- New company structure: Three "Operating Companies" – "Gas and Power", "Smart Infrastructure" and "Digital Industries" – and the "Strategic Companies" Siemens Healthineers, Siemens Gamesa and the planned company Siemens Alstom
- More entrepreneurial freedom at individual businesses for accelerated growth: Revenue and margin targets raised
- Targeted expansion of digitalization business: Acquisition of mendix
- New growth field: "Internet of Things (IoT) Integration Services"
Siemens is setting the course for long-term value creation through accelerated growth and stronger profitability with a simplified and leaner company structure. The main aim of the Vision 2020+ company strategy is to give Siemens' individual businesses significantly more entrepreneurial freedom under the strong Siemens brand in order to sharpen their focus on their respective markets. Plans also call for strengthening the company's growth portfolio through investments in new growth fields such as IoT integration services, distributed energy management and infrastructure solutions for electric mobility. The concentrated expansion of industrial digitalization, in which Siemens is already the world leader, will make a further contribution. As a result, both the annual revenue growth rate and the profit margin of the company's Industrial Business are expected to increase by two percentage points over the medium term. Basic earnings per share are expected to grow faster than revenue over the medium term.
- Heat and power for the Rhine-Ruhr metropolitan region
- Fuel efficiency exceeding 85 percent
- Long-term service agreement
Siemens and STEAG GuD Herne GmbH signed an agreement today on the turnkey construction of a combined cycle power plant with district heat extraction. They also entered into a long-term service agreement. The Herne 6 plant will have an electrical capacity of more than 600 megawatts (MW). Steam will also be extracted, and the thermal energy obtained will be used for the district heating grid of Germany's Rhine-Ruhr metropolitan region. Never before has a single power plant unit been able to provide 400 MW of (thermal) district heat with combined cycle operation. The overall fuel efficiency of the natural gas used thus climbs to more than 85 percent, making the power plant one of the world's most efficient and most environmentally friendly plants. The investment volume for Herne 6 is in the mid-triple-digit euro range.
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' lightning information service detected about 443,000 lightning strikes in Germany in 2017 – 11,000 more than in 2016
- Garmisch-Partenkirchen was the German district struck most often by lightning, lowest rates were in the city of Pirmasens
- Germany's "capital of lightning" was Mainz, followed by Wiesbaden and Berlin
- At the European level, Slovenia leads the ranking
Garmisch-Partenkirchen District in Upper Bavaria was the German region with the most lightning activity in 2017. Siemens' lightning information service BLIDS (which stands for Blitz-Informationsdienst von Siemens) registered 3.51 lightning strikes per square kilometer in Garmisch-Partenkirchen in 2017. The districts of Main-Taunus and Giessen in the state of Hesse were on second and third place with 3.47 and 3.46 ground flashes per square kilometer, respectively. Germany's lowest concentration of lightning strikes was in the cities of Pirmasens (0.16), Oldenburg and Bonn (both at 0.18). With lightning hitting 2.4 times per square kilometer, Mainz led the country's list of state capitals. Overall, at 443,000 strikes, BLIDS again registered a comparatively low level of atmospheric discharges in Germany – although 2016's record low level, with about 432,000 strikes detected, was exceeded in 2017 by 11,000 (2,5 percent). For the first time, BLIDS is also making data available for Central Europe.
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 report "Cities in the Driving Seat" encourages cities to anticipate and tackle upcoming changes to their infrastructures early
- Report urges urban areas to use connected and autonomous vehicles to refocus urban environments on citizens rather than cars
- Connecting autonomous vehicles to intelligent transport infrastructures can maximize their benefit
- Greatest benefit from autonomous vehicles will emerge from capacity to provide "first and last mile" trips and help city government provide new transport services
The advent of connected and autonomous vehicles (CAV) has the potential to cause major and disruptive changes to cities worldwide, a report launched by Siemens indicates. The report "Cities in the Driving Seat" stresses the need for cities to plan early and tackle the issue in a wider context of mobility transformations. Launched today at the World Cities Summit in Singapore the study explores the interdependencies between urban development, public transportation policies, power supply, pollution and the increasing share of CAV in city traffic. Lack of mid-term planning and delayed investments in infrastructure could create negative social, economic and environmental effects, the authors from Siemens' Global Center of Competence Cities argue.
