Siemens Mobility to install a 2,000 km state-of-the-art high-speed rail network that will connect 60 cities throughout the country with trains that can operate up to 230 km/h. The integrated system will create the 6ᵗʰ largest high-speed rail network in the world, and will provide 90% of Egyptians access to a modern, safe, and affordable transportation system. The fully electrified network will cut carbon emissions by 70% compared to current car or bus transport, further supporting Egypt’s efforts in transforming its mobility to a more sustainable one. Siemens Mobility will deliver 41 Velaro high-speed trains, 94 Desiro High Capacity regional train sets, and 41 Vectron freight locomotives. This contract also includes the development of eight depots and yards and 15 years of maintenance.
Control rooms of process engineering plants are usually
as old as the plant itself, often 30 years and more. Today, digital
transformation is placing new demands on automation: Simatic PCS neo is a brand-new system software, which
offers companies in the process industry unique opportunities in the age of
digitalization. Main features include global web-based collaboration in
engineering and operation and intuitive handling representing all relevant
information in a single workbench.
- Siemens successfully completed the first phase of its shallow water test of the Subsea Power Grid.
- The development program was conducted in collaboration with industry partners Chevron, Equinor, ExxonMobil, and Eni Norge.
- This will be the world's first Subsea Power Grid for medium voltage power distribution using pressure compensated technology.
Siemens has successfully concluded the first phase of its Subsea Power Grid shallow water test in Trondheim, Norway. Siemens, in collaboration with industry partners Chevron, Equinor, ExxonMobil, and Eni Norge, is in the final stages of a program to develop a barrier-breaking system that will become the world’s first Subsea Power Grid designed for distribution of medium voltage power using pressure compensated technology.
In a consortium with the general infrastructure contractor Per Aarsleff A/S, Siemens has received an order to build a light rail system in Copenhagen, Denmark, from urban transport development company Greater Copenhagen Light Rail I/S. The contract will be implemented as a turnkey project. Commissioning of the system is planned for 2024.
Siemens has received an order from the Qatar Foundation for the turnkey construction of a tram system in the capital Doha aimed at transforming Qatar into a knowledge-based society. The order is worth more than 100 million euros. The scope of supply also includes signaling and communication systems, electrification as well as the depot equipment. Siemens will also be equipping four of the stations with platform edge doors. Nineteen Avenio trams will run on 11.5 kilometers of track without any overhead contact lines. The system will be installed on the university campus and serve 25 stations. The trams will be equipped with the Sitras HES energy storage system from Siemens, with energy being supplied at the tram stops.
Building on its commitment to innovative power plant solutions, Siemens has been awarded a contract from Colbún S.A. to upgrade the Central Termoeléctrica Nehuenco-I plant with Siemens' Power Plant Automation T3000 Cue (SPPA-T3000) system. The 368-megawatt (MW) combined cycle power plant is located in Quillota, Valparaíso Region, in Chile and provides electricity to approximately 350,000 homes in the region.
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.
Siemens is rigorously executing its announced €2 billion investment strategy. Of this amount, the company plans to invest around €1 billion in Germany, thereby boosting the country’s innovative strength.
Under the motto"Accelerate
digitalization for a sustainable tomorrow", Siemens will be presenting
solutions at AMB Stuttgart on how to accelerate digitalization in the machine
tool industry, optimize the sustainability of CNC manufacturing and improve the
user experience. Thanks to the continuous analysis of manufacturing data, there
is enormous optimization potential for machine tools.
You can
experience the Siemens solutions and experts live at the AMB booth (Hall C2 | 2B03)
in Stuttgart.
April 25-27, 2023Under the motto "Intelligent intralogistics - experience the flow", Siemens will present at this year's Logimat in Hall 3, Stand D11, how a holistic digital twin is developed with the Digital Enterprise Portfolio. Simulation using a digital twin makes it possible to design applications and processes in intralogistics in a highly efficient, flexible and intelligent way. Siemens supports machine builders and operators of logistics centers on the path to digital transformation. The Digital Enterprise Portfolio offers an integrated product portfolio of software-based systems and automation technologies at the center of which is the digital twin. You can experience Siemens solutions and experts in person at the Logimat trade show booth in Stuttgart.