Your search keyword '"WANG Jinning"' showing total 2 results

1. DiME and AGVis: A Distributed Messaging Environment and Geographical Visualizer for Large-scale Power System Simulation

Author

Parsly, Nicholas, Wang, Jinning, West, Nick, Zhang, Qiwei, Cui, Hantao, Li, Fangxing, Parsly, Nicholas, Wang, Jinning, West, Nick, Zhang, Qiwei, Cui, Hantao, and Li, Fangxing

Abstract

This paper introduces the messaging environment and the geographical visualization tool of the CURENT Large-scale Testbed (LTB) that can be used for large-scale power system closed-loop simulation. First, Distributed Messaging Environment (DiME) implements an asynchronous shared workspace to enable high-concurrent data exchange. Second, Another Grid Visualizer (AGVis) is presented as a geovisualization tool that facilitates the visualization of real-time power system simulation. Third, case studies show the use of DiME and AGVis. The results demonstrate that, with the modular structure, the LTB is capable of not only federal use for real-time, large-scale power system simulation, but also independent use for customized power system research., Comment: 5 pages, 7 figures, conference

Published

2022

2. Decentralized and Coordinated Vf Control for Islanded Microgrids Considering DER Inadequacy and Demand Control

Author

She, Buxin, Li, Fangxing, Cui, Hantao, Wang, Jinning, Min, Liang, Snapps, Oroghene Oboreh, Bo, Rui, She, Buxin, Li, Fangxing, Cui, Hantao, Wang, Jinning, Min, Liang, Snapps, Oroghene Oboreh, and Bo, Rui

Abstract

This paper proposes a decentralized and coordinated voltage and frequency (Vf) control framework for islanded microgrids, with full consideration of the limited capacity of distributed energy resources (DERs) and Vf dependent load. First, the concept of DER inadequacy is illustrated with the challenges it poses. Then, a decentralized and coordinated control framework is proposed to regulate the output of inverter based generations and reallocate limited DER capacity for Vf control. The control framework is composed of a power regulator and a Vf regulator, which generates the supplementary signals for the primary controller. The power regulator regulates the output of grid forming inverters according to the real time capacity constraints of DERs, while the Vf regulator improves the Vf deviation by leveraging the load sensitivity to Vf. Next, the static feasibility and small signal stability of the proposed method are rigorously proven through mathematical formulation and eigenvalue analysis. Finally, a MATLAB Simulink simulation demonstrates the functionalities of the control framework. A few goals are fulfilled within the decentralized and coordinated framework, such as making the best use of limited DERs capacity, enhancing the DC side stability of inverter based generations, and reducing involuntary load shedding.

Published

2022