Abstract
In future power systems, reduced overall inertia caused by an increased dominance of asynchronous generation and interconnections would make frequency control particularly challenging. As the number and power rating of voltage source converter (VSC) HVDC systems increases, network service provision would be expected from such systems and to do so would require overload capacity to be included in the converter specifications. This paper studies the provision of frequency services from modular multilevel converter (MMC)-based VSC HVDC interconnections using temperature-constrained overload capability. Overload of the MMC-based HVDC system is achieved through controlled circulating currents, at the expense of higher losses, and subject to a control scheme that dynamically limits the overload available in order to keep the semiconductor junction temperatures within operational limits. Two frequency control schemes that use the obtained overload capacity to provide frequency response during emergency conditions are investigated. The controllers’ performance is demonstrated in the context of the future Great Britain transmission grid through a reduced equivalent test system. Simulation results show that even modest temperature margins which allow overload of MMC-based HVDC systems for a few seconds are effective as a primary frequency reserve and also reduce the loss of infeed requirements of such interconnections.
Highlights
O VER the past decade, Voltage Source Converter (VSC) HVDC schemes have become an increasingly popular option for long distance and sub-sea transmission systems
The short-term overload capability described in Section IV can be used during emergency conditions by Modular Multi-level Converter (MMC) connected to an AC grid to provide ancillary services like, for instance, primary frequency response
Given the time frame in which MMC overload can be expected to be sustained, we only focus on the primary frequency response in the Great Britain (GB) transmission system
Summary
O VER the past decade, Voltage Source Converter (VSC) HVDC schemes have become an increasingly popular option for long distance and sub-sea transmission systems. Overload capability is available for Current Source Converters (CSC) based HVDC systems [5] and is a desirable requisite, from a system level perspective, for multi-gigawatt HVDC schemes Such overload capability has not yet been demonstrated or presented as an option by VSC manufacturers. Provision of network services such as frequency support and power oscillation damping through VSC HVDC has been reported extensively [12] with some papers focusing on MMC-based HVDC [13], [14] In these works, the headroom for dynamic modulation of active/reactive power was made available by either considering the expensive option of de-loaded operation This paper builds upon the results presented in [10] to examine the application of the overload capability of an MMC-based HVDC interconnection in order to provide frequency support to an AC grid.
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