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.
Siemens has won a significant order from Oil and Natural Gas Corporation Limited (ONGC) in India to overhaul 18 units of RT48S & RT56 power turbines of Siemens fleet of aeroderivative gas turbines driven by Industrial AVON & Industrial RB211 gas generators along with installation and commissioning services. The turbines are operating at Mumbai High Asset and Neelam & Heera Asset of ONGC in Mumbai.
The foundation stone of the future converter station was laid on the morning of February 23rd in Folkestone by Jesse Norman, Minister for Industry and Energy signalling the start of the construction work for high-voltage direct-current (HVDC) project ElecLink. Siemens has been awarded an order to supply a link between the French and British power grids by customer ElecLink Limited, a wholly owned subsidiary of Groupe Eurotunnel SE. The ElecLink high-voltage direct-current (HVDC) link will enhance power supply reliability in both countries and promote the integration of renewable energy sources into the power grid. ElecLink, when complete, will supply enough electricity to power more than 1.65 million typical households per year. The HVDC link between France and Great Britain has been designated as one of the European Commission's projects of common interest to help create an integrated European Union energy market.
The wind service operation vessel (SOV) for the Dutch Gemini project has been christened "Windea la cour" today in Hamburg. The vessel is to set sail to start operations at the Gemini offshore wind power plant this summer. This is the third Siemens-chartered SOV which is supporting Siemens and its offshore service operations. Since June 2015, 'Esvagt Faraday' is supporting service operations at the Butendiek offshore wind power plant in North Sea and 'Esvagt Froude' is utilized for service at the EnBW Baltic II wind farm in the Baltic Sea. A fourth SOV will be utilized for service operations by Siemens at the Sandbank and Dan Tysk wind projects. SOVs are part of innovative approaches in the sector of service for offshore wind power of Siemens anc can make a vital contribution in the future to further reducing the costs for electricity generated by offshore wind farms.
The "Fortuna" combined cycle gas turbine (CCGT) power plant at the Lausward location in the port of Düsseldorf was successfully handed over to the customer and operator, the Stadtwerke Düsseldorf public utility company, on January 22, 2016. The power plant has broken three world records: in the acceptance test a maximum electrical net output of 603.8 megawatts (MW) was achieved and the net energy conversion efficiency was around 61.5 percent. In addition, "Fortuna" can also deliver up to around 300 MW for the district heating system of the city of Düsseldorf – a further international peak value for a power plant equipped with only one gas and steam turbine. This increases the overall efficiency of natural gas as a fuel to 85 percent. The heart of the "Fortuna" CCGT power plant is the extremely powerful SGT5-8000H gas turbine from Siemens. Highly efficient and flexible CCGT power plants ideally complement renewable energy sources such as the wind and the sun, which are subject to fluctuations in their power outputs.
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 Dresser-Rand business, part of Siemens Power and Gas, has commissioned its first micro-scale natural gas liquefaction system at the Ten Man liquefied natural gas (LNG) facility in Pennsylvania, U.S. The modular, portable LNGo technology enables distributed production of LNG and can be installed in a short period of time to meet local demand for LNG. This cost-effective solution, developed by the Dresser-Rand business, allows the operator, Frontier Natural Resources, to monetize stranded gas assets at Tenaska Resources LLC's Mainesburg field, located in the Marcellus shale play. Frontier Natural Resources is an independent natural gas producer focused on developing conventional and unconventional resources.
The scope of supply included a standardized LNGo solution consisting of four different modules, each handling one step of the liquefaction process. The whole LNGo system can be transported on eight trucks. It is deployed directly at the gas field and has a footprint of approximately 508 square meters, roughly the size of a basketball court. The Ten Man facility commenced production just four months from contract signing, and has produced approximately half a million liters of LNG in the first 20 days.
"This project demonstrates our unique capabilities to deliver innovative solutions for oil and gas applications that help our clients maximize the value of their assets," said Michael Walhof, sales director Distributed LNG Solutions for the Dresser-Rand business. "We are proud to provide Frontier Natural Resources with a reliable, robust solution to liquefy natural gas and cost-effectively move it to market."
The LNGo technology makes it possible to monetize stranded gas deposits due to its relatively low capital and operating costs. The micro-scale LNGo solution can be deployed in rough terrain or remote regions, eliminating the need to establish an expensive gas pipeline infrastructure or arrange for long-distance trucking of LNG from centralized plants to point of use. It can function as a decentralized solution where the requisite pipeline infrastructure is lacking, or as an onsite transformation solution to reduce or eliminate flaring of petroleum gas at, for example, oil rigs or producing gas fields.
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.
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.
The first passenger train will roll through the Gotthard Base Tunnel early June 2016. Siemens has supplied the tunnel control and fire protection systems for the world's longest railway tunnel. The sophisticated safety system has over 200,000 sensors, and places maximum demands on logistics and data processing.The control system controls and monitors all installations completely automatically. The tunnel is fitted with sensors, control electronics and surveillance equipment. This includes video cameras in the multifunction points, which are connected by optical fiber cables to two tunnel control centers located at the north and south entrances. Siemens has installed a tunnel control system in each center, each system acting as a reserve for the other. The movement of each train is recorded, and displayed in the control center. The system controls the entire infrastructure, which has 3,200 kilometers of electrical cables and 2,600 kilometers of data cables. It detects a door that has not been closed properly or a light that has failed. When required, the ventilation system is activated, the light at the next emergency stop point is switched on, and the doors are opened automatically. What is actually happening is seen on screen by the around 60 employees on duty in the centers. "Events" are classified according to five alarm stages. The system provides information and decision-making steps for each stage to help the head of operations. Sensors check the trains for overheated brakes and leaks before they enter the tunnel and without requiring them to stop. However, the main task of the new system is to maintain availability. The maintenance periods, such as close-down times and spare parts requirement, can be efficiently planned with a new tool.It goes without saying that safety is paramount in a tunnel where in the near future more than 200 trains a day will barrel through the tubes at speeds up to 250 km/h. The tubes are connected every 300 meters by crosscuts that allow train passengers to escape to the other tube in case of a fire. Each tube has two emergency-stop stations 600 meters in length which allows the evacuation of up to 1,000 passengers.