- 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.
Almost 10 billion
people will live on our planet by 2050, most of them in urban areas. About 40
percent of all energy used globally is consumed in buildings, and another one
third by industries. But resources are finite.
Resilient, adaptive, and efficient infrastructure, enabled by digitalization,
is key to sustainability. Taking action to tackle climate change and other
global sustainability issues is an urgency. With buildings and electrification
increasingly growing together and becoming more and more digitalized, they can
support the sustainable infrastructure transition and create more livable
environments.At the Light +
Building 2022 trade fair, Siemens will showcase its vision of digitalization as
the key pillar of the infrastructure transition. Our motto at the show is
“Smart infrastructure is sustainable infrastructure”, outlining our innovations
that will make this possible.Visit us at Light + Building 2022 in Frankfurt am
Main, October 2 - 6, in hall 11.0, B56.
Fluorine gas-free energy distribution for medium-voltage applicationsFluorine gas-free switchgear is a hot topic in the energy sector because this new approach contributes to sustainable power distribution. On this page you will find all information about the sustainable switchgear portfolio from Siemens.
Let the good times roll: Starting September 21, about six million people from all around the world will be enjoying themselves at the Oktoberfest in Munich for two weeks. Traditionally, Siemens supplies drives and control systems as well as energy distribution for the festival's rides. Automation solutions from Siemens also control special beer pipelines – the only ones of its kind worldwide –that supply the Hacker, Winzerer Faehndl and Braeurosl festival tents with their tasty Oktoberfest brews. Because many breweries use Siemens technologies within their brewing process, Siemens doesn't only ensure fresh beer at the Oktoberfest.
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 first passenger train will roll through the Gotthard Base Tunnel early June 2016. Siemens has supplied the tunnel control and fire protection systems for the world's longest railway tunnel. The sophisticated safety system has over 200,000 sensors, and places maximum demands on logistics and data processing.The control system controls and monitors all installations completely automatically. The tunnel is fitted with sensors, control electronics and surveillance equipment. This includes video cameras in the multifunction points, which are connected by optical fiber cables to two tunnel control centers located at the north and south entrances. Siemens has installed a tunnel control system in each center, each system acting as a reserve for the other. The movement of each train is recorded, and displayed in the control center. The system controls the entire infrastructure, which has 3,200 kilometers of electrical cables and 2,600 kilometers of data cables. It detects a door that has not been closed properly or a light that has failed. When required, the ventilation system is activated, the light at the next emergency stop point is switched on, and the doors are opened automatically. What is actually happening is seen on screen by the around 60 employees on duty in the centers. "Events" are classified according to five alarm stages. The system provides information and decision-making steps for each stage to help the head of operations. Sensors check the trains for overheated brakes and leaks before they enter the tunnel and without requiring them to stop. However, the main task of the new system is to maintain availability. The maintenance periods, such as close-down times and spare parts requirement, can be efficiently planned with a new tool.It goes without saying that safety is paramount in a tunnel where in the near future more than 200 trains a day will barrel through the tubes at speeds up to 250 km/h. The tubes are connected every 300 meters by crosscuts that allow train passengers to escape to the other tube in case of a fire. Each tube has two emergency-stop stations 600 meters in length which allows the evacuation of up to 1,000 passengers.
Siemens Financial Services (SFS) has released new research examining how global manufacturers are using innovative finance to seize market opportunities through digitalization and automation. Conducted among manufacturing finance managers in 13 countries, the study found that manufacturers across the world are reporting a need to invest in new-generation technology in order to meet four key sector challenges.These are: to increase production capacity and flexibility to meet changing demand and drive sales; to improve client service quality while reducing production costs; to improve competitive positioning through improved product quality and broader product range and to optimize efficiency, cost control and manufacturing agility through automation and digitalization.