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HVDC
Transmission
Visit www.seminarlinks.blogspot.com to download
Challenges
with AC
Power Lines
 AC lines become loaded closer to their thermal capacity
with increasing losses.
 Reduced power quality causes the risk of declining network
stability.
 Overhead lines change the landscape, causes public
resentment.
 Limit the distance of traditional AC underground cables to
around 80km.
Solution:
HVDC
technology
 HVDC technology has the potential to play an important
role in achieving this solution.
 It provides improved power quality and power flow
control as well.
 Introducing extruded DC-cables which have no
technical limit to distance which can be installed.
 It can provide an alternative to overhead lines
particularly when the total capital and environmental
costs are considered.
Visit www.seminarlinks.blogspot.com to download
HVDC -
Introduction
 HVDC (high-voltage direct current) is a highly efficient
alternative for transmitting large amounts of electricity
over long distances and for special purpose
applications.
 Compared to alternating current, the direct current
system is less expensive and loses less energy.
 HVDC can be transmitted through cables both
underground and underwater.
Advantages
Advantages of HVDC
Technical
Advantages
Economic
Advantages
Technical
Advantages
 Reactive power requirement
 System stability
 Short Circuit Current
 Independent Control of ac system
 Fast change of energy flow
 Lesser Corona Loss and Radio interference
 Greater Reliability.
 Direction of power flow can be changed very quickly
 Large HVDC schemes (5000 MW - 6400 MW) are used to
access remote hydro power resources, hence renewable
energy with no CO2 emissions.
 HVDC is more economical than HVAC for schemes with
transmission distances more than 700 km.
Economic
Advantages
 DC lines and cables are cheaper than AC lines or cables.
 The towers of the DC lines are narrower, simpler and
cheaper compared to the towers of the AC lines.
 Line losses in a DC line are lower than the losses in an
AC lines.
The diagram shows a comparison
of the losses in 1,200 MW
overhead line transmissions using
AC and HVDC.
Lower Losses
Lower Investment Cost
• It is true that HVDC terminal
stations are more expensive
due to the fact that they
must perform the
conversion from AC to DC,
and DC to AC.
• But over a certain distance,
the so called "break-even
distance" (approx. 600 – 800
km), the HVDC alternative
will always provide the
lowest cost
How does it
work ?
 HVDC transmission utilizes a converter station at either
end of the system.
 A mercury arc valve or solid state valve (thyristor) is
used for the conversion of AC and DC current.
 The valve at the beginning of the system converts
alternating current to HVDC, the HVDC travels to the
next location through a cable.
 The valve at the end of the system converts the HVDC
back to alternating current.
Wind Power
AC Transmission
Line
AC to DC
Converter
Station
HVDC
Transmission
Line
DC to AC
Converter
Station
AC Transmission
Line
Distribution
Line
HVDC transmission system
Visit www.seminarlinks.blogspot.com to download
Components
of an HVDC
transmission
system
Transmission
Medium
 For bulk power transmission over land, the most frequent
transmission medium used is the overhead line.
 This overhead line is normally bipolar, i.e. two conductors
with different polarity.
 HVDC cables are normally used for submarine transmission.
 The most common types of cables are the solid and the oil-
filled ones.
 HVDC underground or submarine power transmissions:
 This new HVDC cable is made of extruded polyethylene,
and is used in VSC based HVDC systems.
Types of
HVDC
configurations
Monopolar
Link
 One of the terminal of the converter is connected to the
transmission line, while the other terminal is connected
to the ground.
 The ground is used as a return path here.
 Also Monopolar link can be used to transmit power
over sea by using special electrode for the earth return.
Bipolar Link
 There are two pole/conductors. One operates at positive
polarity and other is on negative polarity.
 The Bipolar link seems to be costlier than Monopolar, but it
is more reliable than Monopolar.
 The advantage of bipolar is that whenever one of the poles
fails; the system operates as Monopolar link with the ground
as return path.
