Ashkan Nami scite author profile

This paper presents a novel decentralized control for offshore wind farms connected to the onshore grid through a high voltage direct current link by means of a diode rectifier. The proposed control system is implemented in each wind turbine generator system (WTGS). The capacitor placed at the filter of the wind turbine front-end converter is used for the proposed control implementation. Frequency control is achieved by aligning the capacitor voltage vector along a reference axis rotating at the reference frequency. Then, a frequencyreactive power droop control allows the synchronization of all the WTGSs. On the other hand, this droop strategy also leads to total reactive power sharing among WTGSs without relying on communications. An additional secondary frequency control is also implemented to compensate the frequency deviation caused by the droop control. The proposed control system has been validated by simulation and results demonstrate the appropriate performance even during start-up and faults.

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Frequency Control of Offshore Wind Farm With Diode-Rectifier-based HVdc Connection

Nami

Rodriguez-Amenedo

Arnaltes

et al. 2020

IEEE Trans. Energy Convers.

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Active Power Filtering Embedded in the Frequency Control of an Offshore Wind Farm Connected to a Diode-Rectifier-Based HVDC Link

et al. 2018

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This paper presents a novel active power filtering (APF) scheme embedded in a centralised frequency control of an offshore wind farm (OWF) connected to a high voltage direct current link through a diode rectifier station. The APF is carried out by a voltage source converter (VSC), which is connected to the rectifier station to provide frequency control for the offshore ac-grid. The proposed APF scheme eliminates harmonic currents at a capacitor bank placed at the rectifier station. This leads to a significant reduction in the total harmonic distortion of the offshore ac-grid voltage, and thus, to an improvement in the OWF power. Hence, the rectifier passive ac-filter bank is not needed anymore. A new selective harmonic compensation method based on the dynamic phasor (DP) theory is used in the proposed APF scheme which allows the extraction of the phasor form of harmonics in dc-signals. Therefore, the well-known proportional-integral regulators are used for the harmonic current compensation. Moreover, the offshore ac-grid is modelled for the system harmonic analysis using a grid solution based on the DP theory. Finally, a VSC power rating analysis is studied. The performance of the proposal is validated by simulations in both steady-state and transient conditions.

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A new T-type NPC-based submodule for modular multilevel cascaded converters

Nami

Adabi

2014

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Hybrid HVDC System for Offshore Wind Farms Connection Using Series-connected Diode Rectifier Units

Nami

Rodriguez-Amenedo

Arnaltes

et al. 2019

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Ashkan Nami

Decentralized Control of Offshore Wind Farms Connected to Diode-Based HVdc Links

Frequency Control of Offshore Wind Farm With Diode-Rectifier-based HVdc Connection

Active Power Filtering Embedded in the Frequency Control of an Offshore Wind Farm Connected to a Diode-Rectifier-Based HVDC Link

A new T-type NPC-based submodule for modular multilevel cascaded converters

Hybrid HVDC System for Offshore Wind Farms Connection Using Series-connected Diode Rectifier Units

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