TITLE:
Research on Multi-Scale Modeling of Grid-Connected Distributed Photovoltaic Power Generation
AUTHORS:
Chen Lv, Wanxing Sheng, Keyan Liu, Xinzhou Dong
KEYWORDS:
PV, Distributed Generation, Multi-Scale Modeling, Simulation Step Size, Output Power, Voltage Profile
JOURNAL NAME:
Energy and Power Engineering,
Vol.9 No.4B,
April
6,
2017
ABSTRACT:
The complexity of distribution network model mainly depends on the model scale of grid-connected distributed photovoltaic (PV) power generation. Therefore, the simulation performance of multi-scale PV model is the key factor of the simulation accuracy in the specific operating scenarios of distribution network. In this paper, a multi-scale model of grid connected PV distributed generation system is proposed based on the mathematical model of grid-connected distributed PV power generation. It is analyzed that differences of simulation performance, such as adaptability of simulation step size, accuracy of output and the effect on voltage profile of distribution network, between PV models with different scales in IEEE 33 node example. Simulation results indicate that the multi-scale model is effective in improving the accuracy and efficiency of simulation under different operating conditions of distribution network.