liu qianjin, chief technology officer, abb china limited ... · challenges like large scale...
TRANSCRIPT
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Asian Energy Highway The power grid revolution
Liu Qianjin, Chief Technology Officer, ABB China Limited, Sept 3, 2013
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About myself
PhD & MSc 2002 at Tsinghua University
20Mvar StatCom Development, FACTS Control designing
with ABB since 2003
Power System Stability Studies on HVDC & FACTS
Grid Economical Simulation
Wind farm modeling and interaction
Chief Technology Officer since 2010
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The European vision of what needs to be done....... Evolution with renewable
September 3, 2013 | Slide 3
Hydro power and pump storage -Scandinavia
>50 GW wind power in North Sea and Baltic Sea
Hydro power and pump storage plants - Alps
Solar power in S.Europe, N.Africa & Middle East
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Europe Source: DG Energy, European Commission
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03 September 2013 | Slide 4
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Asian Energy Highway Vision of intercontinental in Asia-Pacific
September 3, 2013 | Slide 5
Source:
[1] http://jref.or.jp/en/images/pdf/20120309/10March_REvision2012_session5-1_son.pdf
[2] http://jref.or.jp/en/images/pdf/20120309/10March_REvision2012_session5-1_masuda.pdf
[3] A Pan-Asian Energy Infrastructure http://www.grenatec.com/
“Asia Pacific Power Grid” proposed by Japan Renewable Energy Foundation [1,2]
“Pan Asian Energy Infrastructure” proposed by Grenatec [3]
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HVDC Grids – Why? Regional to continental HVDC Grids
Why DC Grids vs point to point DC links or AC?
Only relevant offshore solution
More efficient on long distances
Fewer converters – lower cost
Redundancy
Why now:
Offshore wind, remote solar, grid constraints
HVDC Light systems and components mature
Right of Way
Challenges:
DC Breakers & DC/DC Converters
Regulatory framework
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Slide 6
PowDoc id
Off-shore
wind
Solar
Hydro
September 3, 2013 | Slide 6
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HVDC limitation today - point to point power highways No entry or exit points - a major hurdle
From joining the dots to connecting the lines
Europe China Desertec
September 3, 2013
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Continental power corridor 1100 kV DC converter feeder transformer
September 3, 2013 | Slide 8
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ABB’s hybrid HVDC breaker How it works ?
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September 3, 2013 | Slide 9
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Asian Energy Highway HVDC grid make it possible
September 3, 2013 | Slide 10
Asian power grid example by ABB
DC grid for the solution:
• DC grid is the best solution for the
vision
• Different requirement should have
different technologies:
• Latest technology (VSC) connects the
weak AC network and light load area.
• Classic technology (LCC) connects the
high power requirement and heavy load
area.
• So called DC grid.
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September 3, 2013 | Slide 11
High Voltage DC Transmission (HVDC) Motivations and Benefits of HVDC
Higher Transmission Capacity than HVAC
Lower losses than AC on Long Distances
Possibility to use Cables (Land or Sea)
HVDC Light:
1 x ±400 kV
1200 A
1620 mm2
conductors
HVAC:
2 x 400 kV
2 x 1200 mm2
conductors
En
erg
y L
osse
s
Transmission Line [km] 500 1000
5%
10% HVAC: 2 x 400 kV
HVDC: 1 x ±400 kV
AC/DC conversion losses
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Enabling the next generation grid
The DC hybrid breaker enables the next generation of the grid, coping with new
challenges like large scale renewable power transmission
DC grids can provide power transmission in a highly efficient and stable way,
DC transmission can be up to 50% more efficient than AC transmission
Large scale integration and transmission of renewable power in EU and US.
Potentially for countries that tap hydropower over long distances (China, India)
Critical technology for European grid and Desertec grid visions
Interesting business opportunity for ABB in mid- to long term
September 3, 2013 | Slide 12