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• Business to be officially renamed as of April 2020
• Employees’ favorite selected 

At an internal management conference, Siemens today announced the name of the new energy company that it is creating. The business, which combines the worlds of conventional and renewable energy and is to become an independent company in the future, is to be called Siemens Energy. The new name will officially take effect once the energy business becomes a separate legal entity, which is expected to happen in April 2020. Siemens Energy is to be spun off as a publicly listed company by September 2020. Its offerings will address a significant portion of the value chain across the oil and gas, power generation, and power transmission segments, including the related service activities. On a pro-forma basis, Siemens Energy generates about €27 billion in revenue and has some 88,000 employees worldwide as well as an order backlog of €70 billion. Today, 20 percent of the world’s energy supply is already based on Siemens technology.

• Latest advances in depot charging for eBuses and eTrucks to be tested in real-life conditions at the “VDL Charging Test Center” in The Netherlands
• Collaboration to demonstrate how vehicle technologies, energy storage and charging systems work together
• Vehicle-to-grid function enables bidirectional charging
• Capacity can be flexibly combined through special switching matrix

As the number of electric vehicles in the market continues to grow, so do the requirements for a robust charging infrastructure. Recognizing the need for electric buses and trucks to be charged flexibly and efficiently, Siemens and VDL Bus & Coach (VDL), a Dutch bus manufacturer, have joined efforts to come up with innovative solutions for depots. At the VDL Charging Test Center Siemens has installed the latest generation of fast charging stations, combined with a battery storage system. The location is VDL’s interoperability test and validation center in Valkenswaard in The Netherlands. A special switching matrix allows to flexibly combine the capacity of the charging stations. The setup is managed via an energy management application running on MindSphere, the cloud-based, open IoT operating system from Siemens. VDL will use this technology to conduct interoperability and function tests on electric vehicles such as buses and trucks. Interoperability is when technologies of different manufacturers – on the vehicle as well as the charging infrastructure side – can interact and exchange information

• Power plants Termoeléctrica del Sur, de Warnes, and Entre Ríos inaugurated in August and September
• Upgrade to combined cycle power plants increase the generation capacity by one gigawatt
• Expansion provides reliable energy supply and will allow export of value-added products

With the official inauguration of the Termoeléctrica de Warnes power plant in mid-September, all three power plants in Bolivia were inaugurated within a few weeks in August and September. Since the contract signing in 2016, Siemens has expanded Bolivia’s three largest thermal power plants to efficient combined cycle mode. The power plants are owned and operated by Ende Andina SAM. Together, all three add more than one gigawatt of electrical power to its current maximum capacity and to the Bolivian national grid.

• Digital twin of Downtown Line’s signalling system
• Supports troubleshooting, testing and training
• Intelligent infrastructure will minimize service disruptions

Siemens Mobility has been awarded a contract by the Singapore Land Transport Authority (LTA) to design and establish a simulation center for the Downtown Line’s (DTL) signalling system. The center will enable in-depth and faster technical analysis surrounding signalling-related incidents, enhance testing of new signalling features and system functionalities before deployment as well as increase capabilities for training LTA and the operator’s technical staff.  

• Unique test facility comprising a bioreactor and electrolyzer under construction in Marl (Germany)
• High-value specialty chemicals produced from CO2 and water using electricity from renewable sources and bacteria
• Rheticus II will receive funding of around €3.5 million from Germany's Federal Ministry of Education and Research

Evonik and Siemens today launched their joint research project Rheticus II. The goal is to develop an efficient and powerful test plant that will use carbon dioxide (CO2) and water as well as electricity from renewable sources and bacteria to produce specialty chemicals. In the Rheticus I project, the two companies worked for two years to develop the technically feasible basis for artificial photosynthesis using a bioreactor and electrolyzers. Evonik and Siemens are now combining these two, previously separate, plants in a test facility at Evonik’s site in Marl (Germany). Rheticus II will run until 2021 and will receive funding of around €3.5 million from Germany’s Federal Ministry of Education and Research (BMBF).

The new Bauhaus Museum Dessau (Germany) opened its doors in September 2019, featuring technology from Siemens Smart Infrastructure to help keep visitors and its extensive collection safe. A comprehensive solution for safe electrical installations extends throughout the museum’s 5,500 square meter footprint, which includes over 1,000 exhibits from the Bauhaus Dessau Foundation’s collection. The latter comprises 49,000 objects, making it the second-largest Bauhaus collection worldwide. It contains numerous student works and teaching documentation, as well as drafts and prototypes from the workshops of the renowned art academy, which celebrates its 100 th anniversary this year.

Siemens and Materials Solutions - a Siemens Business - officially opened a new, highly advanced innovation center this week in Orlando, Florida. The center is the only one of its kind in the U.S. to offer a unique pairing of design with manufacturing, implementing robotics, rapid prototyping, scanning, digital tools and on-site metal additive manufacturing. The Siemens innovation center will focus on rapid problem solving supporting the company’s energy businesses, while Materials Solutions will offer additive services to support the innovation center and external customers. 

• Project is being funded by BMVI
• Joint research on a fully automated tram depot with autonomous trams
• Consortium led by Siemens Mobility

Siemens Mobility, ViP Verkehrsbetrieb Potsdam GmbH (ViP), the Karlsruhe Institute of Technology (KIT), the Institute for Climate Protection, Energy and Mobility (IKEM), Codewerk GmbH, and Mapillary are planning to undertake joint research on a fully automated tram depot. The project, called “AStriD” (Autonomous Tram in Depot), is being funded by the Federal Ministry for Transportation and Digital Infrastructure (BMVI) as part of its “Modernity Fund” (mFUND) research initiative.

• Assesses the utility industry’s risk, readiness, and solutions to secure operational technology on the grid and recommends action to help utilities combat cyber threats
• Results show risk is worsening, with potential for severe financial, environmental and infrastructure damage
• 54 percent of those surveyed in the utilities industry expect an attack on critical infrastructure in the next 12 months

Siemens and the Ponemon Institute today released a new report that assesses the global energy industry’s ability to meet the growing threat of cyber attacks to utilities and critical infrastructure connected to the electrical grid. The report – Caught in the Crosshairs: Are Utilities Keeping Up with the Industrial Cyber Threat? – details the utility industry’s vulnerability to cyber risk, readiness to address future attacks, and provides solutions to help industry executives and managers better secure critical infrastructure. The results of the report were released at a forum hosted by the Atlantic Council in Washington, D.C. focused on the growing national, economic, and energy security threat that cyber attacks pose to the utility industry.