- 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.
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.
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.
Leverage the full potential of renewable resources and local energy solutionsThe energy landscape is changing toward decentralization and independence from the traditional central power supply model – toward an increasingly distributed energy system. This change is characterized by an increase of efficient and affordable renewable power generation solutions – from small to utility scale – as well as combined heat and power (CHP) and storage technologies. The growing utilization of renewable energy sources, the deregulation of markets, and environmental awareness reinforce this shift. Siemens meets this trend by delivering a customer-specific offering such as solutions for local energy, photovoltaic and e-mobility infrastructure as well as low-voltage components.
Under the motto "Digitalize your building," Siemens showed at the light+building trade fair from March 18 to 23, 2018 how commercial buildings can be comfortable while also offering economical operation. Encompassing 1,100 square meters, the Siemens booth featured smart products, solutions and systems. For this, Financial Services from Siemens offers the right financial solution.
On February 5, 2018 in Wunsiedel, Germany, Bavaria's largest battery storage system to date was dedicated by the Managing Director of Stadtwerke Wunsiedel (SWW) Marco Krasser, Secretary of State Franz Josef Pschierer, and Siemens Chief Technology Officer Roland Busch. The Siemens Siestorage system based on lithium-ion batteries has a capacity of 8.4 megawatts. It will ensure the future stability of the distributed power grid and opens up the possibility of the municipal utilities company's participation in the primary control reserve market.
LO3 Energy, an energy-tech company set to disrupt energy grids across the globe, announced an investment from Siemens closing out its series A. In late 2015 Siemens and LO3 started collaborating on projects beginning with the Brooklyn Microgrid. Self-sufficient microgrids play an important role in an energy market that is growing through distributed energy systems — whether they are based on wind, sun, water or biomass — such grids are becoming increasingly significant. LO3 Energy is benefiting from Siemens' development of microgrids such as the one that has been operating in Wildpoldsried, a village in southern Germany, since 2014. While the Brooklyn Microgrid continues to grow, insights from the proliferation of the prosumers and consumers provides Siemens the rationale for building resilient grid systems based on local marketplaces. To date, the initial project has attracted more than 60 community members participating in the Brooklyn Microgrid, and LO3 and Siemens expect to partner on further projects across the globe. Specific terms of the investment were not disclosed.