The Finnish Railways, VR Group, ordered 80 electric Vectron locomotives from Siemens. The new locomotives are designed to operate reliably even under the extreme climatic conditions in Scandinavia during their long service life. Siemens was able to provide clear evidence of their capability during comprehensive test and authorization trips in Sweden and Norway. For Siemens this marks the largest single contract so far for its latest generation of Vectron locomotives and the first for this type in the broad gauge version.
Siemens has been awarded a contract to provide 152 new S70 light rail vehicles (LRVs) for Sound Transit, the regional transit system serving the Seattle and Central Puget Sound area in the US state of Washington. The S70s light rail vehicles will be built at the Siemens rail manufacturing hub in Sacramento, California. The fleet is expected to begin testing in 2019.
For the first time in many decades, a private company began planning and developing a fast intercity connection in the United States in 2012. The new Florida East Coast Railway will operate up to 16 pairs of trains from Miami Central Station via Fort Lauderdale to West Palm Beach.
In 2014, the Departments of Transportation of California, Illinois and Maryland ordered an initial lot of 34 Charger locomotives from Siemens, with an option for a total of 222 locomotives. The contract back then was valued at approximately €165 million ($225 million). Due to orders from other states as well as by the private rail operator All Aboard Florida, the total number of Chargers ordered amounts to 81 in 2017. The locomotives are deployed in corridors of the US states for regional and mainline trains travelling for Caltrains (California) as Amtrak Pacific Surfliner, in Washington as Amtrak Cascades and in Maryland with the regional network MARC. Under the "Brightline" brand, ten Chargers are being deployed in high-speed rail services between Miami and West Palm Beach; Orlando is due to follow at a later date.
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.
The discovery of the dynamo-electric principle has brought about greater changes to the way our society lives than practically any other scientific breakthrough. By inventing the dynamo machine, not only did Werner von Siemens help bring about the advent of electrical machinery, he was also instrumental in accelerating and facilitating industrial processes. Seen from the perspective of society, this completely changed accepted concepts of time and mobility.
The Velaro D is the fourth generation of high-speed trains that Siemens has developed on the basis of the Velaro platform. Deutsche Bahn AG (DB) classifies the train as the new Series 407 ICE 3 (predecessors: Series 403 and Series 406 ICE 3). In December 2013, Germany's Federal Railway Authority (EBA) approved the trains' operation – also in multiple-unit or so-called double-traction mode – on the Deutsche Bahn rail network. Passenger operation started on December 21, 2013.
Authorization for operation in single-traction mode in France was granted in April 2015. Since June 2015 the trains have been travelling to Paris in regular passenger operation. In addition to Germany and France, the Velaro D is also intended for cross-border operation in Belgium.
Since 2007, trains based on the Velaro platform have operated with high reliability for more than one billion kilometers in China, Russia, Spain and Turkey – equal to roughly 25,000 times around the globe.
In May 2014 Siemens, together with the public utilities of Mainz, Linde and the RheinMain University of Applied Sciences, has laid the foundation stone for a new type of energy storage system. Now, time has come: By pressing a symbolic button, the Chairman of the Board of Linde Group, Dr. Wolfgang Büchele, Siemens board member Professor Siegfried Russwurm, two board members of Stadtwerke Mainz AG, Detlev Höhne and Dr. Tobias Brosze, and Professor Dr. Detlev Reymann, President of RheinMain University, officially launched a hydrogen production plant at the Energiepark Mainz on July 2, 2015. With the support of the German Federal Ministry of Economics and Technology as part of the Energy Storage Funding Initiative the 17-million-project could be realized. The system, equipped with an electrolyzer from Siemens, will convert surplus electricity from wind farms to hydrogen from now on. In this way, it will be possible to store electricity from renewable sources over longer periods of time. With a peak rating of up to 6 megawatts the plant is the largest of its kind in the world.
The principle of electrolysis has been tried and tested for decades. What is special about the Mainz system is that it involves highly dynamic PEM high-pressure electrolysis which is particularly suitable for high current density and can react within milliseconds to sharp increases in power generation from wind and solar sources. In this electrolyzer a proton exchange membrane (PEM) separates the two electrodes at which oxygen and hydrogen are formed. On the front and back of the membrane are precious-metal electrodes that are connected to the positive and negative poles of the voltage source. This is where the water is split. The system in Mainz will thus have a capacity relevant for bottlenecks in the grid and small wind farms.
This year something very special is brewing: 2016 marks the 500th jubilee of the world's oldest food law. In 1516, the Bavarian co-rulers Duke Wilhelm IV and Ludwig X issued a decree in Ingolstadt to the effect that henceforth, only barley, hops and water could be used in the brewing of beer. The "Reinheitsgebot" was born, and its fame has since spread around the world. German beer is one of the country's most popular exports, with around 1.5 billion liters shipped to foreign shores every year. A high proportion of brewers rely on technology from Siemens to prevent any disruptions to production and keep the golden liquid flowing freely. The first electronic control-based automation solutions came into existence in the 1970s. The "Braumat" process control system has since taken care of reliable production and quality consistency in countless breweries the world over. Today, competition for market share in the beer industry is tough. Efficiency and flexibility are vital to success. What remains to be seen: What will the brewery of the future look like? From July 22-24, Siemens is taking part in the "500 Years of the German Purity Law 2016" Festival in Munich as a partner to the brewery industry with its own booth.
Siemens will deliver 1,140 commuter rail carriages to the British capital. This is the largest order that Siemens has ever won in Great Britain and one of the biggest orders for Siemens' global rolling stock business. The first Desiro City train for the Thameslink network in Greater London was delivered and entered service in June 2016. By the end of 2018, a total of 115 trains will have been delivered. Siemens will take over the complete long-term servicing and maintenance for this new fleet of trains. The Thameslink north-south commuter route runs through London, connecting Bedford, located to the north east of the capital, with Brighton, on the south coast.
Introducing a high capacity, high frequency service of longer trains, extended platforms and new stations, the project is regarded as one of the largest rail infrastructure projects in the UK.