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Презентация к уроку английского языка "About myself" - скачать , слайд №1
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                  References:
1.TMSV: Tramway level crossings in Victoria
2.http://tdworld.com/overhead_transmission/power_sixwire
solution/index1.html Six Wire Solution retrieved March 6,2007
3."The Transmission of Electrical Energy Without Wires," Electrical World, March 5, 190 
4. UltraCaps win out in energy storage. Richard Hope, Railway Gazette International July 2006 
5. M. Steiner. MITRAC Energy Saver. Bombardier presentation (2006). 
6. Siemens AG Sibac ES Sibac ES Product Page (as of November 2007) 
7. Siemens AG Sitras SES Sitras SES Product Page (as of November 2007)
8. R Broadridge `Power line modems and networks' 4’th International Conference on Metering Applications and Tariffs for Electricity Supply IEE conf. Publ 300 1984 pp 294-296 
9. G Duval, Applications of power line carrier at Electricite de France Proc 1997 Internat. Symp. on Power Line Comms and its Applications pp76-80
10. William D. Stevenson, Jr. Elements of Power System Analysis Third Edition,McGraw-Hill, New York (1975) ISBN 0-07-061285-4 
11. Retrieved from http://en.wikipedia.org/wiki/Overhead_power_line
12. "Entwicklung der Gleichstromtechnik im Deutschen Museum in München: Memorialchart for the first transmission of electrical energy over a large distance". http://www.deutsches-museum.de/de/ausstellungen/energie/starkstromtechnik/gleichstrom/. Retrieved on 2007-12-02. Note the voltage of 1,400 V
Описание слайда:
References: 1.TMSV: Tramway level crossings in Victoria 2.http://tdworld.com/overhead_transmission/power_sixwire solution/index1.html Six Wire Solution retrieved March 6,2007 3."The Transmission of Electrical Energy Without Wires," Electrical World, March 5, 190 4. UltraCaps win out in energy storage. Richard Hope, Railway Gazette International July 2006 5. M. Steiner. MITRAC Energy Saver. Bombardier presentation (2006). 6. Siemens AG Sibac ES Sibac ES Product Page (as of November 2007) 7. Siemens AG Sitras SES Sitras SES Product Page (as of November 2007) 8. R Broadridge `Power line modems and networks' 4’th International Conference on Metering Applications and Tariffs for Electricity Supply IEE conf. Publ 300 1984 pp 294-296 9. G Duval, Applications of power line carrier at Electricite de France Proc 1997 Internat. Symp. on Power Line Comms and its Applications pp76-80 10. William D. Stevenson, Jr. Elements of Power System Analysis Third Edition,McGraw-Hill, New York (1975) ISBN 0-07-061285-4 11. Retrieved from http://en.wikipedia.org/wiki/Overhead_power_line 12. "Entwicklung der Gleichstromtechnik im Deutschen Museum in München: Memorialchart for the first transmission of electrical energy over a large distance". http://www.deutsches-museum.de/de/ausstellungen/energie/starkstromtechnik/gleichstrom/. Retrieved on 2007-12-02. Note the voltage of 1,400 V

