Modelling and optimisation for a coordinated interconnected multi-terminal DC transmission infrastructure for integration of offshore wind energy

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Title
Modelling and optimisation for a coordinated interconnected multi-terminal DC transmission infrastructure for integration of offshore wind energy

CoPED ID
dd8db58b-ca95-41c6-aa26-ba786db73a56

Status
Active

Funders

Value
No funds listed.

Start Date
Sept. 27, 2020

End Date
Sept. 29, 2024

Description

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1st year is the PG Diploma and research and Industry preparation
This work will aim to develop advanced computational models for power systems including models that are suitable for solving optimal power flow problem. Models will be developed for VSC-based HVDC links which could be used to form multi-terminal supergrids for connecting multiple wind farms. The optimal power flow problem is a complex nonlinear optimisation problem which can be quite tasking for especially larger scale systems and as such one of the main methodological contributions in this project is to develop suitable approximations such as linearisation methods for reducing the computational expenditure of the optimal power flow problem and at the same time maintain its tractability when scaled up for larger systems. The project will also involve implementation of a suitable day-ahead operational planning framework by solving multiple instances of optimal power flow problem to plan the operation of offshore wind farms within a specific planning timescale (say 24 hours). The planning framework is then implemented to multiple wind farms connected via a multi-terminal HVDC supergrid to provide better power regulation and a more stable, reliable operation even after emergencies such as loss of supply in a specific region. These added flexibilities of operation are necessary for a sustainable growth and integration of offshore wind resource in the future for example in the UK in line with National Grid's Future Energy Scenarios (FES) projections.

Behzad Kazemtabrizi SUPER_PER
Siti Hamzah STUDENT_PER

Subjects by relevance
  1. Wind energy
  2. Optimisation
  3. Wind farms
  4. Renewable energy sources
  5. Energy production (process industry)
  6. Farms
  7. Power plants

Extracted key phrases
  1. Optimal power flow problem
  2. Complex nonlinear optimisation problem
  3. Terminal DC transmission infrastructure
  4. Offshore wind farm
  5. Multiple wind farm
  6. Offshore wind energy
  7. Offshore wind resource
  8. Power system
  9. Interconnected multi
  10. Well power regulation
  11. Terminal supergrid
  12. Modelling
  13. Large scale system
  14. Terminal HVDC
  15. Advanced computational model

Related Pages

UKRI project entry

UK Project Locations