Litcius/Paper detail

Comparison of Communication-Based and Coordination-Based Frequency Control Schemes for HVdc-Connected Offshore Wind Farms

Guan-Liang Lu, Chung-Han Lin, Yuan‐Kang Wu

2021IEEE Transactions on Industry Applications29 citationsDOI

Abstract

As wind power generation increases, there is an increasing need for frequency support from wind turbines. There are many advantages to connect offshore wind farms with the electricity grid via a high-voltage direct current (HVdc) system. HVdc transmission systems allow wind farms to provide frequency regulation and voltage control, making them more flexible compared with HVac transmission systems. Several frequency-support control methods have been developed previously. However, few works have compared various control methods for HVdc-connected offshore wind farms. This work presents a detailed comparison of the main frequency-support control methods that can be used for HVdc-connected offshore wind farms. These control approaches are mainly based on the communication-based schemes or coordination-based methods. The communication-based scheme uses communication devices to directly transfer the grid frequency information to an offshore wind farm. The coordination-based method transfers the dynamic dc voltage information from the HVdc via generator emulation control and then enables the voltage-source converter on the wind-farm side to supply frequency regulation. In this work, we considered the synthetic inertial control of wind turbines for our analysis, including inertia and droop controllers. Furthermore, the capacitors in the HVdc system can release the stored energy to help wind farms regulate frequency during operation.

Topics & Concepts

Offshore wind powerAutomatic frequency controlWind powerEngineeringFrequency gridHigh-voltage direct currentAutomatic Generation ControlVoltage droopGrid codeTransmission systemTransmission (telecommunications)AC powerElectric power systemElectrical engineeringVoltageVoltage sourcePower (physics)Direct currentQuantum mechanicsPhysicsWind Turbine Control SystemsHVDC Systems and Fault ProtectionMicrogrid Control and Optimization