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13. Jos Arrillaga (1998). High Voltage Direct Current Transmission. Institution of Engineering and Technology (IET). p. page 1. ISBN 9780852969410. http://books.google.com/books?id=I2mdgdflTQUC&pg=PA1. Retrieved on 2009-01-06. 
13. Jos Arrillaga (1998). High Voltage Direct Current Transmission. Institution of Engineering and Technology (IET). p. page 1. ISBN 9780852969410. http://books.google.com/books?id=I2mdgdflTQUC&pg=PA1. Retrieved on 2009-01-06. 
14. Memorandum Opinion and Order on Broadband Over BPL 
15. FCC chief Kevin Martin statement 
16. FCC dealt setback in broadband-over-power-lines push | Tech news blog - CNET News.com 
17. Reardon, Marguerite (27 April 2006). "Calif. regulators OK broadband over power line test", CNET News.com, CNET Networks. Retrieved on 19 April 2008 
18. "The Electro-com provider terminates the attempt to develop Internet via electric sockets in Moscow" (in Russian) 
19. Philippine News - Manila Standard Today - Venture formed to spark ‘rural revolution’ - may08_2006 
20. Manila Standard Today - Broadband project may trigger rise of Bataan - jan30_2006 
21. Aurora shifts focus to fibre in telecommunications strategy 
22. TasTel BPL: home of Broadband Over Powerlines 
23. a b BPL Database and Interference Information: U.S. 
24. "DC-LIN Over Power line"
25. Y. Koren, Y. Seri "Using LIN Over Powerline Communication to Control Truck and Trailer Backlights" - SPARC 2007
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13. Jos Arrillaga (1998). High Voltage Direct Current Transmission. Institution of Engineering and Technology (IET). p. page 1. ISBN 9780852969410. http://books.google.com/books?id=I2mdgdflTQUC&pg=PA1. Retrieved on 2009-01-06. 13. Jos Arrillaga (1998). High Voltage Direct Current Transmission. Institution of Engineering and Technology (IET). p. page 1. ISBN 9780852969410. http://books.google.com/books?id=I2mdgdflTQUC&pg=PA1. Retrieved on 2009-01-06. 14. Memorandum Opinion and Order on Broadband Over BPL 15. FCC chief Kevin Martin statement 16. FCC dealt setback in broadband-over-power-lines push | Tech news blog - CNET News.com 17. Reardon, Marguerite (27 April 2006). "Calif. regulators OK broadband over power line test", CNET News.com, CNET Networks. Retrieved on 19 April 2008 18. "The Electro-com provider terminates the attempt to develop Internet via electric sockets in Moscow" (in Russian) 19. Philippine News - Manila Standard Today - Venture formed to spark ‘rural revolution’ - may08_2006 20. Manila Standard Today - Broadband project may trigger rise of Bataan - jan30_2006 21. Aurora shifts focus to fibre in telecommunications strategy 22. TasTel BPL: home of Broadband Over Powerlines 23. a b BPL Database and Interference Information: U.S. 24. "DC-LIN Over Power line" 25. Y. Koren, Y. Seri "Using LIN Over Powerline Communication to Control Truck and Trailer Backlights" - SPARC 2007

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Electric power transmission a process in the delivery of electricity to consumers is the bulk transfer of electrical power. Typically, power transmission uses an electricity network connecting the power plant to multiple substations near a populated area. 
Electric power transmission a process in the delivery of electricity to consumers is the bulk transfer of electrical power. Typically, power transmission uses an electricity network connecting the power plant to multiple substations near a populated area.
Описание слайда:
Electric power transmission a process in the delivery of electricity to consumers is the bulk transfer of electrical power. Typically, power transmission uses an electricity network connecting the power plant to multiple substations near a populated area. Electric power transmission a process in the delivery of electricity to consumers is the bulk transfer of electrical power. Typically, power transmission uses an electricity network connecting the power plant to multiple substations near a populated area.

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Electricity distribution is the delivery from the substation to the consumers. Electric power transmission allows distant energy sources (such as hydroelectric power plants) to be connected to consumers in population centers. Due to the large amount of power involved and to reduce losses, transmission normally takes place at high voltages (110 kV or above). Electricity is usually transmitted over long distance through overhead power transmission lines. 
Electricity distribution is the delivery from the substation to the consumers. Electric power transmission allows distant energy sources (such as hydroelectric power plants) to be connected to consumers in population centers. Due to the large amount of power involved and to reduce losses, transmission normally takes place at high voltages (110 kV or above). Electricity is usually transmitted over long distance through overhead power transmission lines.
Описание слайда:
Electricity distribution is the delivery from the substation to the consumers. Electric power transmission allows distant energy sources (such as hydroelectric power plants) to be connected to consumers in population centers. Due to the large amount of power involved and to reduce losses, transmission normally takes place at high voltages (110 kV or above). Electricity is usually transmitted over long distance through overhead power transmission lines. Electricity distribution is the delivery from the substation to the consumers. Electric power transmission allows distant energy sources (such as hydroelectric power plants) to be connected to consumers in population centers. Due to the large amount of power involved and to reduce losses, transmission normally takes place at high voltages (110 kV or above). Electricity is usually transmitted over long distance through overhead power transmission lines.

