The South African Wind Energy Programmeresearch.ee.sun.ac.za › sanap › images › The South...
Transcript of The South African Wind Energy Programmeresearch.ee.sun.ac.za › sanap › images › The South...
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The South African Antarctic Wind Energy ProgrammeSAAWEP - Towards Sustainable Research
Johan Stander
2010 Project Manager
2009 Mechanical Engineer
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Contents
• The beginning
• Today
• Why a SAAWEP?
• SANAE IV – The challenges
• Wind turbine technology
• SAAWEP future
• Conclusion
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The beginning
• Utilising wind energy in Antarctica no novelty
• 1902 – Cpt. Scott onboard the Discovery
• 1959/60 – SANAE I base
• 1987 – Neumayer II base (GER)
• 2003 – Mawson base (AUS)
• 2007 – SANAE IV
• 2008 – Princess Elizabeth base (BE)
• 2009 – SANAE IV
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Today
• An estimated total installed capacity of 1 MW
• Wind power penetration ratio: 100 %
• Largest wind farm: 660 kWEnercon 330 KW
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• 2010/2012 projects:
- SANAE IV base adding 30 kW
- Scott base (NL): 3 x 330 kW
- Neumayer III adding 60 kW
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Why a SAAWEP?
• The programme initiated by Dept. Electrical and Electronic
Engineering, EML, commenced in 2007
• Funded by NRF and SANAP, managed by EML
• A need driven by:
- increasing fuel prices
- reduction of green house gas emissions
- fuel spillages
- fossil fuel dependency
- sustainable research
- favourable wind conditions: 10 kW wind turbine may save 9800 L/a
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Why a SAAWEP?
• Aim: To promote engineering research, to develop and to implement
wind energy conversion technologies at SANAE IV and in South Africa
• Engineering research: materials, structural,
transport and commissioning, transport and commissioning,
snow accumulation, system
control, etc.
• Development: Design, manufacture, laboratory tests, full
scale testing, etc.
• Implement: Environmental impact, cargo, training, construction,
performance evaluation, etc.
• Promote: http://research.ee.sun.ac.za/sanap
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SANAE IV – The challenges
• The site
(ice, snow and rocky)
• High winds
(average 10 m/s; (average 10 m/s;
max. 223 km/h @ 10 m AGL)
• Low temperatures
(average -16 °C)
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SANAE IV – The challenges
• SANAE IV power system: diesel fuelled multi-
generator system supplying: electricity, heat and
water
• Weak remote grid – voltage stability and frequency• Weak remote grid – voltage stability and frequency
• Wind and turbine integration
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Full converter
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SANAE IV – The challenges
• Logistical and equipment constraints:
- containers and transport
- weight
- limited construction methods e.g. crane size- limited construction methods e.g. crane size
- limited site access
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Wind turbine technology
• Distinguishing design properties:
- Robustness
- Minimum maintenance/lubricant dependent components
- Standard components
- Component material selection- Component material selection
• SANAE IV wind turbines:
- Simplistic control/operation
- Optimised direct drive PM generator technology
- Exploring new direct drive, direct grid coupled technologies
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Wind turbine technology
• Electrical design
- PM generator directly coupled, no gearbox
- Magnets NdFeB
- Integration: 3ph 400VAC, full converter
Electromagnetic design
- Integration: 3ph 400VAC, full converter
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Generator rotor Stator Converter
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Wind turbine technology
• Mechanical design
• Wind turbine:- Blades and nose cone: 3.6 m, GFRP, 70 m/s, black
- Nacelle: Steel SABS 300WA- Nacelle: Steel SABS 300WA
- Tail: Steel SABS 300WA, aluminium SABS 6063-T6
- Tower: 12 m, tilting, free-standing lattice (300WA)
- Survival: 70 m/s and -40 °C to +20 °C
• Foundation:- Base plate anchored with rock bolts
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Wind turbine technology
• Control design
- operation: 15 kW, 4 m/s to 12 m/s @ 12 m AGL
- Rotor speed and power control: combined RC
braking (electrical), furling and stalling (mechanical)
- Yaw: passively with tail
- Power quality and integration: maximum
power tracking (anemometer) and
converter
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SAAWEP future
• New generator technology development
• Mechanical design optimisation to fit electrical
design constraints - manufacturing time and costsdesign constraints - manufacturing time and costs
• Up scaling: 15 kW � 50 kW wind turbines
• Grid studies
• Possible expansion to Southern Ocean Islands
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Conclusion
• Utilising wind energy in Antarctic is increasing
• Every project has unique challenges e.g. foundations
• The SAAWEP needs Mechanical Engineers• The SAAWEP needs Mechanical Engineers
• SAAWEP expansions:
- consulting
- Southern Ocean Islands
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CONTACT
Prof. Maarten Kamper
t: 021 808 4323
Johan Stander
t: 021 808 3890
Website: http://research.ee.sun.ac.za/sanap
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