More data, increased transparency
Modern electrical grid components deliver, process, and analyze data
One consequence of digitalizing power grids is the steadily growing volume of captured data. These vast quantities of data harbor valuable information that describes the state of the grid, enables advanced computational analysis of changes, and can improve the performance and extend the service life of assets. The hardware and software from Siemens needed for this fulfills all the requirements.
Thoroughly analyzed grid data enable you to make well-founded decisions. This enhances performance and extends the service life of assets, while also simplifying processes. By optimizing maintenance deployments and increasing grid availability, you can also improve the cost-effectiveness of your grid.
Find out more in detail under the following topics
Seamlessly integrate IT and OT
Analyses of past projects confirm that integrating IT and OT into the engineering process can save time and money. Much of the effort involved in such system integration was attributed to converting between different protocols. High costs were also incurred when connecting differing systems in the control centers and other systems such as energy resource planning. Consequently, power providers and suppliers worldwide have developed common standards in order to reduce costs and effort. This enhances the security of investments.
Benefits of integrating IT and OT
- Reduce engineering costs by avoiding data conversion between protocols and interfaces
- Get rid of gateways to convert between different protocols
- Secure investment using long-lasting standards and open protocols
Validation of asset connectivity
The volume of data collected from various locations on grids is steadily growing, particularly due to the expanding feed-in of power from renewable energy sources. As a result, for every distribution network a data model exists which lists all assets and their connections to other such assets. Based on algorithms, a rather precise tree model of the grid can be calculated without knowing what assets it contains and how these are linked to one another.
This method is important if, for example, connection errors have to be detected during a generational change in the grid control system.
Benefits for grid operators
- Prevent connection errors when migrating large amounts of data during, for example, a generational change of the control center
- Easy localization of connection errors
- Increased efficiency and cost savings during comprehensive changes in the grid infrastructure
Controlling and balancing distributed generation efficiently
Coordinated scheduling and dispatch of distributed energy resources, including energy storage, helps tackle overload situations and voltage problems, and at least balance generation and load. The most efficient manner is to gain access to the distributed energy resources to balance the infeed in combination with the load via a control system. Many industrial processes allow not only a shutdown for load reduction. They also facilitate increased consumption during a high power production period as well. These actions can avoid investments into the grid expansion.
Benefits of balancing generation and load
- Avoiding shutdowns
- Compliance with rules and regulations
- Stable grid
- Reduce investments into the grid expansion
Products for controlling distributed power producers
Advanced monitoring with real-time state estimation
Distributing various measuring devices throughout the entire distribution grid is a question of time and money. Strategically critical and important local distribution substations are the first locations to be equipped in order to optimize such deployment from an economic standpoint. Real-time state estimation performs an important function in this process, enabling that portion of grid substations that are not equipped with measuring devices to be mapped and considered.
Benefits for grid operators
- Economic real-time state estimation calculated centrally or on a distributed basis
- Advance detection of critical grid situations
- Load demand history and load flow diagrams
- Voltage level monitoring
Highlight product for real-time status estimation
Validation of asset phase assignment
Phase asymmetries in grids can be detected and located based on captured data. These asymmetries often negatively impact equipment and electrical loads (i.e. electrical consumers) such as motors. As a growing volume of sensor and meter measuring data are available, these data can be used for analysis and thereby greatly facilitate the difficult and time-intensive local search for asymmetries among loads as well as sensors that have been cross-phased connected.
Benefits for grid operators
- MapReduce function for parallel data processing of large amounts of data
- Power snapshot analysis provides information on grid condition based on smart meter data
- Voltage histograms deliver information on asymmetric loads
- Interactive visualization of defined events such as sum totals or over-/undervoltage
Taking an active role in maintenance planning
Distribution grid monitoring helps to prioritize maintenance deployments and to detect potential faults and failures before they occur. Failure monitoring starts with aging equipment in critical grid substations. EnergyIP Analytics – Equipment Load Management (ELM) leverages existing AMI meter data to allow a preventative maintenance approach for the installed transformers.
Benefits of data analytics for asset optimization
- Improve supply quality and security level
- Early detection of potential problems based on online insights
- Historical database for assistance with end-of-life assessment
- Optimization of CAPEX and OPEX by reducing costly time-based maintenance practices