Abstract
This paper proposes a low-frequency ac (LFAC) transmission system capable of providing frequency regulation support for a remote ac grid aiming at enhancing its frequency stability. The LFAC transmission system using modular multilevel matrix converters (M3Cs) for a direct ac-ac conversion is receiving noticeable attention as an alternative solution for a long-distance transmission system. One of its potential applications is the system connection between a large ac grid and a remote ac grid, whereas the latter usually suffers from a fluctuant frequency due to lack of inertia. The core of this work is addressing a novel control scheme of the remote ac grid-side M3C, which makes both interactions with the LFAC system and the remote ac grid behave like a synchronous generator using a dual virtual synchronous generator (VSG) control scheme. This control scheme can enhance the frequency regulation in the remote ac grid, which the existing control schemes cannot provide. Average dc capacitor voltage versus active power (V ave -P) droop control is proposed to coordinate the power flow between the VSG controls applied in both sides of the M3C. To demonstrate the problem of the existing control scheme, as well as the benefits offered by the proposed control scheme, transient performance including load variation and fault events in the remote ac grid is studied and examined in the EMTDC/PSCAD software environment.
Highlights
The connection to a remote ac grid via high voltage ac (HVAC) system using utility frequency requires a long transmission line, which is expensive, poor efficiency and of low transient stability
In order to enhance the VSC-HVDC systems to provide frequency regulation support for the remote ac grid, they were controlled in a manner to provide an inertial response by incorporating inertia emulation control strategies such as using the kinetic energy stored in the DC-link capacitor [3]
The low-frequency ac (LFAC) side virtual synchronous generator (VSG) control of M3C 1 regulates the active power and uses its automatic voltage regulator (AVR) to maintain the voltage by varying the reactive power
Summary
The connection to a remote ac grid via high voltage ac (HVAC) system using utility frequency requires a long transmission line, which is expensive, poor efficiency and of low transient stability. Voltage source converters based high voltage direct current (VSC-HVDC) systems are proposed to connect the remote ac grid with the main grid in order to overcome the conventional HVAC system limitations. This paper proposes a frequency regulation support for the LFAC system interconnecting a remote ac grid to the main grid using M3Cs as ac/ac converters This is realized by using a dual VSG control for the M3C at the remote ac grid side. It is a combination of two stations, each station is driven by an M3C that acts as a frequency converter to convert the low-frequency ac (10 Hz) to 60 Hz in order to interface with the grid.
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