K. Visscher scite author profile

In electricity grids the frequency of the voltage is stabilized by a combination of the rotational inertia (rotating mass) of synchronous power generators in the grid and a control algorithm acting on the rotational speed of a number of major synchronous power generators. When in future small nonsynchronous generation units replace a significant part of the synchronous power generation capacity, the total rotational inertia of the synchronous generators is decreased significantly. This causes large frequency variations that can end up in an unstable grid. A way to stabilize the grid frequency is to add virtual rotational inertia to the distributed generators. A virtual inertia can be attained for any generator by adding a short-term energy storage to it, combined with a suitable control mechanism for its power electronics converter. In this way a generator can behave like a "Virtual Synchronous Generator" (VSG) during short time intervals, and contribute to stabilization of the grid frequency.

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Grid tied converter with virtual kinetic storage

Wesenbeeck

Haan

Varela

et al. 2009

231

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Virtual synchronous machines (VSG'S) for frequency stabilisation in future grids with a significant share of decentralized generation

Visscher¹,

Haan²

2008

135

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Virtual synchronous generator: An element of future grids

Van

Visscher

Díaz³

et al. 2010

112

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Layout and performance of the power electronic converter platform for the VSYNC project

Loix

Breucker

Vanassche

et al. 2009

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This paper presents the power electronic platform used for the VSYNC project. In this project, inverters are controlled in such a way as to exhibit a virtual rotational inertia towards the grid, in order to limit grid frequency variations in grids containing a high share of inverter-connected DER. First the layout and operation of the platform are described in detail, showing its versatility for research purposes. Next the performance of the platform is illustrated using experimental results obtaining using a grid-connected inverter in a laboratory setup.Index Terms-Virtual synchronous generator, power electronic converter, rapid prototyping platform, grid-connected inverter, virtual rotational inertia.

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K. Visscher

Virtual synchronous generators

Grid tied converter with virtual kinetic storage

Virtual synchronous machines (VSG'S) for frequency stabilisation in future grids with a significant share of decentralized generation

Virtual synchronous generator: An element of future grids

Layout and performance of the power electronic converter platform for the VSYNC project

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