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Erschienen in:
Fundamentals of More-Electronics Power Systems Kapitel lesen Erstes Kapitel lesen

2021 | OriginalPaper | Buchkapitel

5. Stability Improvement Techniques

verfasst von : Jingyang Fang

Erschienen in: More-Electronics Power Systems: Power Quality and Stability

Verlag: Springer Singapore

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Abstract

This chapter introduces stability improvement techniques in more-electronics power systems. In particular, the chapter focuses on power electronic-based improvement techniques. For converter-level stability problems, solutions or improvement techniques are mainly classified into proper controller design, time-delay reduction, weak grid techniques, and power quality conditioning. For system-level stability problems, improvement techniques mainly aim to balance active power through damping and inertia enhancement, while reactive power compensation is briefly revisited.

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Vorheriges Kapitel Stability Problems
Literatur
1.
Kundur P (1994) Power system stability and control. McGraw-Hill, New York, NY, USA
2.
Channegowda P, John V (2010) Filter optimization for grid interactive voltage source inverters. IEEE Trans Ind Electron 57(12):4106–4114CrossRef
3.
Fang J, Li X, Yang X, Tang Y (2017) An integrated trap−LCL filter with reduced current harmonics for grid-connected converters under weak grid conditions. IEEE Trans Power Electron 32(11):8446–8457CrossRef
4.
Fang J, Lin P, Li H, Yang Y, Tang Y (2019) An improved virtual inertia control for three-phase voltage source converters connected to a weak grid. IEEE Trans Power Electron 34(9):8660–8670CrossRef
5.
Fang J, Zhang R, Li H, Tang Y (2019) Frequency derivative-based inertia enhancement by grid-connected power converters with a frequency-locked-loop. IEEE Trans Smart Grid 10(5):4918–4927CrossRef
6.
Dorfler F, Simpson-Porco JW, Bullo F (2016) Breaking the hierarchy: distributed control and economic optimality in microgrids. IEEE Trans Control Netw Syst 3(3):241–253MathSciNetCrossRef
7.
Guerrero JM, Vasquez JC, Matas J, Vicuna LG, Castilla M (2011) Hierarchical control of droop-controlled AC and DC microgrids–a general approach toward standardization. IEEE Trans Ind Electron 58(1):158–172CrossRef
8.
Fang J, Xiao G, Yang X, Tang Y (2017) Parameter design of a novel series-parallel-resonant LCL filter for single-phase half-bridge active power filters. IEEE Trans Power Electron 32(1):200–217CrossRef
9.
Maccari LA, Massing JR, Schuch L, Rech C, Pinheiro H, Oliveira RCLF et al (2014) LMI-based control for grid-connected converters with LCL filters under uncertain parameters. IEEE Trans Power Electron 29:3776–3785CrossRef
10.
Fang J, Deng H, Goetz SM (2020) Grid impedance estimation through grid-forming power converters. IEEE Trans Power Electron (in press)
11.
Kalman RE (1960) A new approach to linear filtering and prediction problems. Trans ASME J Basic Eng 82:34–45MathSciNet
12.
Welch G, Bishop G (2004) An introduction to the Kalman filter. University North Carolina, Chapel Hill, USA, Tech. Rep. TR 95-041.
13.
Fang J, Li X, Li H, Tang Y (2018) Stability improvement for three-phase grid-connected converters through impedance reshaping in quadrature-axis. IEEE Trans Power Electron 33(10):8365–8375CrossRef
14.
Fang J, Li H, Tang Y, Blaabjerg F (2018) Distributed power system virtual inertia implemented by grid-connected power converters. IEEE Trans Power Electron 33(10):8488–8499CrossRef
15.
Fang J, Tang Y, Li H, Li X (2018) A battery/ultracapacitor hybrid energy storage system for implementing the power management of virtual synchronous generators. IEEE Trans Power Electron 33(4):2820–2824CrossRef
16.
Fang J, Li H, Tang Y, Blaabjerg F (2019) On the inertia of future more-electronics power systems. IEEE J Emerg Sel Topics Power Electron 7(4):2130–2146CrossRef
17.
Yang S, Fang J, Tang Y, Qiu H, Dong C, Wang P (2019) Modular multilevel converter synthetic inertia-based frequency support for medium-voltage microgrids. IEEE Trans Ind Electron 66(11):8992–9002CrossRef
18.
Qiu H, Fang J, Tang Y (2018) Explore the capability of power electronic converters in providing power system virtual inertia. In: Proceedings of the IEEE ECCE, Portland, Oregon, USA, 23–27 Sept 2018
19.
Zhang Z, Fang J, Tang Y (2019) A hybrid AC/DC microgrid with bidirectional virtual inertia support. In: Proceedings of the IEEE IFEEC, Singapore, 25–28 Nov 2019
20.
Lu N, Fang J, Tang Y, Hredzak B (2019) A frequency deadband-based virtual inertia control for grid-connected power converters. In: Proceedings of the ICPE 2019-ECCE Asia, Bexco, Busan, Korea, 27–30 May 2019
21.
Guo K, Fang J, Tang Y (2018) Autonomous DC-link voltage restoration for grid-connected power converters providing virtual inertia. In: Proceedings of the IEEE ECCE, Portland, Oregon, USA, 23–27 Sept 2018
22.
Zhang R, Fang J, Tang Y (2019) Inertia emulation through supercapacitor energy storage systems. In: Proceedings of the ICPE 2019-ECCE Asia, Bexco, Busan, Korea, 27–30 May 2019
23.
AEMO (2017) International review of frequency control adaptation. Aust. Energy Market Operator, Melbourne, VIC, Australia
Metadaten
Titel
Stability Improvement Techniques
verfasst von
Jingyang Fang
Copyright-Jahr
2021
Verlag
Springer Singapore
Buch
More-Electronics Power Systems: Power Quality and Stability

Print ISBN: 978-981-15-8589-0

Electronic ISBN: 978-981-15-8590-6

Copyright-Jahr: 2021

DOI
https://doi.org/10.1007/978-981-15-8590-6_5

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