The European Metrology Network (EMN) for Smart Electricity Grids is the single point of contact across Europe that provides stakeholders support for measurement challenges in the realisation of smart electricity grids.
Building a low-carbon, climate resilient future will require secure, clean and efficient energy. The transition towards more a sustainable energy supply has a profound effect on electricity grids – the backbone of modern society.
Currently, there are no upcoming events.
As soon as events are planned, they will be displayed here.
- Revenue Metering
- Power Quality
- Grid Monitoring and Data Analytics
- Digital Substations
- Instrument Transformers and Sensors
- High-Voltage Testing
- DC Grids and Applications
Accurate measurement of produced, consumed, and transferred electricity underpins the entire electricity market and it is fundamental to ensure fair billing to all users. Metrology traceability ensures its correct measurement, even under unexpected grid conditions.
The measurement of the quality of power is critical to ensure the correct operation of electrical power systems and the compatibility between the electricity supplied in the grid and the equipment connected to that grid. As new technologies are developed, new power quality measurement challenges arise with them.
Grid Monitoring and Data Analytics
With increasingly complex electricity networks, having a reliable and precise visibility of grid conditions at every moment is becoming a key capability. A robust measurement infrastructure underpins this capability with accurate sensor networks and technologies.
Digital instruments are outdated hardware in smart grids, providing the capability of monitoring the grid with great accuracy. The yet unexplored metrology side of this transition, and the crucial aspect of time synchronisation of measurements, are part of the Electricity Smart Grids network research agenda.
Instrument Transformers and Sensors
Instrument transformers and sensors are the first elements in the electricity measurement chain. The entire measurement framework is underpinned by their precise and accurate performance. Their modernisation is a vital for the system and is supported by metrology research and innovation.
Reliability and safety of electricity grids is strictly dependent on the careful testing of their components, involving accurate reproduction and measurement of the overvoltage conditions representative of those that can be met in service.
DC Grids and Applications
Low voltage DC grids are an efficient alternative to traditional AC grids particularly for integrating native DC low carbon technology. Their functioning, regulation and normative standards are supported by reliable and accurate measurements of DC electrical quantities.
One of the most effective ways to reduce greenhouse emissions is by reducing electricity losses and improving efficiency. The precise and reliable quantification of the losses, however, is still a challenging task. European metrology is addressing this by developing innovative measurement strategies.
High voltage AC or DC networks are being introduced which transmit electricity more efficiently. Lightning strikes or the sudden removal of high power-drawing devices cause ‘lightning impulses’ (LI) and ‘switching impulses’ (SI). These power surges become superimposed over the electricity flowing through the...
The power industry is transitioning to renewable sources of energy, which tend ...
New technologies for wind turbines are currently assessed in the field, are tim...