A timeline covering 10 years of ETI research, development and demonstration in Offshore Wind. This infographic shows how the various ETI Wind Energy projects relate to each other : NOVA, Deep Water, Condition Monitoring, Helm Wind, Offshore WInd Test Rig, Very Long Blades and Floating Wind Tension Leg Platform System.
An infographic showing the route to floating offshore wind, and how it can contribute to preparing to transition to a low carbon energy system in the UK over ten years.
An ETI Infographic about wave and tidal energy and how it can contribute to the transition to a low carbon energy system in the UK over the next ten years.
Domestic Energy Services: To move consumers to low-carbon heat we need to rethink the consumer proposition. The emergence of the “connected home” allows us to look at heat and comfort as a packaged service not simply the purchase of units of fuel. This slide indicates possible business opportunities.
Infographic on Domestic Energy Services: To move consumers to low-carbon heat we need to rethink the consumer proposition. The emergence of the “connected home” allows us to look at heat and comfort as a packaged service not simply the purchase of units of fuel. This slide shows how the customer might react, as a guide to businesses.
Infogrpahic examining the role of Small Modular Reactors (SMRs) and what is needed for them to become an integral part of the UK low carbon energy system by 2050
This infographic summarises the case for deploying bioenergy with CCS in the UK, concluding that the UK is well-placed to exploit the benefits of BECCS, that the next step is to demonstrate it at a UK plant, but that UK government support is vital.
This project’s aims were to develop and demonstrate a pre-saturated core fault current limiter device (PCFCL), to reduce the impact of faults on electricity distribution networks. The PCFCL was developed by GridON, based in Tel Aviv, Israel, and was demonstrated in service over 3 years on a live network at a UK Power Networks substation in Newhaven, East Sussex.
A fault current limiter (FCL) suppresses the damaging currents which result from electricity network faults. This is the fact sheet for the PCFCL device developed during this project.
GridON’s FCL uses a direct current coil to magneticallysaturate the iron core – providing a very low impedanceduring normal operation and a high impedance to limit faults.
Unlike previous technologies, this design offers the advantages of a pre-saturated core type fault currentlimiter without the need for superconducting components.
The design is based on combining industry standard, proven transformer technology with GridON’s unique and proprietary magnetic saturation technology
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