Multi terminal
Link
 A Multi terminal HVDC system is used to connect with more
than two converter stations.
 complex network as compared to Monopole and Bipolar
HVDC link.
 The reversal of power can be easily achieved using the Multi
terminal HVDC link.
Back to Back
(B2B)
 Used to connect the asynchronous system with different
frequencies.
 The length of the back to back connection is kept very small.
 Sometimes it may vary depending on the system
requirement.
 Helps to achieve the connection between any asynchronous
systems.
Tripole
 Two of the three circuit conductors are operated as a bipole.
 The third conductor is used as a parallel monopole,
equipped with reversing valves (or parallel valves connected
in reverse polarity).
 The parallel monopole periodically relieves current from one
pole or the other, switching polarity over a span of several
minutes.
 As of 2012, no tri-pole conversions are in operation.
Converter
Station
Equipment
 Thyristor valves
 Converter Transformer
 DC Reactor
 Harmonics Filtering Equipment
 Control Equipment
 Reactive power compensation
Ground
Return
 Most dc transmission lines use ground return for reasons of
economy and reliability.
 Ground return are used by the monopolar and the bipolar
link for carrying the return current.
 The ground path has a low resistance and, therefore low
power loss as compared to a metallic conductor path
provided the ground electrodes are properly designed.
 The resistance of the ground path is independent of the
depth of the line.
Earth
Electrode
 HVDC system requires a properly designed earth electrode
at each station.
 The electrode is situated at a safe distance (5 to 30 km)
from the station.
 The earth electrode at one of the station acts as a anode
and at the other end acts as a cathode.
Disadvantages
 The disadvantages of HVDC are in conversion, switching, control,
availability and maintenance.
 HVDC is less reliable and has lower availability than alternating current
(AC) systems, mainly due to the extra conversion equipment.
 The required converter stations are expensive and have limited overload
capacity.
 At smaller transmission distances, the losses in the converter stations may
be bigger than in an AC transmission line for the same distance.
 Operating a HVDC scheme requires many spare parts to be kept, often
exclusively for one system, as HVDC systems are less standardized than AC
systems and technology changes faster.
Conclusion
HVDC offers powerful alternative to increase
stability of a power system as well as to improve
system operating flexibility and loss reduction.
Thank You
Visit www.seminarlinks.blogspot.com to download

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HVDC

  • 2. Challenges with AC Power Lines  AC lines become loaded closer to their thermal capacity with increasing losses.  Reduced power quality causes the risk of declining network stability.  Overhead lines change the landscape, causes public resentment.  Limit the distance of traditional AC underground cables to around 80km.
  • 3. Solution: HVDC technology  HVDC technology has the potential to play an important role in achieving this solution.  It provides improved power quality and power flow control as well.  Introducing extruded DC-cables which have no technical limit to distance which can be installed.  It can provide an alternative to overhead lines particularly when the total capital and environmental costs are considered. Visit www.seminarlinks.blogspot.com to download
  • 4. HVDC - Introduction  HVDC (high-voltage direct current) is a highly efficient alternative for transmitting large amounts of electricity over long distances and for special purpose applications.  Compared to alternating current, the direct current system is less expensive and loses less energy.  HVDC can be transmitted through cables both underground and underwater.
  • 6. Technical Advantages  Reactive power requirement  System stability  Short Circuit Current  Independent Control of ac system  Fast change of energy flow  Lesser Corona Loss and Radio interference  Greater Reliability.  Direction of power flow can be changed very quickly  Large HVDC schemes (5000 MW - 6400 MW) are used to access remote hydro power resources, hence renewable energy with no CO2 emissions.  HVDC is more economical than HVAC for schemes with transmission distances more than 700 km.
  • 7. Economic Advantages  DC lines and cables are cheaper than AC lines or cables.  The towers of the DC lines are narrower, simpler and cheaper compared to the towers of the AC lines.  Line losses in a DC line are lower than the losses in an AC lines.
