Wiener Linien commissioned Siemens at the end of 2017 with the delivery of 34 fully automated metro trains. The contract also includes the maintenance of the trains for a period of 24 years and an option for an additional eleven trains. The "X cars" will be operated fully automated on the new U5 line in Vienna beginning in 2024. The trains can also operate semi-automated or manually on previously existing lines. Delivery of the trains is scheduled to begin in mid-2020 and to be completed by 2030. The trains will be manufactured at the Siemens factory in Vienna.
The VAG Verkehrs-Aktiengesellschaft Nuremberg has ordered 27 type G1 four-car metro trains from Siemens Mobility. The contract also includes an option for a total of a further 7 trains. These trains are earmarked for service on Nuremberg's U1 line. The trains will be built in the Siemens Mobility plant in Vienna. Core components of the G1 will be manufactured in the Nuremberg metropolitan area and include such products as the drive converters, traction motors, auxiliary converter units and control equipment. The project management, development and service support will be provided from Erlangen.
Ostdeutsche Eisenbahn GmbH (ODEG) has ordered 23 Desiro HC regional trains from Siemens for service on the Elbe-Spree network. The order is worth around €300 million. Delivery of the 21 six-car and two four-car trains is scheduled to begin in the summer of 2022. In January 2019, ODEG was awarded the contract to operate these lines following a Europe-wide tender by Verkehrsverbund Berlin-Brandenburg (VBB).The Desiro trainsets will be used on the regional express line RE1 (lot 1) connecting Magdeburg with Cottbus via Berlin and Frankfurt (Oder). During rush hours, trains will operate three times an hour between Brandenburg a. d. Havel and Frankfurt (Oder). The four-car Desiros are planned for service on the RE8 line connecting Wismar and Wittenberge with Baruth and Elsterwerda/Finsterwalde via Berlin, as well as on the RB17 line connecting Wismar and Ludwigslust.The trains have generous space available for bicycles, strollers and wheelchairs and a multipurpose car with a barrier-free WC. Sliding steps enable barrier-free access at stations with 550 mm and 760 mm platform heights. Wider doors than in older trains speed and ease passenger boarding and exiting. Free WLAN on board enhances passenger convenience. A passenger safety system provides live camera coverage of activities in the cars. In case of a conflict or problem, supervisors at the operations control center can communicate directly with the car via loudspeakers. The cars are equipped inside and outside with real-time capacity displays, and this information can also be accessed via the VBB app.
Siemens has developed a comprehensive concept for energy systems worldwide – the first such concept that takes into account and brings together not only technology but also the areas of regulation and social engagement. The Energy Value Charter aims to create customized solutions that will empower countries to make their energy systems fit for the future. The concept encompasses suggestions for implementing sustainable power-generation technologies, together with recommendations on how legal frameworks must be adapted to ensure that the full potential of these technologies can be tapped. In addition, the concept specifies options for promoting social engagement, such as work-study programs, as well as for refinancing infrastructure while simultaneously reducing greenhouse gas emissions. Siemens presented the concept at the 2019 Energy Transition Dialogue in Berlin, in the presence of energy ministers from a range of countries.Siemens developed the concept to create a global framework for energy solutions for its businesses. With its Energy Value Charter, the company wants to enter into a dialogue with governments in order to shape energy systems in such a way that they provide the basis for economic growth, social engagement and sustainable development.
China's megacities alone are home to more than 260 million people. These gigantic conurbations have recently undergone rapid growth of almost two percent per year, and are suffering increasing traffic problems caused by the soaring rate of car use. Hence the correspondingly strong demand for solutions for the further development of urban rail transport. The Nanjing customer has now commissioned Siemens to equip metro Ninghe Line with the CBTC automatic train protection system Trainguard MT. The contract includes the CBTC trackside equipment for the 36 kilometer line as well as the ATC equipment of the 24 trains. In the long term more than ten metro lines will be built in Nanjing – of which five alone will or already been feature Siemens signaling technology.Siemens can look back on a long partnership in China with the Nanjing Metro Corporation. Siemens equipped metro line 1, which started running in 2005 and is now 47 kilometers long, as well as metro line 2 in 2010. Line 2 serves 26 stations and forms the east-west tangent of the city of Nanjing in eastern China. Following the extension of the city's metro with line 2, the rail network now covers 85 kilometers. Line 10, Nangjing's first cross-Yangtze river metro line was put into operation on July 1, 2014. Its first phase runs 23.6 kilometers with 14 stations. The latest Nanjing metro line fitted with signaling technology from Siemens is Nanjing Metro Line 3, which went on public operation on April 1, 2015.