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Underground power transmission is used only in densely populated areas because of its high cost of installation, maintenance and difficulties in voltage management. Power can be routed from any power plant to any load center, through a variety of routes. Much analysis is done by transmission companies to determine the maximum reliable capacity of each line. 
Underground power transmission is used only in densely populated areas because of its high cost of installation, maintenance and difficulties in voltage management. Power can be routed from any power plant to any load center, through a variety of routes. Much analysis is done by transmission companies to determine the maximum reliable capacity of each line.
Описание слайда:
Underground power transmission is used only in densely populated areas because of its high cost of installation, maintenance and difficulties in voltage management. Power can be routed from any power plant to any load center, through a variety of routes. Much analysis is done by transmission companies to determine the maximum reliable capacity of each line. Underground power transmission is used only in densely populated areas because of its high cost of installation, maintenance and difficulties in voltage management. Power can be routed from any power plant to any load center, through a variety of routes. Much analysis is done by transmission companies to determine the maximum reliable capacity of each line.

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AC power transmission is the transmission of electric power by alternating current. Usually transmission lines use three phase AC current. Single phase AC current is sometimes used in a railway electrification system.
AC power transmission is the transmission of electric power by alternating current. Usually transmission lines use three phase AC current. Single phase AC current is sometimes used in a railway electrification system.
Описание слайда:
AC power transmission is the transmission of electric power by alternating current. Usually transmission lines use three phase AC current. Single phase AC current is sometimes used in a railway electrification system. AC power transmission is the transmission of electric power by alternating current. Usually transmission lines use three phase AC current. Single phase AC current is sometimes used in a railway electrification system.

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Overhead conductors are not covered by insulation. The conductor material is nearly always an aluminum alloy, made into several strands and possibly reinforced with steel strands. Copper was sometimes used for overhead transmission but aluminum is lower in weight for equivalent performance, and much lower in cost. 
Overhead conductors are not covered by insulation. The conductor material is nearly always an aluminum alloy, made into several strands and possibly reinforced with steel strands. Copper was sometimes used for overhead transmission but aluminum is lower in weight for equivalent performance, and much lower in cost.
Описание слайда:
Overhead conductors are not covered by insulation. The conductor material is nearly always an aluminum alloy, made into several strands and possibly reinforced with steel strands. Copper was sometimes used for overhead transmission but aluminum is lower in weight for equivalent performance, and much lower in cost. Overhead conductors are not covered by insulation. The conductor material is nearly always an aluminum alloy, made into several strands and possibly reinforced with steel strands. Copper was sometimes used for overhead transmission but aluminum is lower in weight for equivalent performance, and much lower in cost.

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Overhead conductors are a commodity supplied by several companies worldwide. Improved conductor material and shapes are regularly used to allow increased capacity and modernize transmission circuits. 
Overhead conductors are a commodity supplied by several companies worldwide. Improved conductor material and shapes are regularly used to allow increased capacity and modernize transmission circuits.
Описание слайда:
Overhead conductors are a commodity supplied by several companies worldwide. Improved conductor material and shapes are regularly used to allow increased capacity and modernize transmission circuits. Overhead conductors are a commodity supplied by several companies worldwide. Improved conductor material and shapes are regularly used to allow increased capacity and modernize transmission circuits.

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Overhead transmission lines are uninsulated wire, so design of these lines requires minimum clearances to be observed to maintain safety. During Voltages less than 33 kV are usually used for distribution. Voltages above 230 kV are considered extra high voltage and require different designs compared to equipment used at lower voltages.
Overhead transmission lines are uninsulated wire, so design of these lines requires minimum clearances to be observed to maintain safety. During Voltages less than 33 kV are usually used for distribution. Voltages above 230 kV are considered extra high voltage and require different designs compared to equipment used at lower voltages.
Описание слайда:
Overhead transmission lines are uninsulated wire, so design of these lines requires minimum clearances to be observed to maintain safety. During Voltages less than 33 kV are usually used for distribution. Voltages above 230 kV are considered extra high voltage and require different designs compared to equipment used at lower voltages. Overhead transmission lines are uninsulated wire, so design of these lines requires minimum clearances to be observed to maintain safety. During Voltages less than 33 kV are usually used for distribution. Voltages above 230 kV are considered extra high voltage and require different designs compared to equipment used at lower voltages.

