Green Engineering Technology Day , Scandic Hotel Kolding. Siemens Wind Power. Hardware In Loop Software Test System

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Transcription:

Green Engineering Technology Day 24-03-2010, Scandic Hotel Kolding Siemens Wind Power Hardware In Loop Software Test System

Agenda About Siemens Siemens Energy Sector Siemens Wind Power Hardware In Loop Test System System Design Architecture Closing

Difference from 1850 1899 ( C) The world is changing Siemens has answers to these burning questions CO 2 emissions Population growth Increasing life expectancy Industry Healthcare We solve the challenges of a booming population 0.7 + 0,76 C 0.5 0.0-0.5 1850 1900 1950 2000 We supply better and affordable healthcare Energy GDP increase in developing countries Rising temperatures We lower CO 2 emissions with our energy solutions Source: Siemens

Siemens Energy Sector Answers for energy supply Energy products and solutions in 6 Divisions Oil & Gas Fossil Power Generation Renewable Energy Energy Service Power Transmission Power Distribution

Innovation fields along the entire energy conversion chain Nuclear Power Generation Wind Power Generation Solar Power Generation HVDC-Transmission and HVDC Grids Smart Grid incl. Energy Storage, E-Mobility Offshore & Subsea Oil&Gas Pipeline Transportation and Gas Liquefaction Highly Efficient Coal- and gas fired Power Plants Gasification Carbon Capture and Storage

Energy outlook Power Generation (in 1000 TWh¹) Geothermal Geothermal Wind Renewables (excl. hydro) in 2008: 600 TWh (3% of total) 13% 28% Solar 2% 47% Biomass 2.6 % p.a. 21.000 TWh 3% 15% 13% 22% 5% 42% Fossil fuels 68% 60% 37.000 TWh Renewables 14% Hydro 13% Nuclear 13% Gas 21% Oil 3% Coal 36% Wind power growth: 13% p.a. Renewables (excl. hydro) in 2030: 5.200 TWh (14% of total) 3% Solar 28% Others 1% Biomass 19% Wind 49% Quelle: Siemens Energy Sector, GS4 base case 2008 2030 ¹ Terawatt-hours

Siemens Wind Power Facts at a glance Currently 5,800 employees globally (850 in 2004) Deliveries: 2,500 MW in 2009 (600 MW in 2004) Capacity: Growing with a solid double digit rate Installed Base: > 8,700 turbines with > 11,000 MW capacity Record Order Entry in FY 2009 No. 1 in new offshore orders in 2007, 2008 and 2009 Target: To become Top 3 supplier in 2012

We have long experience in offshore and onshore wind farms 2010 2010 2009 2009 2008 2007 2006 2005 2003 2001 2000 1991 Rødsand II offshore wind farm, Denmark: 207 MW World's largest offshore wind farm Greater Gabbard, UK: 504 MW Horns Rev II offshore wind farm, Denmark: 209.3 MW Whitelee onshore wind farm, Scotland: 322 MW Lillgrund offshore wind farm, Sweden: 110 MW Burbo Banks offshore wind farm, UK: 90 MW Horse Hollow II onshore wind farm, USA: 300 MW Smøla I+II onshore wind farm, Norway: 150 MW Nysted offshore wind farm, Denmark: 166 MW King Mountain onshore wind farm, USA: 278 MW Middelgrunden offshore wind farm, Denmark: 40 MW World s first offshore wind farm Vindeby, Denmark: 5 MW

Our portfolio: Based on 30 years of experience in the wind industry Megawatt class CombiStall technology SWT-1.0-54: 356 WTG SWT-1.3-62: 1,520 WTG SWT-2.0-76: 165 WTG SWT-2.3-82: 506 WTG Kilowatt class Stall technology SWT-0.6-44: 1,316 WTG SWT-2.3-82 < 600 kw: 2,330 WTG SWT-0.6-44 SWT-1.0-54 SWT-1.3-62 SWT-2.0-76 Former product portfolio Existing product portfolio Expansion to product portfolio - New Technology Multi-Megawatt class Pitch technology with variable speed SWT-2.3-82 VS and SWT-2.3-93: 1,501 WTG SWT-3.6-107: 101 WTG SWT-2.3-82 VS SWT-2.3-93 SWT-2.3-101 SWT-3.6-107 SWT-3.0-101 DD SWT-3.6-120 Direct Drive Technology Compact Direct Drive SWT-3.0-101 DD Installed base worldwide: > 8,700 turbines with > 11,000 MW capacity

Main principles of a wind turbine Energy in wind Forces on blades Rotation of rotor Counter moment in generator Electrical energy blades pitch bearings yaw motor main shaft gear box brake generator

Main principles of a wind turbine Wind Turbine Control Computer El connections

Siemens Wind Power Test System System Design W i n d T u r b i n e S i m u l a t o r Wind Turbine Control Computer El connections

Siemens Wind Power Test System System Design W i n d T u r b i n e S i m u l a t o r System Management Application Software Controls test system execution Software development environment Wind Turbine Control Computer Measurement & Control Services Computing Device IO SW drivers Computing HW with bus technology Connections with the physical world El connections

Siemens Wind Power Test System System Design W i n d T u r b i n e S i m u l a t o r System Management Application Software Controls test system execution Software development environment Wind Turbine Control Computer Measurement & Control Services Computing Device IO SW drivers Computing HW with bus technology Connections with the physical world El connections

Siemens Wind Power Test System System Design W i n d T u r b i n e S i m u l a t o r Host Machine System Management Application Software Controls test system execution Software development environment Wind Turbine Control Computer Measurement & Control Services Computing SW drivers Computing HW with bus technology Device IO Connections with the physical world El connections Ethernet

Siemens Wind Power Test System System Design W i n d T u r b i n e S i m u l a t o r Host Machine System Management Application Software Controls test system execution Software development environment Wind Turbine Control Computer Measurement & Control Services Computing SW drivers Computing HW with bus technology Device IO Connections with the physical world El connections Ethernet

Siemens Wind Power Test System Architecture Configuration Module Simulation Modules Rotor Wind Generator Gear box Brake Hardware IO Interface Matrix Test System Framework LabVIEW Real-Time & drivers

Siemens Wind Power Test System Architecture Configuration Module Simulation Modules Rotor Wind Generator Gear box Brake Hardware IO Interface Matrix Test System Framework LabVIEW Real-Time & drivers

Closing

Closing Med venlig hilsen/best Regards, Samir Bico Siemens Wind Power A/S Engineering, Electrical (E R WP EN 322) Borupvej 16 DK-7330 Brande Denmark Tel. : +45 9942 2222 Direct : +45 9942 2679 Mobile : +45 3037 6454 Fax : +45 9999 2222 mailto:sbi@siemens.com http://www.siemens.com/powergeneration

Green Engineering Technology Day 24-03-2010, Scandic Hotel Kolding Siemens Wind Power Hardware In Loop Software Test System

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