solar power for egypt - iscc kuraymat - solengco · • orascom with flagsol for solar island •...
TRANSCRIPT
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Solar Power for Egypt - ISCC KuraymatArabian Power & Water SummitAbu Dhabi, 29 – 31 March 2010
Georg BrakmannFichtner Solar GmbHwww.fichtnersolar.com
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History
1999 Discussion on ISCC technology, World Bank to sponsor four ISCC projects (Egypt, Morocco, India and Mexico) by grant of 50 Million USD each.
2001 FichtnerSolar awarded the Planning and Engineering (Technical Design Report, Specifications)
2004 Planning modified and decided tender in two lots (Solar Island and Combined Cycle Island).
2007 Bidding, Negotiations and Contract Awards: • Orascom with Flagsol for Solar Island• Iberdrola with Mitsui for Combined Cycle Island• FichtnerSolar for Project Construction Management
2008 February: Start of Construction
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Technical Concept
Gas turbine74 MW
Exhaust600°C
Steam turbineNo Sun: 36 MWSun: 59 MW
Condenser
Steam540°C, 100bar
393°C
Electricityto the gridNo Sun: 104 MWSun: 126 MW
ParabolicTrough Field
293°C
Air and vapour
Air Air
G ~
HRSG
CoolingTower
G ~
Stack Exhaust100°C
Solar Island Combined Cycle Island
Solar HX50 MJ/s
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Design: Solar Island
• Solar Collectors– 160 SKAL‐ET 150 based parabolic trough collectors, reinforced
or regular depending on position in solar field.
• HTF System– 40 loops, thereof each 9 West and East of the Power Block and
22 in the South
– 3x50% HTF main pumps, 2x50% freeze protection pumps
• HTF Area Concrete Building– HTF System Control Equipment, Electrical Systems Solar Island
• Workshop and Warehouse
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Design: Combined Cycle Island• Gas Turbine
– General Electric Type MS 6111 FA , 74 MW at 20°C ambient temperature
• Steam Turbine– Siemens SST 900, 60 MW at 50 MJ/s Solar Heat Input, 36 MW
without Solar Heat Input
• Heat Recovery Steam Generator and Solar Heat Exchangers– Steam generated by Solar Heat Exchangers (Pre‐heater +
Evaporator) and fed into high pressure steam drum
• Cooling Towers
– Evaporative cooling with make‐up water from Nile
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Site and Plant Arrangement
• 87 km South of Cairo
• 3 km East of Nile
• 4 Collector Areas
• Power Block in the North
• Non‐Plant Area and
Access Road in West
• Balance of Plant in North
• Gas Pipeline and Gridline passing in the North
• In the South cultivated Land, in the West small Wadi
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Solar Collector Loop~300m
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Solar Collector Skal‐Et 150
Structure Torque Box
GeometricConcentration
82
Aperture area 817,5 m²/SCA
Length per SCA ~150 m
Peak opticalefficiency
80%
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Absorber Tube Schott PTR 70
• Improved reliability • Improved match between glass and metal
coefficients of thermal expansion • 100% testing of glass-to-metal seal • Improved performance • New bellows configuration that compresses
when tube is hot • Improved getter mounting to keep getters cool to
increase hydrogen absorption capacity • More durable anti-reflective coating on glass • Reduced hydrogen permeation • Selective coating
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Sun tracking of the Solar Collectors by a sensor
• Photovoltaic cell causing two currents
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Wind breakers
Task: Reduce wind loads on the collectors
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Collector Assembly: Finished
Daily production: 8 SCE (average)
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Construction Works ProgressSolar Collector Erection
Currently erected SCE‘s: 1900 of total 1920 ≈ 99%
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Construction Works Progress Latest Pictures
Solar Field Area 1 and 3, Currently: Precommissioning
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Construction Works Progress Latest Pictures
Solar FieldCurrently: PrecommissioningLoop by Loop
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Construction Works Progress Latest Pictures
Solar Field: Tared Roads and Gravel against Dust
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Construction Works Progress Latest Pictures
HTF Area ConcreteBuilding
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Construction Works Progress Latest Pictures
Combined Cycle: Solar Heat Exchangersafter Delivery to Site
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Construction Works Progress Latest Pictures
Collector Area 3 and Gas Turbine