Primary frequency control in future GB power system with high penetration of wind generation
Primary frequency control in future GB power system with high penetration of wind generation
- Author(s): Fei Teng and G. Strbac
- DOI: 10.1049/cp.2016.0539
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- Author(s): Fei Teng and G. Strbac Source: 5th IET International Conference on Renewable Power Generation (RPG 2016), 2016 page ()
- Conference: 5th IET International Conference on Renewable Power Generation (RPG 2016)
- DOI: 10.1049/cp.2016.0539
- ISBN: 978-1-78561-300-5
- Location: London, UK
- Conference date: 21-23 Sept. 2016
- Format: PDF
The system inertia reduction, driven by the integration of renewables, imposes significant challenges on the primary frequency control to maintain the post-fault frequency evolution within the security boundary. Dynamic simulations through a simplified GB power system dynamic model are carried out in this paper to illustrate the impact of declining system inertia on the primary frequency control. This paper also demonstrates the increased requirement on primary frequency response driven by larger online plants and higher penetration of wind generation. Furthermore, an advanced stochastic system scheduling tool is applied to quantify the amount of primary frequency response provision as well as the associated cost and carbon emission under two representative GB 2030 system scenarios.
Inspec keywords: power generation scheduling; power system simulation; power generation control; frequency control; wind power
Subjects: Power system control; Control of electric power systems; Wind power plants; Frequency control; Power system management, operation and economics
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