The Influence and Countermeasures Research of Large-Scale Distributed Photovoltaic Access to the Distribution Network

Jing Chao Zhang; Zheng Gang Wang; Feng Zhen Zhou; Ning Xi Song; Qian Wang

doi:10.4028/www.scientific.net/AMR.953-954.61

Paper Titles

Design and Investigation of Dual Grating Periodic Structure Thin-Film Solar Cell
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Improved Golden Section Application in Maximum Power Point Tracking of Photovoltaic Power Generation
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Investigation on Influence of Solar Radiation on Performance of Solar Adsorption Refrigeration System
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The Influence and Countermeasures Research of Large-Scale Distributed Photovoltaic Access to the Distribution Network
p.61

Design of a Solar Assisted Absorption Refrigeration System
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Optimization Design and Simulation Study of a CPC for LFR System
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Research on the Maximum Penetration Level of Grid-Connected PV in Distribution Network Taking into Account On-Load-Changing of the Transformer
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Research Status and Prospect of Dish-Stirling System
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 953-954The Influence and Countermeasures Research of...

The Influence and Countermeasures Research of Large-Scale Distributed Photovoltaic Access to the Distribution Network

Abstract:

In recent years, with the gradual depletion of traditional energy, as renewable energy representatives, new energy has developed rapidly. We know that distributed photovoltaic power generation with clean, pollution-free, easy installation, and therefore has been rapid development. However, the large number of distributed photovoltaic power generation connected to the distribution network would have a negative impact on the grid with a safe and reliable operation because of its randomness and volatility intrinsic properties. In this paper, in terms of power flow, voltage distribution, load characteristics, power quality, system protection and reliability departure, through MATLAB simulation analysis, the distribution network transformation strategies of primary and secondary devices has been proposed. It laid an important foundation for renewable energy development and the Third Industrial Revolution.

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Periodical:

Advanced Materials Research (Volumes 953-954)

Pages:

61-65

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.953-954.61

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Online since:

June 2014

Authors:

Jing Chao Zhang, Zheng Gang Wang, Feng Zhen Zhou, Ning Xi Song, Qian Wang*

Keywords:

Distributed Photovoltaic Power, Distribution Network, Influence, Power Flow, Reform Strategy, Voltage Distribution

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References

[1] Chen Haimiao, Duan Xianzhong, Chen Jinfu. The impact of static voltage stability of distributed generation on distribution network [J], Power System Technology, 2006(19).

DOI: 10.1109/pes.2006.1709198

Google Scholar

[2] Wang Zhiqun, Zhu Shouzhen. The influence of distributed generation on distribution network voltage distribution [J], power system automation, 2004(16).

Google Scholar

[3] Liang Caihao, Duan Xianzhong. Distributed generation and its impact on power system [J], power system automation, 2001(12).

Google Scholar

[4] Cui Hong, Xia Chengjun. The influence of distributed power grid on the distribution network system[J], Electrotechnical Application, 2009(24).

Google Scholar

[5] Liu Zhenya. Smart grid technology[M]. Bei jing: China Electric Power Press, 2010(4).

Google Scholar