- Automatic handling of up to 1800 pieces of luggage per hour
- Improved security and more comfort for travelers and airport staff
- Modernization in compliance with tightened international security rules for luggage inspection
- Siemens also providing management systems, software and communications for remote operation
- Order volume of 164 million euros
Siemens will modernize the existing security systems for luggage control at Spain's five busiest airports. The contract for the luggage inspection systems at the airports of Madrid, Barcelona, Malaga, Palma de Mallorca and Gran Canaria has a volume of around 164 million euros. The customer is AENA (Aeropuertos Españoles y Navegación Aérea), the Spanish semi-governmental airport operator. With 264 million passengers and more than one million tons of freight in 2018, AENA is one of the world's largest airport operators. The new luggage inspection systems from Siemens will help to significantly increase traveler safety. At the same time, passengers can be handled more quickly and travel more comfortably.
- Retrofit of substation automation and protection system in Norway including Internet of Things (IoT) connectivity
- Consolidation, visualization and analysis of grid data in MindSphere cloud
- Option to develop additional use cases during project execution
- Digitalization of grid assets optimizes overall efficiency
Together with the Norwegian distribution system operator Glitre Energi Nett, Siemens will build a digital substation to pilot Internet of things (IoT) analytics and applications for power grids. IoT-ready Siprotec protection and control and Sicam automation devices will be connected via OPC UA PubSub, an open standard communication protocol, to MindSphere – the Siemens cloud-based open operating system for IoT. The Siprotec dashboard cloud application will make previously inaccessible data fully available and help to process grid data for the first time in the cloud with zero engineering effort.
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.
- Smart grid solution to support growing demand for residential electric vehicle charging infrastructure
- Digitalization of low-voltage network enables electromobility growth
- Locally monitored and controlled home charging stations to relieve network
- Decentralized intelligence prevents network overload
- Pilot project in Hamburg aims to develop scalable, technical solutions
Growth in electromobility, along with the required charging infrastructure, presents distribution networks with enormous challenges. To address this, Siemens and Stromnetz Hamburg GmbH have started collaborating on a three-year pilot project aimed at avoiding extensive expansion of the low-voltage networks and preventing overload situations in secondary distribution networks. Applying a concept for resilient information and communication technology to digitalize secondary distribution networks, the project's goal is to facilitate stable and reliable operation of the low-voltage networks to ensure secure power supply as demand for electric vehicle (EV) charging infrastructure grows.
- Compact device providing combined functionality for measurement, monitoring and data transmission
- Separate detection of energy consumption and energy recovery
- Operating hour and switching cycle counters enable preventive maintenance
- Commissioning, measured values and status information via Profinet
Siemens has just launched its SIRIUS 3UG546 DC load monitoring relay on the market. The new device is the most compact of its kind for direct current (DC) applications, enabling simple and precise power measurement. The SIRIUS 3UG546 is unique in our industry: It is the first and only DC load monitoring relay to combine current and voltage measurement, power monitoring, communication and various other useful functions in one single, compact device. Until now, several individual components were required for each of these functions. The innovative new approach saves space and costs.
- Introducing Cerberus Portal, cloud-based online fire protection software to monitor fire systems.
- Fire panel data is transferred to the cloud via the Cerberus Connect X300 gateway using encrypted transmission technology and a built-in firewall.
- In case of system incidents, maintenance personnel receives real-time information to react promptly, inform customers and prepare site visits.
Cerberus Portal is the first stepping stone in digitalizing Siemens fire safety products. It represents the initial component of the new Cerberus Cloud Apps offering. This is a clear push towards the current fire protection industry trend: "There is an ongoing disruptive revolution in our Fire Safety industry. That revolution is called digitalization. I am deeply convinced that digitalization will change the way we do business," says Johannes Mario Kahlert, Head of Fire Safety at Siemens Smart Infrastructure.
- New Intelligent Valve with heat exchanger optimization for heating groups and air handling units
- Reliable automatic commissioning via direct download of parameters from the cloud
- Flexible mounting options to fit the space available
The Intelligent Valve is the first self-optimizing dynamic valve for heating groups and air handling units from Siemens Smart Infrastructure that can be connected to the cloud. The device controls the flow, measures temperature and output, and automatically adjusts the valve settings to the heat exchanger. The valve can be commissioned quickly and reliably via wireless LAN using the Siemens ABT Go app. It fits the space available thanks to flexible mounting options, allowing the flow sensor, valve and controller box to be installed separately. Because additional functions can be downloaded from the cloud at any time, the Intelligent Valve is always up to date.
- Buildings connected in a microgrid support decentralized energy markets of the future
- Flexible energy consumption, storage and load balancing
- Ecological benefits for society as well as new revenue streams for buildings customers
Siemens Finland has created a new business to expand its virtual power plant activity: Vibeco (Virtual Buildings Ecosystem) is an innovative approach to increase the benefits of increasingly decentralized energy systems. The heart of the virtual power plant is a software platform, operated by Siemens, that intelligently balances electrical loads from buildings that have been connected in a microgrid, incorporating renewable energy and energy storage.
On the path to the future of energy, decarbonization, decentralization, and digitalization are inextricably linked. The goal, after all, is intelligent, sustainable generation, provision, and use of energy. This requires integrative thinking and an eye for the big picture – from intelligent energy concepts to sector coupling, electromobility, and the integration of renewable energies in the power grid. At The smarter E Europe trade show, Siemens demonstrated how this combination of power generation, storage, distribution, and use functions in practice. The event brought together four exhibitions under one roof covering the core topics for the energy world of the future (Intersolar, Power2Drive, ees, EM-Power). In line with the trade fair motto "Take control: Be energy intelligent!" we presented innovative products and solutions for the grid integration of PV power plants, local energy systems, and for e-mobility ecosystems.
At this year's "The smarter E-Europe," Siemens is demonstrating its role in shaping an increasingly decentralized energy landscape. Siemens will show how the digitalization of renewable energy generation, storage and distribution positively impact the energy transition and sustainability goals.