris
  • Electricity is a fluid
  • Too much fluid positive charge
  • Too little fluid negative charge

Back
10
Charles Augustin Coulomb (1736 - 1806)
  • From a well to do family, contemporary of
    Voltaire and Rousseau
  • Military Academy
  • Publication about the construction of a compass
    for ships
  • Member of the Royal Academy in Paris
  • Inventor of the torsion balance
  • Formulated Coulombs Law
  • Coulomb as a unity of charge

Back
11
Luigi Galvani (1737 - 1798)
  • Sirius electronicus, electric eel
  • Brought from more exotic places to Europe in the
    18th century
  • Charging of Leyden Jars
  • Frog legs and copper hooks
  • Laboratory experiments with a fork and frogs

Back
12
Allessandro Volta (1745 - 1827)
  • There is no such thing as animal electricity
  • Discovery of Galvanic Electricity
  • Different types of metal in a solution of salt
  • Voltaic pile Cu (Ag) and Sn (Zn)
  • March 1800 manuscript to the Royal Society of
    London
  • Volt as unity of potential

Back
13
Hans Christiaan Oersted (1777 - 1851)
Back
14
André Marie Ampère (1775 - 1836)
  • Verified Oersteds finding
  • Forces between conductors
  • Right-hand-rule of Ampère
  • Natural magnetism caused by currents flowing
    through bodies
  • Each molecule of magnetic material acts as a
    small magnet
  • The Ampère is the unit of current

Back
15
Georg Simon Ohm (1789 - 1854)
  • Teacher at the secondary school in Cologne
  • Experiments with Voltaic piles
  • Published in 1827 The Galvanic Circuit
    Investigated Mathematically
  • Formulated Ohms Law
  • Ohm is the unit of electrical resistance
  • Unity of electrical conductance is the mho or
    Siemens

Back
16
Michael Faraday (1791 - 1867)
  • Son of a black smith
  • Bookbinder at the age of thirteen
  • Followed lectures from Sir Humphry Davy
    (1777-1829) president of the Royal Society in
    London
  • Assistant to Davy, later member of the Royal
    Society
  • Oersteds experiments resulted in 1831 in the
    principal of induction
  • Only one type of electricity from Voltaic piles,
    friction or electromagnetic induction
  • Influence magnetic field on light (Faraday
    effect) in 1845
  • Electrical, magnetic and gravitational forces at
    a distance in space
  • Portraying field lines rubber tubes
  • The ether
  • Farad as unity of capacity

Back
17
Joseph Henry (1797 - 1878) en Heinrich
Lenz (1804 - 1865)
  • Born in Estonia
  • Born in the United States
  • The direction of a current induced by a magnetic
    field opposes the inducing magnetic field
  • 1847, first law of thermodynamics, conservation
    of energy, by Von Helmholtz (1821-1894)
  • In 1828 member of the Imperial Academy of
    Sciences at St. Petersburg
  • Publication in 1834 in Annalen der Physik und
    Chemie On the determination of the Direction
    of Galvanic Currents Caused by Electrodynamic
    Induction
  • Henry as unity of induction

Back
18
James Clerk Maxwell (1831 - 1879)
  • Relation between electricity and magnetism
  • Maxwell did what Newton did for the laws of
    motion
  • Student at Edinburgh and Cambridge
  • Studied the work of Faraday
  • Maxwells laws describe
  • Coulombs law
  • Oersteds finding
  • Ampères law
  • Ohms law
  • Faradays law of induction
  • Lenzs law

Back
19
Heinrich Hertz (1857 - 1894)
Electromagnetic waves, verified by Heinrich Hertz
in 1888
Back
20
The Beginning of the Supply of Electricity
  • From gaslight to electric light
  • The first generating station in 1886 in
    Kinderdijk 33 kW 50 kW
  • Rotterdam 1894 200 kW 14.200 kW
  • Amsterdam 1888 80 kW 3600 kW
  • The Hague 1889 600 kW
  • Utrecht 1905 1200 kW

21
The Current Dutch Situation (1)
  • Peak load 12.000 MW
  • Installed generating capacity 14.500 MW
  • Club of Rome 1972 Problem of the sources
  • Kyoto 1997 Problem of the sinks

