Paper Info
Title
Power flow calculation considering power exchange control for multi-area interconnection power networks.
Abstract
Base on the power flow formulations, a new power flow model that allows for power exchanges among subareas of network and automation generation control in each subarea, is established. The proposed power flow model is rendering by unified newton iteration formulation. Parameters representing the level or allocation of the unbalancing power are introduced to indicate the performance of the generators that participate in the automation generation control. The power exchange formulations for subareas are derived from the power flow equations of the interconnected branches. The Newton iteration method is used to solve the equations that consist of node power injection equations and interconnected power equations. Because of the consideration of the power balance in each subarea and the order of power exchange, the presented method is applicable for power flow problems of interconnected power networks, and is in particular applicable for the system analysis and calculation that based on the uniform iteration formulation. Case studies of IEEE 5 bus test system and IEEE RTS96 system illustrate the efficiency and the convergence of the proposed method.
Year
Venue
Keywords
2016
IEEE Industry Applications Society Annual Meeting
Power system analysis computing,Power system interconnection,Power system control,Power transmission,Power flow
Field
DocType
ISSN
Convergence (routing),Power-flow study,Power optimization,Control theory,Maximum power point tracking,Automation,Control engineering,Engineering,Power Balance,Power transmission,Newton's method
Conference
0197-2618
Citations 
PageRank 
References 
0
0.34
0
Authors
6
Name
Order
Citations
PageRank
Xiaoming Dong110.69
Yuanyuan Ding230315.04
Penghui Zhao300.34
Chengfu Wang400.34
Yong Wang500.34
Hua Sun600.34