At ISH, the leading international trade show for building, energy and air conditioning technology and renewable energy sources that took place in March 2019 in Frankfurt, Germany, Siemens did exhibit its current portfolio of products, systems and solutions for energy-efficient rooms and buildings as well as heating, ventilation and air conditioning (HVAC) technology.
With the Junelight Smart Battery, Siemens is offering its first battery storage specially geared to the requirements in private homes for the storage and use of self-generated energy. The lithium-ion storage combines functions for intelligent and safe energy management and a modern design. Homeowners can use it to maximize the share of their self-generated energy, e.g. from photovoltaic systems, for their own consumption, to minimize their energy procurement costs and to make a long-term contribution towards the reduction of CO2 emissions. The Junelight Smart Battery coordinates the predictive charging and discharging procedures depending on the weather-related yield forecast of the photovoltaic system and the individual consumption profile of the household. Using the mobile Junelight Smart App, all energy flows – from production, through storage, right down to consumption and grid in-feed – can always be monitored in real time. The storage capacity can be flexibly adapted to individual needs at any time, encompassing up to 19.8 kilowatt hours (kWh). The Junelight Smart Battery is now available in Germany and will be launched in Austria in April 2019.
The Siemens Zug campus features a new office building with 1,000 work spaces and a newly constructed production building. The Siemens Zug campus is one of the first new projects to use Building Information Modeling (BIM) for design and construction. The campus complex is equipped with building automation, security and fire safety technology from Siemens BT and particular emphasis was placed on sustainability and energy efficiency of the buildings.
The need for electromobility is growing, as is the need for an efficient charging infrastructure. As a pioneer in electromobility, Siemens has global experience, maintains a strong portfolio along the entire value chain, and plays an active role in advancing the development and standardization of charging solutions worldwide.Siemens is part of the "FastCharge" research project together with BMW Group as consortium leader, Allego GmbH, Phoenix Contact E-Mobility GmbH as well as Dr. Ing. h.c. F. Porsche AG. This project is investigating the technological requirements that vehicles and infrastructure must meet in order to be able to use extremely high charging capacities. The industrial companies involved in the research project presented the latest advancements in the field of fast and convenient energy supply for electrically powered vehicles on December 12, 2018. The prototype of a charging station with a capacity of up to 450 kW was inaugurated in Jettingen-Scheppach, Bavaria. At this ultra-fast charging station, electrically powered research vehicles created as part of the project are able to demonstrate charging times of less than three minutes for the first 100 kilometres of range or 15 minutes for a full charge (10-80 % State of Charge (SOC)).The energy supply system of Siemens used in the project contains both high-power electronics for the charging connections as well as the communication interface to the electric vehicles. For the connection to the public power grid, a charging container was implemented with two charging connections for CCS-compatible vehicles. One connection has an unprecedented charging capacity of max. 450 kW while the second can deliver up to 175 kW.
The digital transformation of the producing industry is gaining momentum. Companies from a wide variety of industries are already unlocking this potential – they are using end-to-end digitalization to create a lasting competitive edge by reducing time to market and increasing flexibility, efficiency, and quality. With Siemens Digital Enterprise solutions the technical prerequisites for the implementation of Industrie 4.0 are available and can be deployed in every application and companies of all sizes. At the SPS IPC Drives in Nuremberg, Germany, from November 27 to 29, 2018 – which took place this year under the motto "Digital Enterprise – Implement now" – Siemens showed in hall 11 how this can be done.
- 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.
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 joined Gastech 2018, which took place in Barcelona, Sept. 17 – 20. In its 45th year, the world renowned event was a highly regarded gathering for upstream, midstream and downstream gas and LNG professionals. Siemens used the occasion to highlight its integrated Gas-to-Power (G2P) solutions, through which the company is playing an integral role in increasing utilization of natural gas—a highly abundant, cost-effective fuel—as a feed stock for power plants. Sessions featured Siemens speakers which are outlined below.
CIGRE 2018 took place at Paris from August 25th until 31st. Digitalization provides the key to success in the increasingly distributed energy landscape. Siemens experts explained how to make these changing energy systems even more safe and efficient. Digitalization enables predictive planning and new business models beyond just the provision of grid capacity.
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.