Research of Bidirectional Power Flow Algorithm of Micro-Grid Based on the Improved Zbus Method

Cai Lian Gu; Jian Wei Ji; Li Liu; Ao Ran Xu

doi:10.4028/www.scientific.net/AMR.1070-1072.253

Paper Titles

Equivalent P-v Model of Wind Farm Based on Measured Data
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Generator-Side Converter Control Strategies of Synchronous Wind Turbines Based on the MPPT
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Optimization of Large Scale Energy Storage System for Relaxing Wind Power Centralized Transmission Bottlenecks
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Regional Wind Energy Resource Forecasting Based on SVD and Support Vector Machine
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Research of Bidirectional Power Flow Algorithm of Micro-Grid Based on the Improved Zbus Method
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Research on Short-Circuit Current of Wind Power System and its Impact on Relay Protection
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Sharing of Unbalanced Loads in an Isolated Distributed Generation System with Droop Controlled Doubly Fed Induction Generator
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Study on Identification of Wind Turbine Power Characteristic Curve by Genetic Algorithm
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Study on Transient Stability Simulation of District Grid Containing High Proportion of Wind Power
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 1070-1072Research of Bidirectional Power Flow Algorithm of...

Research of Bidirectional Power Flow Algorithm of Micro-Grid Based on the Improved Zbus Method

Abstract:

Themicro-grid technology is an effective way to promote renewable energydevelopment and utilization. Low voltage micro-grid can absorb photovoltaic,wind power and other large number of scattered random distributed power supply,and the system may be three-phase asymmetry while operation, randomness of thepower output and load is stronger. Therefore an improved bidirectional power flow algorithm is putforward suitable for low voltage micro-grid. According to the physicalstructure components of the micro-grid and different kinds of micro powersupply, the types of micro-grid in power flow calculation is studied to dealwith complex node in the micro-grid, improved Zbus algorithm is proposed tocalculate the power flow of micro -grid .IEEE-69 is taken as an example for simulation, the resultsshow that the proposed method is better for the biggest error ratio of voltagedrop and calculation time than traditional method. Atthe same time the algorithm is also suitable for island operation state of the microgrid.