  • 8. The diagram shows a comparison of the losses in 1,200 MW overhead line transmissions using AC and HVDC. Lower Losses
  • 9. Lower Investment Cost • It is true that HVDC terminal stations are more expensive due to the fact that they must perform the conversion from AC to DC, and DC to AC. • But over a certain distance, the so called "break-even distance" (approx. 600 – 800 km), the HVDC alternative will always provide the lowest cost
  • 10. How does it work ?  HVDC transmission utilizes a converter station at either end of the system.  A mercury arc valve or solid state valve (thyristor) is used for the conversion of AC and DC current.  The valve at the beginning of the system converts alternating current to HVDC, the HVDC travels to the next location through a cable.  The valve at the end of the system converts the HVDC back to alternating current.
  • 11. Wind Power AC Transmission Line AC to DC Converter Station HVDC Transmission Line DC to AC Converter Station AC Transmission Line Distribution Line HVDC transmission system Visit www.seminarlinks.blogspot.com to download
  • 13. Transmission Medium  For bulk power transmission over land, the most frequent transmission medium used is the overhead line.  This overhead line is normally bipolar, i.e. two conductors with different polarity.  HVDC cables are normally used for submarine transmission.  The most common types of cables are the solid and the oil- filled ones.  HVDC underground or submarine power transmissions:  This new HVDC cable is made of extruded polyethylene, and is used in VSC based HVDC systems.
  • 15. Monopolar Link  One of the terminal of the converter is connected to the transmission line, while the other terminal is connected to the ground.  The ground is used as a return path here.  Also Monopolar link can be used to transmit power over sea by using special electrode for the earth return.
  • 16. Bipolar Link  There are two pole/conductors. One operates at positive polarity and other is on negative polarity.  The Bipolar link seems to be costlier than Monopolar, but it is more reliable than Monopolar.  The advantage of bipolar is that whenever one of the poles fails; the system operates as Monopolar link with the ground as return path.
  • 17. Multi terminal Link  A Multi terminal HVDC system is used to connect with more than two converter stations.  complex network as compared to Monopole and Bipolar HVDC link.  The reversal of power can be easily achieved using the Multi terminal HVDC link.
  • 18. Back to Back (B2B)  Used to connect the asynchronous system with different frequencies.  The length of the back to back connection is kept very small.  Sometimes it may vary depending on the system requirement.  Helps to achieve the connection between any asynchronous systems.
  • 19. Tripole  Two of the three circuit conductors are operated as a bipole.  The third conductor is used as a parallel monopole, equipped with reversing valves (or parallel valves connected in reverse polarity).  The parallel monopole periodically relieves current from one pole or the other, switching polarity over a span of several minutes.  As of 2012, no tri-pole conversions are in operation.
  • 20. Converter Station Equipment  Thyristor valves  Converter Transformer  DC Reactor  Harmonics Filtering Equipment  Control Equipment  Reactive power compensation
  • 21. Ground Return  Most dc transmission lines use ground return for reasons of economy and reliability.  Ground return are used by the monopolar and the bipolar link for carrying the return current.  The ground path has a low resistance and, therefore low power loss as compared to a metallic conductor path provided the ground electrodes are properly designed.  The resistance of the ground path is independent of the depth of the line.
  • 22. Earth Electrode  HVDC system requires a properly designed earth electrode at each station.  The electrode is situated at a safe distance (5 to 30 km) from the station.  The earth electrode at one of the station acts as a anode and at the other end acts as a cathode.
  • 23. Disadvantages  The disadvantages of HVDC are in conversion, switching, control, availability and maintenance.  HVDC is less reliable and has lower availability than alternating current (AC) systems, mainly due to the extra conversion equipment.  The required converter stations are expensive and have limited overload capacity.  At smaller transmission distances, the losses in the converter stations may be bigger than in an AC transmission line for the same distance.  Operating a HVDC scheme requires many spare parts to be kept, often exclusively for one system, as HVDC systems are less standardized than AC systems and technology changes faster.
  • 24. Conclusion HVDC offers powerful alternative to increase stability of a power system as well as to improve system operating flexibility and loss reduction.