- Simotics XP technologically integrated platform concept for all explosion-proof low-voltage motors
- Efficiency rating IE3, improved maintenance conditions plus higher motor availability make for lower life cycle costs
- Optimized planning, engineering and procurement due to short delivery times and accelerated project implementation
- Added scope for optimization using digital twins
With its new generation of Simotics XP motors, Siemens is providing a technologically integrated platform concept encompassing all explosion-proof low-voltage motors. Based on the proven modular Simotics system, this future-proof platform covers all types of protection – making it ideally suited for use in potentially explosive atmospheres in the process industries. The use of standardized selection and engineering tools as well as uniform documentation which can be flexibly adjusted to individual requirements makes for simpler and faster project processing. Together with short delivery times, this can substantially cut project run times. The motor design has been optimized for the process industries, and is available across all protection types in efficiency class IE3. Life cycle costs are reduced despite improved motor availability and better maintenance conditions. By digitally mapping the real plant together with all its components to create a digital twin, Simotics XP becomes a part of the digital enterprise. The knowledge gained as a result can be used across the entire life cycle, permitting further optimization during the planning, engineering and commissioning phase, and also facilitating aftersales services and the stocking of spare parts. Typical applications for the new Simotics XP generation include pumps, fans, compressors, extruders, mixers and agitators.
- Safeguarding the interfaces between office and automation networks
- Customized, industry-specific selection of protection levels
Siemens today announces its adoption of Palo Alto Networks® next-generation firewalls (NGFWs) to enhance the protection of industrial organizations in manufacturing and process industries against cyberattacks. The Palo Alto Networks NGFW aims to put in place a high level of protection to secure the increasingly complex interfaces between office and automation networks, as customers continuously seek to benefit from the advantages of digitalization. The NGFWs allow Siemens customers to select from a variety of security levels and adjust them in-line with their own specific needs. The additional firewall will complement Siemens'' Scalance S Industrial Security Appliances which protect devices and network segments.
- Siemens H-class gas turbines debut on the Mainland China market
- Most efficient power plant in China
Siemens secured its first H-class gas turbine order in Mainland China. The company will supply two H-class gas turbines, two steam turbines and four generators for a power plant project in Guangdong Province. The customer is Huadian Fuxin Energy Corporation Limited (Huadian Fuxin), a subsidiary of China Huadian Corporation Ltd (CHD), one of the five state-owned power producers in China. The components will be installed at the CHD Guangzhou Zengcheng combined cooling, heat and power plant (CCHP) project located in Zengcheng District of Guangzhou City. After completion the project will be the most efficient gas-fired power plant in China. Commercial operation is scheduled for the end of 2019.
At this year's Hannover Messe, Siemens will present another medium-voltage switchgear that doesn't require sulfur hexafluoride (SF6) as the insulating gas: the 8DAB 12. The system uses clean air consisting only of the natural constituents of ambient air as the insulating gas. The switchgear is a new addition to the 8DA and 8DB product family and also works with the proven vacuum switching technology. A vacuum-interrupter unit handles switching and arc extinguishing, while the natural gas insulates the current-carrying conductors inside the housing of the metal-encapsulated gas-insulated switchgear (GIS). This type-tested system is used to switch high currents at the primary distribution level. The single-pole encapsulated 8DAB 12 is a SF6-free medium-voltage switchgear in the Siemens blue GIS portfolio. Switches and switchgear that use SF6 as the insulating, switching, and extinguishing gas remain an important part of the Siemens portfolio.
- Improved mechanical and electrical design for Sinamics S120 Chassis-2
- Chassis with smaller standard footprint and up to 60 percent lower width
- Benefits of innovated Sinamics S120 Chassis-2 applied to type-tested ready-to-use cabinet solution Sinamics S120 Cabinet Modules-2
Siemens has adapted the electrical and mechanical design of the Sinamics S120 Chassis-2 to meet today’s and tomorrows market requirements. The new frequency converters are designed to meet the very highest demands with state-of-the-art components, an innovated cooling concept with speed controlled fan and is like always type and system tested to ensure the very highest reliability and availability.
- Sinamics G120 Smart Access Module for wireless commissioning of Sinamics G120 converter series
- Wireless commissioning, diagnostics and servicing using mobile devices
- Rapid installation with no need to download additional software
- Intuitive user interface and menu guidance simplify handling
Siemens has extended its Sinamics G120 converter series portfolio to include an option for wireless commissioning, diagnostics and servicing. The new Sinamics G120 Smart Access Module enables the wireless connection of mobile devices such as tablets, smartphones or laptops over WiFi to the Sinamics G120, Sinamics G120C and Sinamics G120P converter series, making for considerably simpler converter handling. The module is set up in a few simple steps using a conventional web browser and any standard operating system. The web server functionality eliminates the need to download any additional software. With its intuitively structured user interface and menu guidance, the module offers outstanding user convenience.
- 300 megawatts of emergency power can now be provided to San Francisco via the Trans Bay Cable system to restore power following a network event
Siemens announced this week at the IEEE T&D Conference in Denver that it has installed an upgraded control system for the Trans Bay Cable (TBC) project, a high- voltage direct current (HVDC) transmission system with voltage-sourced converter (VSC) technology realized in a modular multi-level converter (MMC) topology. The project includes a 53-mile HVDC cable that runs under the San Francisco Bay. The upgraded system will enable Trans Bay Cable, via their Pittsburg converter station, to restore electricity to the San Francisco peninsula after a severe network event and is the first project of its kind in the U.S.
- Robotic trade fair model demonstrates TSN communication between machine controls
- Standardized interfaces for guaranteed quality of service
- OPC UA PubSub with TSN: reliable communication even under high network load conditions
- Network components, communication processors, software and network management
At Hannover Messe 2018, Siemens will be showcasing a trade fair model to demonstrate the advantages of Time-Sensitive Networking (TSN): TSN enables even more robust and reliable Ethernet communication between machines and plants even under high network load conditions. The model uses OPC UA PubSub (Publisher/Subscriber) together with TSN for machine-to-machine (M2M) communication. The reliability of TSN provides significant advantages for automation applications in industries such as automotive, mechanical engineering and food&beverage. The first Siemens products are expected to be available towards the end of 2018: network components, communication processors, software and network management with TSN functionality.
- World's largest pilot plant for the production of "green" hydrogen at the voestalpine site in Linz, Austria
- Capacity of 6 megawatts: the most effective and advanced plant of its type
- plant is scheduled to be fully operational by spring 2019
An EU-funded flagship project for a CO2-reduced energy future and the decarbonization of steel production is taking shape: today, at the voestalpine site in Linz, the H2FUTURE project consortium, consisting of voestalpine, Siemens, VERBUND, and Austrian Power Grid, together with the research partners K1-MET and ECN, officially gave the go-ahead for construction of the world's largest pilot plant for the production of "green" hydrogen. With a capacity of 6 megawatts, this is the most effective and advanced plant of its type. The partners from industry and power generation will use this facility to research into future breakthrough technologies which are needed to meet global climate goals over the long-term. The plant is scheduled to be fully operational by spring 2019.
- Contract worth around €340 million
- Maintenance contract for three years
- Velaro fleet will grow to 17 trains
Turkish State Railways (TCDD) has signed a contract for ten Velaro high-speed trains with Siemens, which submitted the most favorable bid in the tender. The contract is worth around €340 million and also includes maintenance, repair and cleaning of the trains for a period of three years. With this contract, the Turkish Velaro fleet will grow to 17 trains.