Energy Sector Press Power Transmisson Division Erlangen, April 15, 2014 Siemens receives major order for BorWin3 North Sea grid connection from TenneT Consortium leader Siemens to supply HVDC transmission technology Consortium partner Petrofac responsible for construction and installation of platform 900 megawatt (MW) BorWin3 grid connection to supply nearly one million German households with electricity from wind energy Completion planned for 2019 Siemens receives an order from TenneT for an offshore wind farm grid connection in the North Sea. In a consortium with Petrofac Siemens will supply the complete technology for efficient direct-current transmission for the BorWin3 grid connection as the consortium leader. The consortium partner Petrofac, with over 30 years of experience as a leading EPC contractor to the international oil and gas industry, will be responsible for the construction and offshore installation of the project's platform. Supply and laying of the cables was tendered separately by TenneT and is therefore not part of the consortium's scope of supply. The BorWin3 grid connection, with a transmission capacity of 900 megawatts (MW), is the fifth order that Siemens has received from the German-Dutch transmission grid operator TenneT for connection of offshore wind farms in the North Sea. "BorWin3 will supply nearly one million German households with clean electricity from wind power. We can now fully apply our broad experience gained in our first four pioneer projects in the North Sea to this project", declared Karlheinz Springer, CEO of the Power Transmission Division of the Siemens Energy Sector. Commencement of commercial operation of Borwin3 is scheduled for 2019. The scope of supply includes the entire high-voltage equipment of the grid access Siemens AG Wittelsbacherplatz 2, 80333 Munich, Germany Communications and Government Affairs Head: Stephan Heimbach Reference number: ET201404.036e fp Energy Sector Power Transmission Division Freyeslebenstr. 1, 91058 Erlangen Page 1/5
system as well as the complete onland station. Both converters, which are meant to turn the alternating current into the direct current one and then back again, constitute an essential part of the installation. In addition to this, Siemens supplies two power transformers per station at a rating of about 670 MVA as well as the entire air and gas insulated high-voltage switchgear equipment. Furthermore, Siemens is in charge of the overall construction works of the onland station. The high-voltage direct current (HVDC) converter modules are going to be designed, manufactured and tested at the Siemens converter factory in the city of Nuremberg. The technology applied here is well-proven and it is already successfully used in four offshore projects by Siemens. The power transformers are also manufactured by Siemens at the factory in Nuremberg. The converter technology applied by Siemens, which is referred to as the HVDC Plus, stands for a voltage-sourced converter constructed on the basis of the Modular Multilevel Converter concept (VSC MMC). Pioneering the VSC MMC technology, Siemens boasts the technological leadership in this field. Unlike the conventional HVDC variant used only in the grids with a sufficient level of short-circuit power, the installations furnished with the HVDC Plus provide the black-start capability of the islanded grids, which is the basic requirement when operating an offshore network. The modular VSC technology helps reduce the complexity and subsequently the size of installations - which is a mandatory requirement especially when used on offshore platforms. Moreover, the HVDC Plus ensures a virtually ideal sinus-shaped alternating current voltage and a smooth voltage in the direct current voltage circuit. This makes the use of harmonic filters superfluous. This 160 kilometers (km) long grid connection will link several wind farms to the mainland. The 155 kilovolt (kv) alternating current supplied by the wind power plants will be transformed into 320 kv direct current on the BorWin3 offshore platform. A basic principle behind power transmission is: The higher the voltage, the more energy that can be transmitted via a cable and the less the losses. Normally, direct current transmission is implemented in cable links of more than 80 km, as this is usually more economical, and also because transmission of alternating current over such distances and at these high power levels would result in a major portion of the energy being lost without any means of compensation. The BorWin3 link will transport electrical energy via cable over 130 km at sea and a further 30 km on land to the grid feed-in point in Emden. The direct current will then be converted back into alternating current for further transmission and distribution. Thanks to the efficient Reference number: ET201404.036e fp Page 2/5
Siemens HVDC (high-voltage direct current) technology, transmission losses over the link, excluding cable losses, are less than three percent. The platform will be designed as a parent platform, equipped with a helipad and crews' quarters. Siemens will essentially be supplying the HVDC technology for the platform and will be responsible for the construction of the complete HVDC converter station on land. In all, Siemens is now implementing five North Sea grid connection projects for TenneT. Projects to date are: HelWin1 (576 MW) and HelWin2 (690 MW) off of Helgoland, BorWin2 (800 MW) off of Borkum and SylWin1 (864 MW) off of Sylt. Those grid connections are well advanced and are scheduled to take up operation successively between 2014 and 2015. HVDC solutions and the associated service are part of the Siemens environmental portfolio. Around 43 percent of the company's revenues are provided by green products and solutions. That makes Siemens one of the world s leading providers of eco-friendly technology. Platform for HelWin1 North Sea grid connection already installed at sea Siemens installed the offshore platform for the HelWin1 North Sea grid connection at sea in August 2013. HelWin1 is scheduled to take up operation in the second half of 2014, and is designed for decades of operation in the rugged North Sea. The platform will be monitored and controlled from land when it has been commissioned. Reference number: ET201404.036e fp Page 3/5
German wind farms with HVDC grid connection The German-Dutch transmission grid operator TenneT is using low-loss, highvoltage direct-current transmission (HVDC) technology to reliably transport the electricity from the wind farms over long distances onto land. Siemens is implementing five of the nine offshore grid connections ordered to date for the North Sea, thus contributing to a successful energy turnaround. HVDC grid connection links several wind farms to the mainland High-voltage direct-current (HVDC) transmission technology is used to convert the a.c. power produced in the wind farms to low-loss direct current. To accomplish this, several substation platforms distributed throughout the wind farm transform the generated a.c. power before it is converted to d.c. power by an HVDC platform. The electricity is transported onto land by a submarine cable, where it is converted back into a.c. power. HVDC technology is normally employed for cable lengths greater than 80 km. Reference number: ET201404.036e fp Page 4/5
Contact person for journalists: Sabrina Martin, Phone: +49 9131 18-7032 E-mail: Sabrina.martin@siemens.com This press release, press photos and further information are available at www.siemens.com/press/x-win Follow us on Twitter: www.twitter.com/siemens_press The Siemens Energy Sector is the world s leading supplier of a broad spectrum of products, services and solutions for power generation in thermal power plants and using renewables, power transmission in grids and for the extraction, processing and transport of oil and gas. In fiscal 2013 (ended September 30), the Energy Sector had revenues of EUR26.6 billion and received new orders totaling approximately EUR28.8 billion and posted a profit of approximately EUR2 billion. On September 30, 2013, the Energy Sector had a work force of approximately 83,500. Further information is available at: www.siemens.com/energy Reference number: ET201404.036e fp Page 5/5