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During adverse weather conditions of high wind and low temperatures, overhead conductors can exhibit wind-induced oscillations which can encroach on their designed clearances. Depending on the frequency and amplitude of oscillation, the motion can be termed gallop or flutter. 
During adverse weather conditions of high wind and low temperatures, overhead conductors can exhibit wind-induced oscillations which can encroach on their designed clearances. Depending on the frequency and amplitude of oscillation, the motion can be termed gallop or flutter.
Описание слайда:
During adverse weather conditions of high wind and low temperatures, overhead conductors can exhibit wind-induced oscillations which can encroach on their designed clearances. Depending on the frequency and amplitude of oscillation, the motion can be termed gallop or flutter. During adverse weather conditions of high wind and low temperatures, overhead conductors can exhibit wind-induced oscillations which can encroach on their designed clearances. Depending on the frequency and amplitude of oscillation, the motion can be termed gallop or flutter.

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Transmission lines in Kansas.
Transmission lines in Kansas.
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Transmission lines in Kansas. Transmission lines in Kansas.

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Electric power can also be transmitted by underground power cables instead of overhead power lines. This is a more expensive option, as the life-cycle cost of an underground power cable is two to four times the cost of an overhead power line.
Electric power can also be transmitted by underground power cables instead of overhead power lines. This is a more expensive option, as the life-cycle cost of an underground power cable is two to four times the cost of an overhead power line.
Описание слайда:
Electric power can also be transmitted by underground power cables instead of overhead power lines. This is a more expensive option, as the life-cycle cost of an underground power cable is two to four times the cost of an overhead power line. Electric power can also be transmitted by underground power cables instead of overhead power lines. This is a more expensive option, as the life-cycle cost of an underground power cable is two to four times the cost of an overhead power line.

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However, they can assist the transmission of power across:
Densely populated urban areas 
Areas where land is unavailable or planning consent is difficult 
Rivers and other natural obstacles 
Land with environmental heritage 
Areas of significant or prestigious infrastructural development 
Land whose value must be maintained for future urban expansion and rural development.
Описание слайда:
However, they can assist the transmission of power across: Densely populated urban areas Areas where land is unavailable or planning consent is difficult Rivers and other natural obstacles Land with environmental heritage Areas of significant or prestigious infrastructural development Land whose value must be maintained for future urban expansion and rural development.

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Compared to overhead lines, underground cables emit much less powerful magnetic fields. (All conductors carrying current which varies with respect to time generate magnetic fields.) Underground cables need a narrower strip of about 1- 10metres to install, whereas the lack of cable insulation requires an overhead line to be installed on a strip of about 20- 200metres wide to be kept permanently clear for safety, maintenance and repair. Those advantages can in some cases justify the higher investment cost.
Compared to overhead lines, underground cables emit much less powerful magnetic fields. (All conductors carrying current which varies with respect to time generate magnetic fields.) Underground cables need a narrower strip of about 1- 10metres to install, whereas the lack of cable insulation requires an overhead line to be installed on a strip of about 20- 200metres wide to be kept permanently clear for safety, maintenance and repair. Those advantages can in some cases justify the higher investment cost.
Описание слайда:
Compared to overhead lines, underground cables emit much less powerful magnetic fields. (All conductors carrying current which varies with respect to time generate magnetic fields.) Underground cables need a narrower strip of about 1- 10metres to install, whereas the lack of cable insulation requires an overhead line to be installed on a strip of about 20- 200metres wide to be kept permanently clear for safety, maintenance and repair. Those advantages can in some cases justify the higher investment cost. Compared to overhead lines, underground cables emit much less powerful magnetic fields. (All conductors carrying current which varies with respect to time generate magnetic fields.) Underground cables need a narrower strip of about 1- 10metres to install, whereas the lack of cable insulation requires an overhead line to be installed on a strip of about 20- 200metres wide to be kept permanently clear for safety, maintenance and repair. Those advantages can in some cases justify the higher investment cost.

