The Offshore Wind Industry Council (OWIC) transmission group sought guidance from the National HVDC Centre on options for de-risking integrated offshore transmission approaches in GB. The HVDC Centre in consultation with industry led publication of a report, which identifies that:
- Integrated offshore transmission is technically feasible for projects at design stage;
- Solutions can be built in stages to meet offshore wind growth and benefit the onshore grid; and
- Bipole HVDC with return cable option appear to offer greater flexibility and less export cables.
Click here for the full report published on 25 June 2020.
This is the Business Plan for the HVDC Centre; for 2021-2026.
Based on this business plan, Ofgem announced their decision on the future operation of the Centre on 3 July 2020, published here: https://www.ofgem.gov.uk/publications-and-updates/decision-future-operation-hvdc-centre-following-end-nic-funding-period
Here is the presentation from the Webinar on Demonstration of DC Grid Protection held on 13 May 2020.
A summary of the questions and answers from the RTDS webinar on 16th and 24th April 2020.
Practical Use of Real Time Simulation for De-risking HVDC Integration
The National HVDC Centre leads publication of technology report for the Future Transmission Group of the Offshore Wind Industry Council (OWIC). Click here to read the full report published in January 2020.
The UK Government has set an ambitious target to reduce all greenhouse gas emissions to net zero by 2050. This would require large-scale integration of up to 75GW offshore wind capacity into the GB electricity system, up from 8GW in 2018, according to the Committee on Climate Change. The coordinated development of future offshore electricity transmission infrastructure is essential to achieve the levels of deployment required.
With government’s commitment to a strategic target (of 40GW of offshore wind by 2030), the Offshore Wind Industry Council (OWIC) wanted to investigate how the future offshore electricity transmission system should develop to realise the full potential of GB’s offshore wind resource.
In response to this, the OWIC formed a Future Offshore Transmission group comprising a Technical Solutions work stream led by The National HVDC Centre in collaboration with three offshore windfarm developers (EDPR, Scottish Power Renewables and Vattenfall) and the Offshore Renewable Energy (ORE) Catapult. The technical solution work stream led a review into Grid-access Technologies for the GB Offshore Wind Industry.
This report, by the Technical Solutions work stream identifies the following issues to be analysed:
- Integrated electricity transmission planning – coordinated planning can facilitate economic and efficient development of future offshore and onshore transmission networks, based on High Voltage -Alternating Current (HVAC) or Direct Current (HVDC) technologies;
- Key enabling infrastructures – shared transmission assets such as coastal HVAC grid hubs; offshore HVDC hubs; and demonstration and innovation hubs, would be required to realise the full potential of GB’s offshore wind resource; and
- Design authority and system operator – there is a need to plan appropriate enabling infrastructures and funding of the future offshore transmission systems.
The full report publish in January 2020 is available at: https://www.hvdccentre.com/wp-content/uploads/2020/01/Grid-Access-Technologies_V3.pdf.