Dynamic System Performance Analysis of a Novel Grid Connection Topology for Offshore Wind Farms Using MMC-HVDC Transmission

Abstract

Recent projections estimate that the Netherlands needs circa 33 GW of offshore wind capacity in the North Sea to meet the goals of the Paris Agreement. To this end, the Dutch government has very ambitious plans to create new wind sites far from shore and integrate that power generation to the high-voltage power grid in the next years. Due to the challenges of connecting future massive amounts of offshore wind power into the grid TenneT operates it becomes urgent to investigate new alternatives for this purpose. A grid topology with transmission capacities above 1 GW connecting offshore wind farms at distances close to 100 km in a standardized, modular, and cost-efficient manner is the focus of this thesis.

With eight point-to-point HVDC links in operation in Germany and more expected in near future, TenneT TSO is analysing new offshore grid connection concepts to achieve a reliable and secure operation of the infrastructure connecting wind energy both in Germany and the Netherlands. A solution is presented in this thesis report in which new wind farms are connected with 66-kV cables to a centralised platform with a connection capacity of 1050 MW. This platform will utilise HVDC technology based on VSC conversion techniques and MMC topology. It is expected that the 66-kV cables will not be connected to a single busbar through paralleled converter transformer, but that this will be done with at least three converter transformers connected to each other on the valve side but not connected on the 66-kV side.

A dynamic performance study of a test network with the novel connection topology developed in PSCAD has been done. Each component of the system was studied to obtain a complete overview and understanding of the overall behaviour. All the associated control loops for the MMC terminals and wind turbines were modelled in detail. Through several simulations based on eight cases and scenarios the performance of the offshore 66-kV ac grid and the MMC-HVDC link using the control schemes of MMC converters as in a typical grid connection topology for OWFs was assessed.