Additive manufacturing has the potential to become a new key technology. For example it opens up new attractive prospects in the manufacture of gas turbines. This is why Siemens has been investing in this innovative technology right from its inception, and is now driving the industrialization and commercialization of these processes. Additive Manufacturing is a process that builds parts layer-by-layer from sliced CAD models to form solid objects. This enables highly precise solutions to be formed from powdered high-performance materials. Siemens is a pioneer in Additive Manufacturing and already uses the technology for rapid prototyping. Furthermore the company is now developing solutions ready for series-production for manufacturing gas turbine burner nozzles and repairing burner heads. Just recently Siemens achieved yet another breakthrough: the first gas turbine blades ever to be produced using Additive Manufacturing have successfully finished performance testing under full-load conditions.
South-west Germany is counting on Siemens: from 2020 onward, DB Regio AG will be operating its Rhine Valley rail network exclusively with new trains from Siemens. The German Railways order covers 15 Desiro HC and 24 Mireo trains in total, and goes hand in hand with a restructuring of the rail transport services in the Rhine Valley. There is a clear separation between a rapid train system for fast cross-regional services and a regional suburban rail system (S-Bahn) with stops at all stations. The Mireo will be deployed as a regional train (RB) service along the line section from Offenburg via Freiburg to Basel/Neuenburg (Switzerland) as well as in the Kaiserstuhl area on Sundays between Freiburg and Endingen/Breisach. The line section from Karlsruhe via Offenburg and Freiburg to Basel (Switzerland) will be operated with the Desiro HC as a regional express service.
- 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.
• Agreement is Siemens' largest O&M deal in terms of power generated • Sites to serve as model for other utilities in reliability and efficiency• Digital services and data analytics to optimize plants and ensure reliabilityIn a new milestone agreement, Siemens announced today that it has been selected by the Egyptian Electricity Holding Company (EEHC) to provide comprehensive operation and maintenance services (O&M) for the Beni Suef, New Capital and Burullus power plants, for the next eight years. The agreement, which is the largest ever for the Siemens Power Generation Services in terms of power generated, includes the implementation of the company's Omnivise digital service solutions.Each of the three 4.8GW power plants is considered to be the largest gas-fired combined-cycle plant ever built and operated. Together the plants represent approximately 40 percent of Egypt's power capacity, at the time of signing contracts, generating 14.4GW – enough to supply 40 million Egyptians with electricity."The new agreement aligns with our energy production goals to ensure sustainable growth and maximum reliability and efficiency of new and existing combined-cycle generating facilities," said Eng. Gaber El Desouki, Chairman of the EEHC. "Strategically, it makes sense for us to enlist a single trusted and credible service provider to help operate and manage our large-scale power assets."The multi-year agreement covers all on-site equipment including 24 gas turbines, twelve steam turbines, 36 generators, 24 heat recovery steam generators and three 500 kV gas-insulated switchgear systems. "The new agreement reconfirms our focus to work with Egypt on developing the right mix of solutions to support the country's dynamic needs. It also underscores the tangible cost benefits that digital technologies can bring to the power industry," said Gianluigi Di Giovanni, Senior Executive Vice President of Siemens Power Generation Services in the Middle East and North Africa. "As a key development partner to the country we are committed to contributing to the sustainable growth, diversification and efficiency of the Egyptian energy industry." Siemens will also implement its services portfolio to improve asset visibility, reliability and availability of the three power plants. Data from the plant operation will be collected, analyzed and transformed into actionable insights such as accurate diagnostics, troubleshooting and condition forecasting, improving plant reliability and reducing downtime. Additionally, the data processed can help to balance maintenance costs, optimize inspection intervals and provide valuable insights into operational risks.Building on more than 30 years of experience in power plant operation and maintenance, Siemens currently manages more than 35 GW in 17 countries. The company's global resources and fleet expertise enable it to provide complement plant services and management, along with sharing best practices and technical knowledge with power plant owners.
Siemens Mobility, Inc., a fully owned subsidiary of Siemens AG, is a leading international provider of intelligent mobility solutions that offer guaranteed availability, optimized capacity and enhanced passenger experience. The company’s business includes rail rolling stock, rail automation, intelligent traffic systems, traffic telematics systems as well as rail electrification. The portfolio also covers turnkey mobility projects and tailored financing solutions.
Siemens Mobility, Inc. draws on more than 160 years of expertise and experience in transportation. The company combines innovations with comprehensive industry know-how, a global network of recognized experts in over 40 countries, and the solid financial base of Siemens AG.
With the DynaGridCenter project, Siemens worked alongside partners in science and research to develop the next generation of grid control centers. For the first time, assistant systems visualize dynamic processes that bring the energy transition to the power grid and provide targeted recommendations for actions to optimize the grids and prevent blackouts.