- City Air Management captures pollution data in real time and forecasts emissions up to five days in advance
- Solution simulates effectiveness of measures for improving air quality
- Siemens and Sino-Singapore Guangzhou Knowledge City plan to jointly deploy and enhance this software solution as world's first implementation
A new software solution is helping cities remedy the growing problem of air pollution and the associated lack of compliance with emission-control thresholds. Siemens presented City Air Management (CyAM) at the World Cities Summit in Singapore. CyAM is a cloud-based software suite with a dashboard that displays real-time information on the air quality detected by sensors across a city and predicts values for the upcoming three to five days. These air-quality forecasts are prepared with the aid of algorithms that tap into an artificial neural network and draw on historical and current data on air quality as well as weather and traffic patterns. Mayors and other decision-makers can then use this data and a combination of potential solution measures to derive concrete recommendations for action and define measures that help reduce concentrations of nitrogen oxides and atmospheric particulate matter.
- Siemens Arts Program promotes outstanding young talent and awards Siemens Opera Contest France prize to Sarah Shine
The young soprano Sarah Shine is the winner of the Siemens Opera Contest France at the Opéra Garnier in Paris. Sarah Shine was born in 1993 in Ireland and completed her studies with Veronica Dunne at the Irish Royal Academy of Music in 2015. Since September 2017, she has been studying at the Academy of the Opéra national de Paris.
- Memorandum of Understanding signed to target cooperation between Siemens and China's State Power Investment Corporation (SPIC)
- Siemens to become SPIC's potential partner for development of own generation of heavy-duty gas turbines
Siemens and State Power Investment Corporation (SPIC) of China entered into a Memorandum of Understanding (MoU) today to further confirm intention of technology collaboration in the field of heavy-duty gas turbines. Joe Kaeser, President and CEO of Siemens AG, and Qian Zhimin, Chairman of SPIC, signed the MoU in Berlin in the presence of German Federal Chancellor Angela Merkel and Chinese Premier Li Keqiang during his official visit to Germany.
Siemens has completed extensive service operations on the gas turbines at Jebel Ali K-station in a record time of only 29 working days, a notable accomplishment for a project of this scale. The power plant is located in Dubai and owned by Dubai Electricity and Water Authority (DEWA) and in operation since 2002. The outage featured the application of the "rotor-swap"; a pioneering concept that has been developed by DEWA to utilize a spare rotor and other critical parts, stored at the plant's site, to maximize each unit's availability and reduce idle time while waiting for the completion of rotor assembly work.Under terms of the agreement, Siemens provided supervisory services for three of Jebel Ali K-station's gas turbines to enable further efficient and reliable operation for approximately 100,000 hours – equivalent to about 15 years. The upgrades also increased power output by 62.6 megawatts (MW) and improved power plant efficiency by about 0.5 percent."The new project is built on over 30 years of trust and partnership with Siemens. We are very pleased to work with the company again and successfully complete services of Jebel Ali K-station's power assets so quickly, which allowed the plant to reduce the length of maintenance outage and return the turbines to service as early as possible," said Nasser Lootah, Executive Vice President of DEWA. "With this project, we will enhance the power output and the long-term availability of our power generation assets."After a certain number of operating hours, all gas turbines need to be dismantled for maintenance services. Typically, an outage of this kind would take up to 45 working days to complete, involving over 100 personnel with different areas of technical expertise. By implementing a newer outage concept, Siemens was able to perform the services within just 29 working days, setting a new benchmark in the global power service industry."DEWA puts a great importance on the availability and sustainability of power for Dubai's population, which results in their continuous commitment to innovative ideas and proactive approach for accomplishing the best results," said Gianluigi Di Giovanni, Senior Executive Vice President of Siemens Power Generation Services in the Middle East. "This project reflects our commitment to bringing the company's latest and most-advanced technologies to the UAE to help boost the efficiency and sustainability of its energy sector."Recently, Siemens and Dubai Electricity and Water Authority (DEWA) have signed an agreement to collaborate on an advanced data-driven project. Siemens and DEWA are working together to identify ways to improve thermal efficiency, provide cost-effective solutions for performance optimization, manage costs and reduce fuel consumption and emissions.