DC commutation breaker successfully tested in 5000-A HVDC system in China
Special breaker properties are required for transferring such high currents from one current path to another, a process also known as commutation. The circuit-breaker was integrated in the direct-current switchgear of the Shuanlong converter station and allows the uninterrupted switchover from grounding electrode mode to metallic return transfer mode and vice versa with no need for the operator to reduce the transmission power of the system. Until now, this only functioned with rated DC currents below 5000 A. Siemens has now successfully exceeded this limit with its circuit-breaker, thereby improving the operation, s
„We've successfully tested our DC commutation circuit-breaker at the Shuanlong converter station in operation at full load at 5000 A DC. We've thus proven the switching capability of this breaker in what is currently the world's largest HVDC transmission system with no need for current flow reduction,“ said Tim Dawidowsky, CEO of the Transmission Solutions Business Unit in the Siemens Division Energy Management.
Since July 2014, the Siemens HVDC system Xiluodu-Zhejiang has been transmitting eight gigawatts (GW) of power at a DC transmission voltage of 800 kilovolt (kV) over a distance of 1670 kilometers from the Xiluodu hydropower plant in Sichuan province to the highly industrialized province of Zhejiang. This makes it the highest capacity HVDC link in the world at the present time. The circuit-breaker was tested during the high-water season to ensure that the hydropower plant could deliver the necessary power.
Siemens is already carrying out successful pioneering work in China with ongoing further development of HVDC technology. In 2009, Siemens put into operation the Yunnan-Guangdong transmission system, which was the first ±800 kV DC link in the world. In 2010, the Chinese power supply utility State Grid Corporation of China (SGCC) commissioned a 6.4-GW UHVDC (ultra-high-voltage DC) transmission system using what were then the most powerful thyristor valves and power transformers from Siemens for the first time. Siemens technology is also used in the longest HVDC link in the Jinping-Sunan project, extending over 2,000 kilometers and with a transmission capacity of 7.2 GW. In January 2014, SGCC commissioned Siemens to deliver power transformers, thyristor valves and DC equipment for the world's first HVDC project with a transmission capacity of 8 GW. The 800-kV HVDC technology used in this project allows the transport of enormous amounts of eco-friendly, CO2 –free hydropower to megacities in China.
For further information on Energy Management, please see
Siemens AG (Berlin and Munich) is a global technology powerhouse that has stood for engineering excellence, innovation, quality, reliability and internationality for more than 165 years. The company is active in more than 200 countries, focusing on the areas of electrification, automation and digitalization. One of the world's largest producers of energy-efficient, resource-saving technologies, Siemens is No. 1 in offshore wind turbine construction, a leading supplier of combined cycle turbines for power generation, a major provider of power transmission solutions and a pioneer in infrastructure solutions as well as automation, drive and software solutions for industry. The company is also a leading provider of medical imaging equipment – such as computed tomography and magnetic resonance imaging systems – and a leader in laboratory diagnostics as well as clinical IT. In fiscal 2014, which ended on September 30, 2014, Siemens generated revenue from continuing operations of €71.9 billion and net income of €5.5 billion. At the end of September 2014, the company had around 357,000 employees worldwide. Further information is available on the Internet at www.siemens.com
Reference Number: PR2015010107EMEN
Ms. Sabrina Martin
Energy Management Division
Tel: +49 (9131) 18-7032
Alle Nachrichten aus der Kategorie: Unternehmensmeldungen
Neuer Wirkstoff aus Bakterien könnte Pflanzen schützen
Bakterien der Gattung Pseudomonas produzieren einen stark antimikrobiellen Naturstoff. Das haben Forschende des Leibniz-Instituts für Naturstoff-Forschung und Infektionsbiologie (Leibniz-HKI) entdeckt. Sie wiesen nach, dass die Substanz sowohl gegen pflanzliche Pilzkrankheiten…
Entwicklung eines nachhaltigen Stromnetzes
Forschungsteam der TU Chemnitz arbeitet an einer nachhaltigen und smarten elektrischen Infrastruktur auf der Basis von Wasserstofftechnologien. Die Sächsische Aufbaubank (SAB) fördert das Projekt „HZwo: StabiGrid“ an der Technischen Universität…
Biokraftstoffe mit Strom boostern
Neues Verbundprojekt macht Herstellung von Biokraftstoffen effizienter. In einem zu Jahresbeginn gestarteten Projekt unter Koordination der Technischen Universität München (TUM) will ein Bündnis aus Forschungsinstitutionen und Unternehmen den ökologischen Fußabdruck…