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Engineers design transmission networks to transport the energy as efficiently as feasible, while at the same time taking into account economic factors, network safety and redundancy. These networks use components such as power lines, cables, circuit breakers, switches and transformers.
Engineers design transmission networks to transport the energy as efficiently as feasible, while at the same time taking into account economic factors, network safety and redundancy. These networks use components such as power lines, cables, circuit breakers, switches and transformers.
Описание слайда:
Engineers design transmission networks to transport the energy as efficiently as feasible, while at the same time taking into account economic factors, network safety and redundancy. These networks use components such as power lines, cables, circuit breakers, switches and transformers. Engineers design transmission networks to transport the energy as efficiently as feasible, while at the same time taking into account economic factors, network safety and redundancy. These networks use components such as power lines, cables, circuit breakers, switches and transformers.

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A transmission substation decreases the voltage of electricity coming in allowing it to connect from long distance, high voltage transmission, to local, lower voltage, distribution. It also reroutes power to other transmission lines that serve local markets.
A transmission substation decreases the voltage of electricity coming in allowing it to connect from long distance, high voltage transmission, to local, lower voltage, distribution. It also reroutes power to other transmission lines that serve local markets.
Описание слайда:
A transmission substation decreases the voltage of electricity coming in allowing it to connect from long distance, high voltage transmission, to local, lower voltage, distribution. It also reroutes power to other transmission lines that serve local markets. A transmission substation decreases the voltage of electricity coming in allowing it to connect from long distance, high voltage transmission, to local, lower voltage, distribution. It also reroutes power to other transmission lines that serve local markets.

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A transmission grid is a network of power stations, transmission circuits, and substations. Energy is usually transmitted within the grid with three-phase AC. DC systems require relatively costly conversion equipment which may be economically justified for particular projects. Single phase AC is used only for distribution to end users since it is not usable for large polyphase induction motors. 
A transmission grid is a network of power stations, transmission circuits, and substations. Energy is usually transmitted within the grid with three-phase AC. DC systems require relatively costly conversion equipment which may be economically justified for particular projects. Single phase AC is used only for distribution to end users since it is not usable for large polyphase induction motors.
Описание слайда:
A transmission grid is a network of power stations, transmission circuits, and substations. Energy is usually transmitted within the grid with three-phase AC. DC systems require relatively costly conversion equipment which may be economically justified for particular projects. Single phase AC is used only for distribution to end users since it is not usable for large polyphase induction motors. A transmission grid is a network of power stations, transmission circuits, and substations. Energy is usually transmitted within the grid with three-phase AC. DC systems require relatively costly conversion equipment which may be economically justified for particular projects. Single phase AC is used only for distribution to end users since it is not usable for large polyphase induction motors.

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The capital cost of electric power stations is so high, and electric demand is so variable, that it is often cheaper to import some portion of the variable load than to generate it locally. Because of the economics of load balancing, transmission grids now span across countries and even large portions of continents. The web of interconnections between power producers and consumers ensures that power can flow even if a few links are inoperative.
The capital cost of electric power stations is so high, and electric demand is so variable, that it is often cheaper to import some portion of the variable load than to generate it locally. Because of the economics of load balancing, transmission grids now span across countries and even large portions of continents. The web of interconnections between power producers and consumers ensures that power can flow even if a few links are inoperative.
Описание слайда:
The capital cost of electric power stations is so high, and electric demand is so variable, that it is often cheaper to import some portion of the variable load than to generate it locally. Because of the economics of load balancing, transmission grids now span across countries and even large portions of continents. The web of interconnections between power producers and consumers ensures that power can flow even if a few links are inoperative. The capital cost of electric power stations is so high, and electric demand is so variable, that it is often cheaper to import some portion of the variable load than to generate it locally. Because of the economics of load balancing, transmission grids now span across countries and even large portions of continents. The web of interconnections between power producers and consumers ensures that power can flow even if a few links are inoperative.

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Multiple local sources (even if more expensive and infrequently used) can make the transmission grid more fault tolerant to weather and other disasters that can disconnect distant suppliers. 
Multiple local sources (even if more expensive and infrequently used) can make the transmission grid more fault tolerant to weather and other disasters that can disconnect distant suppliers.
Описание слайда:
Multiple local sources (even if more expensive and infrequently used) can make the transmission grid more fault tolerant to weather and other disasters that can disconnect distant suppliers. Multiple local sources (even if more expensive and infrequently used) can make the transmission grid more fault tolerant to weather and other disasters that can disconnect distant suppliers.

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