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http://dx.doi.org/10.5370/JEET.2018.13.4.1459

Coordinated Voltage Control Scheme for Multi-Terminal Low-Voltage DC Distribution System  

Trinh, Phi Hai (School of Electrical Engineering, Kookmin University)
Chung, Il-Yop (School of Electrical Engineering, Kookmin University)
Kim, Taehoon (Korea Electric Power Research Institute (KEPRI))
Kim, Juyong (Korea Electric Power Research Institute (KEPRI))
Publication Information
Journal of Electrical Engineering and Technology / v.13, no.4, 2018 , pp. 1459-1473 More about this Journal
Abstract
This paper focuses on voltage control schemes for multi-terminal low-voltage direct current (LVDC) distribution systems. In a multi-terminal LVDC distribution system, there can be multiple AC/DC converters that connect the LVDC distribution system to the AC grids. This configuration can provide enhanced reliability, grid-supporting functionality, and higher efficiency. The main applications of multi-terminal LVDC distribution systems include flexible power exchange between multiple power grids and integration of distributed energy resources (DERs) using DC voltages such as photovoltaics (PVs) and battery energy storage systems (BESSs). In multi-terminal LVDC distribution systems, voltage regulation is one of the most important issues for maintaining the electric power balance between demand and supply and providing high power quality to end customers. This paper focuses on a voltage control method for multi-terminal LVDC distribution system that can efficiently coordinate multiple control units, such as AC/DC converters, PVs and BESSs. In this paper, a control hierarchy is defined for undervoltage (UV) and overvoltage (OV) problems in LVDC distribution systems based on the control priority between the control units. This paper also proposes methods to determine accurate control commands for AC/DC converters and DERs. By using the proposed method, we can effectively maintain the line voltages in multi-terminal LVDC distribution systems in the normal range. The performance of the proposed voltage control method is evaluated by case studies.
Keywords
Multi-terminal LVDC distribution system; Voltage control; Multiple AC/DC converter control; Distributed energy resources; Voltage sensitivity analysis;
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