Architecture and Key Technologies of Intelligent Dispatching Based on Situational Awareness

Sheng Chun Yang; Bi Qiang Tang; Jian Guo Yao; Feng Li; Yi Jun Yu; Shu Hai Feng

doi:10.4028/www.scientific.net/AMM.448-453.2259

Paper Titles

A Research on the Impact of Photovoltaic Power Network-Connected on Power Loss of Distribution Network
p.2239

Smart Grid Support the Development of Intelligent Energy Public Service Platform
p.2245

Stress Monitoring Research in Dancing Condition of Transmission Tower Based on FBG Sensors
p.2249

A New Method to Detect Voltage Sag Based on Wavelet Energy Entropy
p.2254

Architecture and Key Technologies of Intelligent Dispatching Based on Situational Awareness
p.2259

A Novel Algorithm of Energy Savings for Transformer Renovation and Replacement Project
p.2266

Research of Fault Type of Transformer Winding Based on Frequency Response Analysis
p.2270

Risk Assessment of Power Transformer Based on FTA, FAHP and GA
p.2274

FEM Simulation of PD Acoustic Signal Propagation in Transformers
p.2278

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 448-453Architecture and Key Technologies of Intelligent...

Architecture and Key Technologies of Intelligent Dispatching Based on Situational Awareness

Abstract:

With the construction of UHV power grid, integration of large-scale renewable clean energy, and large-scale energy base putting into operation, the power grid dispatching faced with more and more complex challenges. On the basis of existing research results, architecture of intelligent dispatching based on situation awareness is proposed, so as to accurately achieve prevention and control of the power system. The shortcomings of traditional dispatching mode are analyzed firstly, and the concepts and characterization approaches of grid situational awareness and operation state trajectory of power grid are then introduced. The overall objective of intelligent dispatching is presented, including data processing and integrated knowledge mining, predictive perception of grid operation, risk analysis and comprehensive early warning, so as to achieve "automatic cruise under normal operating conditions, automatic navigation under abnormal operating conditions ". The functional framework of intelligent dispatching is also proposed in details, including four major aspects of the perception and forecasts, risk analysis, decision-making support, and automatic control, as well as three supporting functions such as post-assessment of dispatching, trajectory index calculation, and human-computer interaction (HCI).Technical innovations to support automatic intelligent dispatching are discussed and organised in three levels, i.e. perception, comprehension and projection. The breakthroughs are: construction of index system, trajectory recognition based on massive information and knowledge mining, trajectory projection taking into accounts the uncertainties, online risk assessment and early warning, power grid intelligent decision-making support, automatic coordination of grid operation control, online assessment, natural human-computer interaction mode, and etc... These are the future research areas of automatic intelligent dispatching.

You might also be interested in these eBooks

Renewable Energy and Environmental Technology

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volumes 448-453)

Pages:

2259-2265

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.448-453.2259

Citation:

Cite this paper

Online since:

October 2013

Authors:

Sheng Chun Yang*, Bi Qiang Tang, Jian Guo Yao, Feng Li, Yi Jun Yu, Shu Hai Feng

Keywords:

Automatic Dispatching, Intelligent Dispatching, Operation State Trajectory of Power Grid, Power System, Situation Awareness, Smart Control Center

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] State Grid Corporation of China. Establishment of strong and smart grid, in 2020 [EB/OL]. [2009-05-21]. http: /www. sgcc. com. cn/ (In Chinese).

Google Scholar

[2] China Southern Power Grid Co. Development and strategy of china southern power grid in the new Five Year Plan, [EB/OL]. [2011-02-03]. http: /www. csg. cn/ (In Chinese).

Google Scholar

[3] T. E. Dyliacco, Enhancing power system security control, IEEE Computer Applications in Power, vol. 10, no. 3, p.38–41, (1997).

Google Scholar

[4] EPRI. IntelliGrid: smart power for the 21st century [R]. Palo Alto. USA: EPRI. (2006).

Google Scholar

[5] Andrew L. Ott. Development of Smart Dispatch Tools in the PJM Market, Proceedings of IEEE Power and Energy Society General Meeting, p.1–3, (2011).

DOI: 10.1109/pes.2011.6039252

Google Scholar

[6] Y. Chen, Z. Huang, N. Zhou, An advanced framework for improving situational awareness in electric power grid operation, Proceedings of 18th world congress of IFAC, p.13344–13352, (2011).

DOI: 10.3182/20110828-6-it-1002.03381

Google Scholar

[7] J. Yao, S. Yang, Z. Gao, et al, Development trend prospects of power dispatching automation system, Automation of Electric Power Systems, vol. 31, no. 13, p.7–11, 2007 (In Chinese).

Google Scholar

[8] J. Yao, S. Yan, S. Yang, et al. Practice and prospects of intelligent dispatch with Chinese characteristics, Automation of Electric Power Systems, vol. 33, no. 17, p.16–20, 2009 (In Chinese).

Google Scholar

[9] Q. Lu, X. Qi, G. He, Smart grid and smart wide area robot, Proceedings of the CSEE, vol. 31, no. 10, p.1–5, 2011 (In Chinese).

Google Scholar

[10] B. Zhang, H. Sun, W. Wu, New generation of EMS with 3-dimensional coordination, Automation of Electric Power Systems, vol. 31, no. 13, p.1–6, 2007 (In Chinese).

Google Scholar

[11] M. Zhang and Q. Lu, A speculation on hybrid control system of super-EMS of China southern power grid, Power System Technology, vol. 31, no. 18, p.5–9, 2007 (In Chinese).

Google Scholar

[12] J. Zhao and Y. Xue, Design of blackout defense framework for China southern power grid, Southern Power System Technology, vol. 2, no. 1, p.1–7, 2008 (In Chinese).

Google Scholar

[13] G. Shen, J. Liu, G. Chen, et al, Key technologies for UHV dispatching operation support system, , Power System Technology, vol. 33, no. 20, pp.33-37, 2009 (In Chinese).

Google Scholar

[14] The establishment of dispatching technical support system for state grid corporation of china, Telecommunications for Electric Power System, vol. 31, no. 1, p.53, 2011 (In Chinese).

Google Scholar

[15] Batalla E. Recommendations for situational awareness. Fort Lau-derdale, USA: RTBPTF, (2006).

Google Scholar