- Cloud-based digitalization offering for energy suppliers facilitates development and installation of agile, fully integrated applications for the Internet of Things
- Numerous EnergyIP applications gradually available for MindSphere
- Service and applications part of Siemens' cyber security strategy
The further development of Siemens' EnergyIP smart grid applications marks another step forward in the digital transformation of the energy industry: In the future, more and more applications that today run on the EnergyIP smart grid application platform from Siemens will be integrated into MindSphere, the Siemens cloud-based open operating system for the Internet of Things (IoT). With this step, Siemens can provide energy suppliers with open and scalable digitalization applications for improved transparency in energy plants, data analytics, and optimized energy-related business processes. MindSphere for Energy reduces the cost for integrating new equipment and enables new and existing applications to be developed and installed using standardized interfaces on MindSphere. The platform and the applications are a part of the company's cyber security strategy. These solutions are already being implemented in development and production in order to meet current and future data security requirements.
Siemens has completed the sale of 18.155 million ordinary shares in Osram Licht AG, thereby raising gross proceeds of approx. €1.2 billion. The sale followed an accelerated bookbuilt offering to institutional investors only.
- Efficient power transmission in the range from 30 to 150 megawatts
- Functions as direct-current transmission line (DC) to control, optimize, and regulate load flows in medium-voltage alternating current grids (AC)
- Based on Siemens high-voltage direct-current transmission (HVDC) technology
With MVDC PLUS (Medium Voltage Direct Current Power Link Universal System), Siemens is introducing a new direct-current transmission system to the market that will be serve as an efficient transmission route in medium-voltage AC grids from 30 to 150 kilovolts (kV). Siemens has developed the transmission system for grid operators who need to enlarge their infrastructure to handle the increasing volumes of power fed into the distribution system from distributed and renewable energy sources and also keep their network stable. Distances of up to 200 kilometers can be bridged with MVDC PLUS. Siemens offers the medium-voltage DC transmission system as a compact system in three variants: for a transmission capacity of approximately 50, 100, and 150 megawatts (MW) at DC transmission voltages of 20 to 50 kV.
Sabrina Soussan (48) and Michael Peter (51) have been appointed to succeed Jochen Eickholt (55) as head of Siemens' Mobility Division, effective October 1, 2017. Eickholt has been appointed integration manager for the announced merger of Siemens' and Alstom's mobility businesses, effective the same date.
- MindSphere interface offers value added by using recorded data over and above its actual protection and automation functions
- Data is fed to MindSphere applications through a separate communications channel, for example, to be used in asset management
Today's digital protection devices like those in the Siemens Siprotec 5 series record a multitude of different measured values and network condition quantities. Adding to the devices' actual protection and automation functions, these values can be extremely useful for utilities and grid operators, for example for asset management. That's why Siemens will equip its Siprotec 5 devices with a MindSphere interface, which will be available approximately in the middle of 2018. Through this integrated interface data can be fed, for instance, to a MindSphere application for asset management. Siprotec 5 uses a separate communications path for data read-out and transmission in addition to communications with the power station's automation and control system. There's only one data read access, and it doesn't affect the function of the protection device.
Distributed energy systems and digitalization are two trends that reinforce one another and are driving the transformation of the energy world. Siemens is supporting these trends in a variety of ways, including with MindSphere, its cloud-based, open, and scalable operating system for the Internet of Things (IoT). At this year's European Utility Week (EUW), which took place in Amsterdam from October 3 to 5, Siemens presented some of its highlights for this topic. As in past years, Siemens once again invited German and international energy media to a press conference at the trade show. The conference focused on the EnergyIP smart grid application platform whose applications recently began running under MindSphere as well as a new MindSphere application developed by Omnetric, a joint venture of Siemens and Accenture, for an Austrian energy provider.
At the conference, Siemens informed industry media about how MindSphere can help utilities and power grid operators monitor their grids, analyze grid data, and optimize grid operation, and also presented a new controllable and adjustable medium-voltage DC transmission system. This system was developed for gird operators who need to enlarge their infrastructure to handle the increasing volumes of power fed into the distribution system from distributed and renewable energy sources and to keep their network stable.
- Siemens to supply power island with highly-efficient H-class gas turbines
- Around 1.3 gigawatts power generation capacity
- Fast track power generation project to boost capacity in Punjab Province
Siemens has received an order from Pakistan for a complete power island for the new combined cycle Punjab Power Plant Jhang. The order was placed by the China Machinery Engineering Corporation (CMEC). As EPC contractor the Chinese company is building the project for the independent energy provider Punjab Thermal Power (Pvt) Ltd (PTPL). The liquefied natural gas (LNG)-operated plant is being built 250 kilometers southwest of Lahore and will provide a power generating capacity of 1.3 gigawatts.
In many areas of the world, existing power infrastructure is stretched to the limit by growing demand for electricity. Reliable power supply systems are a major enabler of economic development, yet needs are growing at a pace faster than the ability to erect conventional power plants. The task at hand in these regions is to deploy efficient mobile power generating capacity quickly to fuel economic development. In some cases the need is temporary, and after some time the mobile power plant might be relocated to a different location to perform a similar duty.
Siemens has now specially developed its SGT-A45 TR gas turbine for this rapidly growing market – a new aero-derivative gas turbine integrated into a mobile unit that delivers an electrical output of up to 44 megawatts, can be installed and commissioned in less than two weeks and begin generating electricity immediately. This light-weight gas turbine offers outstanding power density, high fuel efficiency and good operational flexibility, making it an ideal choice for customers who urgently need power and regions with less developed infrastructures.
- Digitalization of low-flow measurement
- Sensor program expansion with DN100 and DN150
- Transmitter with Modbus and Profibus PA profile 4.0 communication
- Suitable for new applications in oil and gas, marine, and chemical
To extend the numerous process-optimizing advantages of the digital Coriolis flowmeter platform to low-flow applications such as batching, dosing and filling of both liquids and gases, the Sitrans FCT030 and FCT010 digital transmitters can now be paired with the Sitrans F C MASS 2100 and Sitrans FC300 Coriolis sensors for small line sizes from DI 1.5 to DN 15. With this major enhancement to the product line, a broad range of users from chemical to automotive applications can benefit from market-leading mass flow accuracy of 0.1%, density accuracy of 0.5 kg/m3 and 100 Hz signal processing. The high-speed update rate ensures the highest precision for applications such as the filling of beverage bottles.