- Investment of CHF250 million creates climate neutral campus for 1,700 colleagues
- State-of-the-art sustainability flagship built by combining real and digital worlds
- Inauguration of R&D facility marks final addition to the Siemens Campus in Zug
- Siemens Smart Infrastructure business aims to advance technology for a greener future
Siemens
today inaugurated a new Research and Development (R&D) facility in the
presence of Swiss Economy Minister Guy Parmelin, Canton Zug Government
Councilor Silvia Thalmann-Gut and Roland Busch, the President and CEO of
Siemens AG, to mark the completion of its CHF250 million investment and the
seven-year construction of its climate-neutral campus in Zug, Switzerland.
- Upgrades to help improve infrastructure, support operational excellence and enhance student living-learning experience
As part of its 10-year strategic plan, ‘Transformation Morgan
2030: Leading the Future,’ Baltimore-based Morgan State University (MSU) has
partnered with Siemens on its journey to becoming a smart and connected campus
of the future. Improvements currently underway include implementing a series of
modernization upgrades to the university’s heating, ventilation, and air
conditioning (HVAC), security, and fire and life safety systems with a focus on
energy efficiency, resiliency and sustainability. All work is umbrellaed under
a master service agreement between Maryland Clean Energy Center, Siemens and
MSU to support the university’s campus transformation.
The University of
Birmingham, in partnership with Siemens, is combining digital sensor and
analytics technologies, artificial intelligence, decentralized energy
generation and storage, renewable energy and concepts that help change users’
behaviour to transform the university’s Edgbaston and Dubai campuses into the
world’s smartest global campus, creating a ‘Living Lab’ where research,
teaching and learning all benefit from access to new data and
connectivity.
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.
Siemens AG is constructing a modern and sustainably designed Siemens Campus Erlangen in the southern part of the city of Erlangen, Germany. By 2030, the company's research center in the south of the city will have been transformed step-by-step into one of Siemens' most advanced locations worldwide. Future-oriented office, research and laboratory jobs will be located on the campus. Equipped with the most advanced building and energy technologies, it will be developed over the long term into Siemens' first CO2-neutral location worldwide. A new urban residential and living environment will arise on the campus grounds. Siemens will be part of the community as never before. Designed by the Frankfurt architects KSP Jürgen Engel Architekten, the campus's open plan will link the company and society and provide a basis for the exchange of ideas.The construction project has a planned investment volume of some €500 million and will cover an area of 54 hectares. Siemens Campus Erlangen underscores the company's long-term commitment to its Erlangen location and will be a symbol of innovative power for employees and for the region. The project was planned and designed in close cooperation with the state of Bavaria and the city of Erlangen.
- Research project for an optimized transport system (OTS)
- Mobility offering for the first and last mile
- Testing the interplay of intelligent infrastructure, cloud-based software services and autonomous electric vehicles
Siemens Mobility is launching a field test for autonomous driving at the Siemens campus in Munich-Perlach, Germany. Working with partners IAV GmbH, Institute for Climate Protection, Energy and Mobility (IKEM) e.V., emm Solutions GmbH, UTB Projektmanagement GmbH and the Technical University of Munich (TUM), Siemens Mobility is initiating a research project and field test. The test route runs through the campus and enables traffic simulation in a variety of real-life situations.
- The most advanced future energy grid simulation hub of its kind in Australia
now available for industry and academia
- $5.2 million Hub at Swinburne’s Hawthorn campus features some of the world’s
most advanced digital technology from Siemens
- Hub simulates digital twin of Australia’s energy grid, enabling future energy
scenarios mapping
Siemens and Swinburne University of Technology have launched the most advanced future Energy Transition Hub of its kind in Australia at the University’s Hawthorn campus in Melbourne.
- The University of East London (UEL) has reduced its carbon emissions by 10 percent in phase one of its new net zero strategy
- UEL partnered with Siemens to develop and deliver the strategy, designed to improve energy efficiency and renewable integration
- Siemens and UEL to co-create a ‘Living Lab’ to help embed sustainability into course curriculums
The University of East London (UEL) has reduced its carbon emissions by 10 percent from its 2020/21 baseline to 2022/23 in the first phase of its new net zero strategy, putting the organisation on track to achieve its 2030 net-zero target.
- Siemens Swinburne Energy Transition Hub aims to create the most advanced future energy grid laboratory of its kind in Australia accessible to students and industry
- 5.2 million AUD (3.4 million EUR) to be invested into Hub, set to open in late 2023
- Hub to leverage digital twin of Australia’s energy grid with Siemens software such as PSS E, PSS Sincal, Spectrum Power and Deop X
- Joint project between industry and research to accelerate path to net zero
Siemens
and Swinburne University of Technology have agreed to set up the most advanced
future Energy Transition Hub of its kind in Australia in at the University’s Hawthorn campus
in Melbourne. Featuring
some of the most advanced digital energy technology from Siemens and the
technical, R&D and teaching expertise of Swinburne, the $5.2 million Hub
aims to build a future energy grid laboratory accessible to students and
industry. When fully operational, the Hub will also offer researchers and
industry the opportunity to work on solutions for greener, more efficient
future energy systems using Siemens Xcelerator, a new open digital business
platform and marketplace.