Abstract
The increasing integration of renewable energies reduces the inertia of power systems and thus adds stiffness to grid dynamics. For this reason, methods to obtain virtual inertia have been proposed to imitate mechanical behavior of rotating generators, but, usually, these methods rely on extra power reserves. In this paper, a novel ancillary service is proposed to alleviate frequency transients by smoothing the electromagnetic torque of synchronous generators due to change of active power consumed by loads. Being implemented by grid-tied inverters of renewables, the ancillary service regulates the reactive power flow in response to frequency transients, thereby demanding no additional power reserves and having little impact on renewables’ active power generation. Differently from the active power compensation by virtual inertia methods, it aims to low-pass filter the transients of the active power required to synchronous generators. The proposed ancillary service is firstly verified in simulation in comparison with the virtual inertia method, and afterwards tested on processor by controller-hardware-in-the-loop simulation, analysing practical issues and providing indications for making the algorithm suitable in real implementation. The ancillary service proves effective in damping frequency transients and appropriate to be used in grid with distributed power generators.
Highlights
Renewable energy sources (RESs) are of strategic importance and crucial to the sustainability of energy production from an environmental point of view
Test Condition and Results In Sections 3.2.4 and 3.2.2, the droop coefficient of the Q/f control is set to 0.5 pu/Hz and the virtual inertia and the friction factor are set to 15 kgm2 and 33 Nms for virtual synchronous generator (VSG) control
This paper proposes a frequency-assisting ancillary service
Summary
Renewable energy sources (RESs) are of strategic importance and crucial to the sustainability of energy production from an environmental point of view. They are playing an important role in distribution networks [1,2] transforming them from passive to active [3], and representing a challenge for power planning and operation [4,5]. The grid codes of many countries have requested for PV systems’ cooperation in case of faults and transients [10,11] Another important aspect is related to the management of both active and reactive power among different sources and loads. These kinds of control are Energies 2020, 13, 1998; doi:10.3390/en13081998 www.mdpi.com/journal/energies
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