Education, Science, Technology, Innovation and Life
Open Access
Sign In

Research on Power Electronics Technology in Modern Power Grid

Download as PDF

DOI: 10.23977/jpemd.2019.11001 | Downloads: 3 | Views: 32

Author(s)

HU Guan-qiu 1, Wang Hang 2, Zhu Meng 3

Affiliation(s)

1 Shool of Electrical and Electronic Engineering ,Harbin University of Science and Technology, Harbin 150080,China
2 Hua-xin of Yixing,Pumped storage energy co. LTD ,Jiangsu 214200,China
3 State grid's power company huantai of shandong province power supply company,Shandong 256400,China.

Corresponding Author

HU Guan-qiu

ABSTRACT

Power electronics technology is a technology that uses power semiconductor devices to transform and control power. It is a new and applied subject that integrates electronic technology, control branch technology and power technology. Power electronics technology is mainly manifested in energy saving, material saving, automation, intellectualization and electromechanical breakdown. It meets the requirements of sustainable development and facilitates people's life. Now, it is developing towards high-frequency application technology, modularization of hardware structure, digitization of control technology and greening of product performance. The application of modern electronic power technology has brought new opportunities to China's economy and greatly separated China's comprehensive national strength.

KEYWORDS

modern power grid; power electronics; flexible AC transmission system; power quality; energy conversion

CITE THIS PAPER

HU Guan-qiu ,Wang Hang ,Zhu Meng , Research on Power Electronics Technology in Modern Power Grid. Journal of Power Electronics, Machines and Drives (2019) Vol. 1: 1-5. DOI: http://dx.doi.org/10.23977/jpemd.2019.11001.

REFERENCES

[1] Liang Jingdang. Application of Power Electronics Technology in Smart Grid [J]. Power Electronics, 2015 (4): 162.
[2] Xia Yuyang. Talking about the future development direction of smart grid [J]. Intelligent Science and Technology Journal, 2016 (2): 81.
[3] Liu Haipeng. Development of Power Electronics Technology and Smart Grid Process [J]. Power Grid Technology Forum 2015 (17)
[4] Zhang Zetian. Communication technology of power electronics under the framework of smart grid [J]. Communication technology 2016 (15): 212-214.
[5] Zhou Bing, Bai Jiancheng, Cai Rong, Tong Yibin. Design and implementation of hardware-in-the-loop simulation platform for microgrid [J]. Power electronics technology. 2013 (02).
[6] Ma Junchao, Kong Fei, He Fanbo and Zhao Zhengsheng. An energy management strategy for microgrid system with photovoltaic power supply  [J]. Power electronics technology. 2012 (10).
[7] Zhang Chunjiang, Bian Zhizhong, Meng Xiaomai, Guo Zhongnan. Modeling and stability analysis of autonomous microgrid based on droop control [J]. Power electronics technology. 2012 (10)
[8] Zhou Haibo. Application of Power Electronics Technology in Smart Grid [J]. Electronic Fabrication. 2014 (16).
[9] Zang Chunyan, Pei Zhenjiang, Gou Ruifeng, Zhu Jing, Sun Wei. Smart Grid and Modern Power Electronics Technology [J]. Electrical Applications. 2010 (13).
[10] Ni Shilong. Application of Power Electronics Technology in Smart Grid [J]. Electronic World. 2018 (03).
[11] Si Baoyu. Application of Power Electronics Technology in Smart Grid [J]. Electronic Technology and Software Engineering. 2018 (14)

Downloads: 3
Visits: 32

Sponsors, Associates, and Links


All published work is licensed under a Creative Commons Attribution 4.0 International License.

Copyright © 2016 - 2031 Clausius Scientific Press Inc. All Rights Reserved.