Distributed Modeling Technology for Large Power Grid Modeling Based on Cloud Computing

Rong Chang Yuan; Zian Wang; Li Xin Li; Fang Chun Di; Zhi Xiang Ji; Jiao Dai

doi:10.4028/www.scientific.net/AMM.448-453.2721

Paper Titles

A Method of Data Integration Check Based on Online Operation Data of Large-Scale Power System
p.2699

Research on Constructing the Economic Evaluation of Distributed Energy System
p.2703

Economic Analysis of Micro Grid Operation in Energy Self-Balance Mode
p.2709

Connotation and Research Areas of Coordinated Development of Power Supply, Load and Power Grid in Sichuan
p.2717

Distributed Modeling Technology for Large Power Grid Modeling Based on Cloud Computing
p.2721

Multi-Dimensional Model Version Management System Based on Model Cloud Technology
p.2730

The Combined Generation-Consumption Scheduling Mode Considering Price-Responsive and Interruptible Loads
p.2740

A Novel Reconfiguration Strategy for Active Distribution Network Considering Maximum Power Supply Capability
p.2747

Post-Evaluation of Electric Power Construction Project Based on Grey Rough Set
p.2753

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 448-453Distributed Modeling Technology for Large Power...

Distributed Modeling Technology for Large Power Grid Modeling Based on Cloud Computing

Abstract:

As the original grid model cant meet the needs of smart grid development, a distributed grid modeling and integrated management technologies based on cloud computing are proposed in this paper. In this scheme, a multi-level integrated "model cloud" is developed with horizontal collaboration and vertical cut-through using cloud storage, cloud services, cloud computing and other related technologies. The grid models of levels of dispatching institutions are gathered, stored and managed with unified model service. The scheme can dress the issues of device naming, information sharing, model exchanging and model unifying, reduce the maintenance workload, improve the quality of the model and the degree of coordinated automation and enhance the level of dispatching and analysis of the whole power grid.

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Periodical:

Applied Mechanics and Materials (Volumes 448-453)

Pages:

2721-2729

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.448-453.2721

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Online since:

October 2013

Authors:

Rong Chang Yuan*, Zian Wang, Li Xin Li, Fang Chun Di, Zhi Xiang Ji, Jiao Dai

Keywords:

Cloud Computing, Distributed Modeling, Integration, Model Management

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* - Corresponding Author

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