22
The Current Dutch Situation (2)
  • Governmental laws and regulations
  • Increasing demand
  • Import from other countries
  • Sustainable generation

23
Vertically operated power system
Production
Traditional Power System
HV Grid (69 kV 1100 kV)
Transmission
MV Grid (10 kV lt 69 kV)
LV Grid (120/240 V lt 10 kV)
Distribution
24
Horizontally operated power system
25
From Vertical to Horizontal
Wind park
Solar panels
µ-CHP
Wind turbine
Solar panels
26
Empty Power System
Wind park
Solar panels
µ-CHP
Wind turbine
Solar panels
27
Fuel Mix
  • The Netherlands 40 coal 55 gas 5 uranium
  • France lots of uranium hydro power and thermal
    power
  • Norway 100 hydro power
  • Switzerland hydro power and uranium
  • Germany thermal power, uranium and hydro power
  • Italy thermal power and hydro power

28
Customer Demand
  • Reliable, always available
  • Constant voltage 230 Volt
  • Constant frequency 50 Hertz
  • Power Quality

29
System Requirements
  • Maintaining the balance generation consumption
  • stability

30
Large International Blackouts
  • New York, July 1977 15 hour blackout after power
    loss of multiple 345 kV lines due to lightning
  • France, Dec 1978 5 hour power loss of 28 000 MW
    caused by cascade power failures of lines
  • Belgium, Aug 1982 5 hour blackout after voltage
    collapse due to a power outage of a large
    generating unit
  • Sweden, Dec 1983 5 hour power loss of 11 000 MW
    due to a bus failure resulting in a cascade power
    failure and voltage collapse
  • France, Jan 1987 12 hour power loss of 1 500 MW
    after voltage collapse due to a power outage of
    several units system stayed operational
  • Japan, July 1987 Voltage collapse due to strong
    increase of load during morning peak
  • Canada, March 1989 Power loss of 19 400 MW of
    which part was meant for export to US due to
    power loss of five lines caused by heavy
    magnetic storms
  • Italy, May 1989 Failure of international
    exchange lines resulting in a shortage of 4500 MW
  • USA, West coast, July 1996 ½ to 6 hour power
    loss of max. 12 000 MW ( 2 million customers) due
    to line-to-ground failures caused by trees and
    followed by a number of cascade effects (25 hours
    later the same interruption occurs, but this time
    less extensive)
  • Malaysia, Aug 1996 2 hour blackout of the entire
    peninsula (5 760 MW) due to a large imbalance
    between production and demand caused by a
    defective circuit breaker
  • USA, West coast, Aug 1996 ½ tot 2 hour power
    loss of max. 30000 MW ( 7 million customers) due
    to line-to-ground failures caused by trees and
    followed by a number of cascade effects
  • USA, West coast, 14 August 2003
  • Italy, 28 September 2003

31
Large Blackouts in The Netherlands
  • Zeeland, March 1979 Blackout of the
    intermediate grid after loss of connection to the
    380 kV grid, lasting half an hour
  • North-East of The Netherlands, May 1984 3 hour
    power loss of 1 100 MW after the 220 kV grid was
    in island operation
  • East of The Netherlands, Jan 1993 5 hour power
    loss of 40 MW, 1 hour of 170 MW due to power loss
    of 150 kV lines
  • Utrecht, Jun 1997 4 hour power loss of 600 MW
    due to power outage of several units, voltage
    collapse of 150 kV grid and overloading of
    transformers
  • Rotterdam, 6 Dec 2002 Short circuit in a
    substation caused by a fork-lift truck Several
    hours blackout for 900 000 customers
  • Haaksbergen, 25 November 2005 12 000 customers
  • Bommelerwaard, 12 December 2007 Blackout of 50
    hours for 50 000 customers after an Apache
    helicopter flies into an overhead power line

32
(No Transcript)
33
(No Transcript)
34
(No Transcript)
35
(No Transcript)
36
(No Transcript)
37
(No Transcript)
38
(No Transcript)
39
(No Transcript)
40
(No Transcript)
41
(No Transcript)
42
(No Transcript)
43
(No Transcript)
44
(No Transcript)
45
(No Transcript)
Write a Comment
User Comments (0)
About PowerShow.com