Mitsui Rail Capital Europe (MRCE), a full-service locomotive leasing company, has ordered 136 Vectron type locomotives from Siemens in total. MRCE therefore owns one of the biggest Vectron fleets. In March 2018 Siemens and MRCE have agreed to found a joint venture for the maintenance of locomotives. Together, the companies will not only maintain the MRCE fleet, but also reliably service and guarantee the maximum availability of third-party fleets with their innovative maintenance technologies. Both partners are jointly investing in the joint venture, primarily to build a new workshop for locomotives. The groundbreaking ceremony is planned for the current calendar year. The new workshop is scheduled to open in the summer of 2019.
Werner von Siemens, born on December 13, 1816, would have turned 200 years old this year. On November 29, Siemens was marking the anniversary of its company founder's birth by holding a gala event in the Mosaikhalle (Mosaic Hall) at its headquarters in Berlin. In addition to German Chancellor Angela Merkel, more than 100 prominent guests representing government, business, science, culture and the media were present. Joe Kaeser, President and CEO of Siemens AG, opened the ceremony. Nathalie von Siemens, a great-great-granddaughter of Werner von Siemens, Managing Director and spokesperson of the Board of Siemens Stiftung and a member of the Supervisory Board of Siemens AG, as well as Gerhard Cromme, Chairman of the company's Supervisory Board, will also gave speeches in honor of the company founder.Together with Georg Halske, he established Telegraphen-Bauanstalt von Siemens & Halske, a company of international standing already within his lifetime. With inventions like the electric pointer telegraph, the electric generator and the world's first electric streetcar system, Werner von Siemens had a major influence on the technological development of today's world. His passion for engineering excellence and his relentless drive to create trailblazing innovations still shape the enterprise he founded. With around 351,000 employees in over 200 countries worldwide, Siemens AG is now a leading supplier in the growth fields of electrification, automation and digitalization.
Copenhagen's S-tog (commuter rail system) is the backbone of the capital's public mass transit network. It carries around 350,000 passengers a day - and that number is growing all the time. This reflects the growth in the metropolitan area around the Danish capital where more than one fifth of the entire population of Denmark now lives. So, in the space of six years, Siemens will equip Copenhagen's entire commuter rail network with the Trainguard MT train control system which uses Communications-Based Train Control (CBTC) to automate operation. This has made it possible to reduce train headways from 120 seconds to 70 seconds within the inner-city area.The first phase; the newly opened 25 kilometer section of Line A runs from the suburb of Hillerod in the north to Jaegersborg east of the capital and will be used by more than 70.000 commuters a day. Once the complete network is open, up to 84 trains an hour will travel on the core network - equivalent to more than 1 million passengers per year. The remaining phases will enter passenger service in the coming years.
Scandinavia is the first region in the world to rely increasingly on battery-powered and thus environmentally-friendly technologies in the shipbuilding industry. After "Ampere", the world's first electrical ferry in Norway, and a follow-up order of the Finnish shipping company FinFerries, Siemens has now received an order from Norwegian ferry operator Fjord1. Ampere was put into operation in Norway in May 2015, and has traveled a distance equivalent to more than 1.5 times around the equator. With the change from diesel propulsion to battery, Norwegian ship owner Norled has reduced the cost of fuel by 60 percent. Now Siemens has tailor-made a suitable technical solution for Fjord1. With this contract, the first four battery-driven ferries in the world will run on technology developed and manufactured by Siemens."Elektra" - the newest member of the electric ferry fleet: In June 2017, the Elektra began regular operation between Nauvo and Parainen in the Turku archipelago. Battery packs, which are charged via the land-based charging stations in the harbor for use by the ferry, serve as the primary source of energy, with Diesel engines used as emergency power units. The Elektra is also Europe's largest car ferry. At nearly 98 meters long and 16 meters wide, the Elektra can transport up to 90 cars per trip. The ferry purchased by FinFerries will now be traveling this route every 15 minutes. The batteries will be charged in roughly five minutes while cars move off and onto the ferry. The two lithium-ion batteries each have a capacity of 530 kWh.