Abstract
The application of the direct current (DC) transmission is increasing through the interconnection between grids or the renewable energy resource integration. Various types of DC transmission topology are researched, and the hybrid multi-terminal high voltage DC (HVDC), called the “MTDC”, is one of the research subjects. The hybrid multi-terminal HVDC is the MTDC system that is composed with the Line Commutated Converter (LCC) and Voltage Source Converter (VSC). Most hybrid MTDC research has been focused on the connection of the renewable energy generation sources, especially offshore wind farms. However, the DC grid built with a hybrid MTDC was recently proposed due to the development of the converter technology. Therefore, the DC grid is expected to be able to substitute some parts of the transmission grid instead of the alternating current (AC) system, and the operation strategies of the DC grid are still being researched. The DC grid has the advantage of being able to control the power flow, which can even improve the stability of the connected AC system. The dynamic model is required to analyze the improvement of the AC system by the operation strategy of the hybrid MTDC, however, there is no generic model for the system. In this paper, an operation strategy of the hybrid MTDC is proposed to improve the stability of the AC power system by increasing the utilization of parallel AC transmission lines under the contingency condition. Furthermore, studies on the modeling method for a hybrid MTDC analysis were performed. The proposed modeling method and operation strategy were verified in simulations for which a modified IEEE 39 bus test system was used. The improvement of transient stability by the proposed hybrid MTDC system was shown in the simulation results.
Highlights
The power system has been growing steadily according to the development of alternating current (AC) technology
The operation strategy for the hybrid MTDC system is proposed in this paper
The Voltage Source Converter (VSC) can control the reactive power in a defined operation range to maintain the AC bus system was extended from a point-to-point (PTP) high voltage DC (HVDC) system and the extended terminal consists voltage with the proposed model
Summary
The power system has been growing steadily according to the development of alternating current (AC) technology. The proposed operation strategy of the hybrid MTDC seeks to increase the utilization of the AC transmission line in parallel with the MTDC for the power transmission between two regions, in consideration of the contingency condition. In the case of the third terminal installation at the parallel AC transmission lines, which is achieved by the extension of the existing LCC HVDC, the utilization of the lines is expected to increase. The method for the increase of the utilization of the AC transmission lines in parallel with the HVDC system through the extension of the HVDC system to the hybrid MTDC system was studied in this paper.
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