Stochastic Unit Commitment in Low-Inertia Grids

Paturet, Matthieu; Markovic, Uros; Delikaraoglou, Stefanos; Vrettos, Evangelos; Aristidou, Petros; Hug, Gabriela

doi:10.1109/tpwrs.2020.2987076

Cited by 133 publications

(91 citation statements)

References 18 publications

(29 reference statements)

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“…Though the proposed model may look similar to the work of Paturet [15], the two papers have several significant differences. This paper proposes a novel concept referred as frequency security margin.…”

Section: Discussionmentioning

confidence: 96%

“…With the assumption that the frequency regulation reserve is delivered linearly in the frequency dynamic process, Teng et al formulated linear frequency security constraints and applied them in a stochastic UC model [14]. Paturet et al proposed a stochastic UC model considering the minimum inertial requirement for low-inertia systems [15]. Sokoler et al proposed an optimal reserve planning model for an isolated power system to guarantee that the system frequency maintains above a pre-defined limit during the contingency [16].…”

Section: B Literature Reviewmentioning

confidence: 99%

See 1 more Smart Citation

Modeling Frequency Dynamics in Unit Commitment With a High Share of Renewable Energy

Zhang

Wang

Teng

et al. 2020

IEEE Trans. Power Syst.

147

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The power system inertia is gradually decreasing with the growing share of variable renewable energy (VRE). This may jeopardize the frequency dynamics and challenges the secure operation of power systems. In this paper, the concept of frequency security margin is proposed to quantify the system frequency regulation ability under contingency. It is defined as the maximum power imbalance that the system can tolerate while keeping frequency within the tolerable frequency range. A frequency constrained unit commitment (FCUC) model considering frequency security margin is proposed. Firstly, the analytical formulation of system frequency nadir is derived while considering both the frequency regulation characteristics of the thermal generators and the frequency support from VRE plants. Then, the frequency security margin is analytically formulated and piecewise linearized. A novel FCUC model is proposed by incorporating linear frequency security constraints into the traditional unit commitment model. Case studies on a modified IEEE RTS-79 system and HRP-38 system are provided to verify the effectiveness of the proposed FCUC model. The impacts of VRE penetration on system frequency security are analyzed using frequency security margin. Index Terms-frequency dynamics, power system inertia, unit commitment, high share of renewable energy, virtual synchronous machine.

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Section: Discussionmentioning

confidence: 96%

Section: B Literature Reviewmentioning

confidence: 99%

Modeling Frequency Dynamics in Unit Commitment With a High Share of Renewable Energy

Zhang

Wang

Teng

et al. 2020

IEEE Trans. Power Syst.

147

View full text Add to dashboard Cite

show abstract

“…First , in this paper, the frequency response requirements for different system inertia conditions are derived from the fully network models used in grid operation. Compared to previous works, in which simplified dynamic models [22–26, 29–31, 33–35] are used, our approach accurately captures the interplay among the UC statuses, inertia and PFR. Since the PFR requirement is predetermined, running time‐consuming dynamic simulations is not necessary when solving the UC problem.…”

Section: Introductionmentioning

confidence: 99%

“…The work in [33] developed a robust UC including frequency stability constraints with a simplified dynamic model representing the frequency response. A similar approach was proposed in [34, 35] to incorporate the analytic frequency deviation into UC while considering a set of scenarios. Using simplified models may reproduce satisfactory frequency responses in a small system, but for a larger, realistic regional grid (e.g.…”

Section: Introductionmentioning

confidence: 99%

PFR ancillary service in low‐inertia power system

Liu¹,

Du²,

Liu

2020

IET Generation, Transmission & Distribution

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“…This has been addressed in [12]- [15] through various forms of linearization of the respective constraint. Additionally, in [15] the state-of-theart converter control schemes of inverter-based generation are included in the system frequency dynamics and virtual inertia units are explicitly considered for inertia provision. [16] and [17] consider the combination of a finite number of frequency response services with different delivery times and a dynamically-reduced largest power in-feed.…”

Section: Introductionmentioning

confidence: 99%

Towards Optimal System Scheduling With Synthetic Inertia Provision From Wind Turbines

Chu

Markovic

Hug

et al. 2020

IEEE Trans. Power Syst.

Self Cite

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The undergoing transition from conventional to converter-interfaced renewable generation leads to significant challenges in maintaining frequency stability due to declining system inertia. In this paper, a novel control framework for Synthetic Inertia (SI) provision from Wind Turbines (WTs) is proposed, which eliminates the secondary frequency dip and allows the dynamics of SI from WTs to be analytically integrated into the system frequency dynamics. Furthermore, analytical system frequency constraints with SI provision from WTs are developed and incorporated into a stochastic system scheduling model, which enables the provision of SI from WTs to be dynamically optimized on a system level. Several case studies are carried out on a Great Britain 2030 power system with different penetration levels of wind generation and inclusion of frequency response requirements in order to assess the performance of the proposed model and analyze the influence of the improved SI control scheme on the potential secondary frequency dip. The results demonstrate that the inclusion of SI provision from WTs into UC can drastically impact the overall system costs.Index Terms-synthetic inertia, frequency response, unit commitment, recovery effect, secondary frequency dip

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Stochastic Unit Commitment in Low-Inertia Grids

Cited by 133 publications

References 18 publications

Modeling Frequency Dynamics in Unit Commitment With a High Share of Renewable Energy

Modeling Frequency Dynamics in Unit Commitment With a High Share of Renewable Energy

PFR ancillary service in low‐inertia power system

Towards Optimal System Scheduling With Synthetic Inertia Provision From Wind Turbines

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