Optimization of transient stability control part-II: For cases with different unstable modes

Yusheng Xue; Wei Li; David John Hill

Optimization of transient stability control part-II: For cases with different unstable modes

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Abstract

Part-I of this two-part paper develops an optimal algorithm for transient stability control to coordinate the preventive actions and emergency actions for a subset of contingencies with an identical unstable mode. In this portion, several subsets of contingencies having dissimilar unstable modes are dealt with. Preventive actions benefiting a subset of contingencies may go against the stability of others, thus coordination among the optimal schemes for individual subsets is necessary. The coordination can be achieved by replacing some preventive actions with contingency-specified emergency actions. It is formulated as a classical model of economic dispatch with stability constraints and stability control costs. Such an optimal algorithm is proposed based on the algorithm in Part-I of the paper and is verified by simulations on a Chinese power system.

Original language	English
Pages (from-to)	341-345
Number of pages	5
Journal	International Journal of Control, Automation and Systems
Volume	3
Issue number	2 SPEC. ISS.
Publication status	Published - Jun 2005
Externally published	Yes

Keywords

Extended equal area criterion (EEAC)
Nonlinear mixed programming
Optimization
Power systems
Transient stability control

Cite this

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title = "Optimization of transient stability control part-II: For cases with different unstable modes",

abstract = "Part-I of this two-part paper develops an optimal algorithm for transient stability control to coordinate the preventive actions and emergency actions for a subset of contingencies with an identical unstable mode. In this portion, several subsets of contingencies having dissimilar unstable modes are dealt with. Preventive actions benefiting a subset of contingencies may go against the stability of others, thus coordination among the optimal schemes for individual subsets is necessary. The coordination can be achieved by replacing some preventive actions with contingency-specified emergency actions. It is formulated as a classical model of economic dispatch with stability constraints and stability control costs. Such an optimal algorithm is proposed based on the algorithm in Part-I of the paper and is verified by simulations on a Chinese power system.",

keywords = "Extended equal area criterion (EEAC), Nonlinear mixed programming, Optimization, Power systems, Transient stability control",

author = "Yusheng Xue and Wei Li and Hill, {David John}",

year = "2005",

month = jun,

language = "English",

volume = "3",

pages = "341--345",

journal = "International Journal of Control, Automation and Systems",

issn = "1598-6446",

publisher = "Springer-Verlag London Ltd.",

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TY - JOUR

T1 - Optimization of transient stability control part-II

T2 - For cases with different unstable modes

AU - Xue, Yusheng

AU - Li, Wei

AU - Hill, David John

PY - 2005/6

Y1 - 2005/6

N2 - Part-I of this two-part paper develops an optimal algorithm for transient stability control to coordinate the preventive actions and emergency actions for a subset of contingencies with an identical unstable mode. In this portion, several subsets of contingencies having dissimilar unstable modes are dealt with. Preventive actions benefiting a subset of contingencies may go against the stability of others, thus coordination among the optimal schemes for individual subsets is necessary. The coordination can be achieved by replacing some preventive actions with contingency-specified emergency actions. It is formulated as a classical model of economic dispatch with stability constraints and stability control costs. Such an optimal algorithm is proposed based on the algorithm in Part-I of the paper and is verified by simulations on a Chinese power system.

AB - Part-I of this two-part paper develops an optimal algorithm for transient stability control to coordinate the preventive actions and emergency actions for a subset of contingencies with an identical unstable mode. In this portion, several subsets of contingencies having dissimilar unstable modes are dealt with. Preventive actions benefiting a subset of contingencies may go against the stability of others, thus coordination among the optimal schemes for individual subsets is necessary. The coordination can be achieved by replacing some preventive actions with contingency-specified emergency actions. It is formulated as a classical model of economic dispatch with stability constraints and stability control costs. Such an optimal algorithm is proposed based on the algorithm in Part-I of the paper and is verified by simulations on a Chinese power system.

KW - Extended equal area criterion (EEAC)

KW - Nonlinear mixed programming

KW - Optimization

KW - Power systems

KW - Transient stability control

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M3 - Article

AN - SCOPUS:20844447653

SN - 1598-6446

VL - 3

SP - 341

EP - 345

JO - International Journal of Control, Automation and Systems

JF - International Journal of Control, Automation and Systems

IS - 2 SPEC. ISS.

ER -

Optimization of transient stability control part-II: For cases with different unstable modes

Abstract

Keywords

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