Siemens has reached yet another milestone in its journey to realize the many benefits of additive manufacturing (AM) and to lead the development of this innovative technology in the power generation industry. This time the company has successfully 3D-printed and engine tested a dry low emission (DLE) pre-mixer for the SGT-A05 aeroderivative gas turbine, with the impressive results showing a potential for significant reductions in CO emissions. This achievement further solidifies Siemens’ position as one of the world’s leading developers of innovative additive manufacturing techniques and uses in the energy industry."This is another excellent example of how additive manufacturing is revolutionizing our industry, delivering measurable benefits and real value to our customers, particularly as they look to further reduce emissions to meet environmental targets," said Vladimir Navrotsky, Chief Technology Officer for Siemens Power Generation Services, Distributed Generation. "Our achievements using AM are paving the way for greater agility in the design, manufacturing and maintenance of power generation components."The achievements resulting from using AM to manufacture this particular gas turbine component are significant. From concept to engine test, the development took only seven months, which is impressive for a component that requires such tight tolerances and works in high load and temperature. The DLE pre-mixer is highly complex with over 20 parts involved in the casting and assembly using traditional manufacturing methods. By utilizing Siemens qualified nickel super alloys as the AM printing material, the 3D-printed component requires only two parts and lead time is reduced by approximately 70 percent. 3D-printing of the DLE pre-mixer allows Siemens to simplify complexity in the production process, reduce external dependencies in the supply chain, and improves the geometry of the component, thus allowing a better fuel-air mix.First engine testing of the AM-manufactured DLE pre-mixer, which was 3-D printed in Siemens' AM center of competence in Finspang, Sweden, was recently completed and the data received is promising. It showed no start issues, all fuel transitions were accomplished successfully without any controls modifications required, there were no combustion dynamics or noise, measurable CO emissions reductions were realized and full power was achieved. These positive results reaffirm Siemens commitment to continuing to advance toward serial production of highly complex components, such as this one, using AM.Siemens' DLE solution for the SGT-A05 gas turbine reduces emissions through advanced lean burn combustion technology, eliminating the need for water injection. The DLE conversion reduces customers' operating costs associated with water treatment. Application of DLE does not compromise the high dynamic loading response of this aeroderivative engine model. More than 120 engines are successfully utilizing DLE technology to reduce NOx and CO emissions with 3.9 million operating hours accumulated (as of February 2018). ''And now, with AM technology we have an opportunity to go even further with emissions reduction for DLE combustion," said Douglas Willham, Siemens Director of Engineering for the SGT-A05.Last year, Siemens finished its first full-load engine tests for gas turbine blades completely designed and produced using AM technology. Earlier this year, the company 3D-printed and installed into customer's equipment its first replacement part for an industrial steam turbine. In early 2017, Siemens achieved the first successful commercial installation and continuing safe operation of a 3D-printed part in a nuclear power plant – an impeller for a fire protection pump that is in commercial operation. Siemens accumulated more than 30,000 hour of successful commercial operation for SGT-800 burners repaired with AM technology and for SGT-750 burner swirls manufactured by AM. All these combustor components are running in a very high load and temperature environment.
On March 2nd, 2017, German Chancellor Angela Merkel, Egyptian President Abdel Fattah El-Sisi, Siemens CEO Joe Kaeser and further high-ranking representatives witnessed the symbolic inauguration of the first phase of Siemens' megaproject in Egypt. The event marked an important milestone towards the completion of the project.
In collaboration with the Egyptian Ministry of Electricity and Renewable Energy, Siemens and its consortium partners, Orascom Construction and Elsewedy Electric, announced on July 24, 2018 the completion of the Egypt Megaproject in record time. The parties celebrated the combined cycle commissioning and the start of operations at the Beni Suef, Burullus and New Capital power plants. The stations will add a total of 14.4 gigawatts (GW) of power generation capacity to Egypt's national grid, enough power to supply up to 40 million people with reliable electricity. With this milestone, Egypt and Siemens have set a new world record for execution of modern, fast-track power projects, delivering 14.4 GW of power in only 27.5 months. A single combined cycle power plant block with a capacity of 1,200 megawatts typically takes approximately 30 months for construction. For the Egypt Megaproject Siemens in parallel built twelve of these blocks in record time and connected them to the grid.
Following the delivery of several Siemens SGT5-8000H gas turbines, the first steam turbine for the Egypt Megaproject began its journey in December 2016 from the Siemens factory in Muelheim to the power plant Beni Suef in Egypt. The main components of the 670-ton cargo were lifted with a heavy-duty crane from the production hall onto a transport vessel standing by at the plant's inland harbor facilities. The vessel transported the SST-5000 steam turbine from Muelheim to the deep-water port of Antwerp where it was loaded onto a heavy cargo ship and transported to Egypt.
After the steam turbines installation, the waste heat from the gas turbines will be used to produce steam that will then drive the steam turbine, thus increasing the overall power output and efficiency of the power plant. In total, Siemens will deliver twelve SST-5000 steam turbines for the Egyptian power plants Beni Suef, Burullus and New Capital. All of these steam turbines will be manufactured at the Siemens factory in Muelheim.
Siemens has introduced a new SGT-800 performance enhancement that is applicable to all existing SGT-800 units with 43-47.5-MW ratings. The new upgrade is designed to provide owners and operators with significant fuel savings and CO2 emissions reduction for improved sustainable energy production.
Siemens Building Technologies Division is acquiring Building Robotics Inc., a market leader in the fast growing digital workplace experience app domain. The simple-to-use app Comfy enables people to take control of their environment and provides feedback on their space. With this acquisition, Siemens is setting a further milestone in smart building solutions.