Summary and Analysis on the Low Voltage Ride through Reformation of the Wind Power Turbine

Gui Xin Hou; Qi Hui Liu; Fang Yu; Ying Li

doi:10.4028/www.scientific.net/AMR.608-609.781

Paper Titles

Modeling and Simulation of the Impact of Wind Power Integration on Power Market Based on System Dynamics
p.759

Short-Term Wind Speed Combination Prediction Model of Neural Network and Time Series
p.764

Research on Single Neuron Adaptive PID Control for MPPT of Wind Power System Using Switched Reluctance Generator
p.770

Analysis of Aerodynamic Performance for Wind Turbine Based on Amended Calculation of BEM Theory
p.775

Summary and Analysis on the Low Voltage Ride through Reformation of the Wind Power Turbine
p.781

A Novel Fuzzy Self-Adaption PI Control Method of the Var Compensation of Wind Generator
p.785

Adequacy Evaluation of Wind-PV-ES Hybrid Power System
p.790

Study on the Active Power Output Control of Wind Energy for Power Balance
p.796

Practical Calculation Method of Downburst Wind Profiles for Engineering Applications
p.803

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 608-609Summary and Analysis on the Low Voltage Ride...

Summary and Analysis on the Low Voltage Ride through Reformation of the Wind Power Turbine

Abstract:

As the increasing of the wind power capability， in order to ensure the stability of the grid while the voltage dips， the LVRT ability of the wind power turbine has become necessary. Realizing LVRT， is not only the question the built and will build wind power system are facing, but also the challenge of the will build and operating ones. Actually, many connected operating wind power system can’t meet the LVRT, this is why the large scale wind power off-grid events happened frequently, so the reformation of the wind power system LVRT is an emergency question to be solved. This paper introduced the main methods for LVRT reformation, based on this, some LVRT reform equipment was summarized for the wind turbine; and further, some reform methods were introduced for wind farm.

You might also be interested in these eBooks

Progress in Renewable and Sustainable Energy

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 608-609)

Pages:

781-784

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.608-609.781

Citation:

Cite this paper

Online since:

December 2012

Authors:

Gui Xin Hou, Qi Hui Liu, Fang Yu, Ying Li

Keywords:

Grid Fault, LVRT Reformation, Wind Farm, Wind Power Turbine

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Wang Yun，Zhao Dong-li，Zhao Bin，Xu Hong-hua. "A Review of Research Status on LVRT Technology in Doubly-fed Wind Turbine Generator System[J]," Electrical and Control Engineering (ICECE), pp.4948-4953, 25-27 June,2010.

DOI: 10.1109/icece.2010.1197

Google Scholar

[2] Mohseni, M., Masoum, M.A.S., Islam, S.M. "Low voltage ride-through of DFIG wind turbines complying with Western-Power grid code in Australia[J]," Power and Energy Society General Meeting, pp.1-8, 24-29 July, 2011.

DOI: 10.1109/pes.2011.6039227

Google Scholar

[3] HU Shu-ju, ZHAO Dong-li, ZHAO Bin, XU Hong-hua, "Experimental Research on LVRT Capability of DFIG Wind Turbine[J]," High Voltage Engineering, Vol.36(03), pp.789-795,2010.

Google Scholar

[4] LIU Guang-dong, GAO Ning, WANG Dong, ZHAO Shuang-xi, "Reaserch on Low Voltage Ride Through Technology on Direct-drive Wind Turbine[J]," Power Electronics, Vol.46(03), pp.27-29,2012.

Google Scholar

[5] "Wind power safety supervision report[R]," http://www.gov.cn/ gzd t/2011-12/02/content_2009290.htm.

Google Scholar

[6] He Shi-en, Dong Xin-zhou, "Cause analysis on large-scale wind turbine tripping and its countermeasures[J]," Power System Protection and Control, Vol.40(1), pp.131-137,2012.

Google Scholar

[7] "Wind power grid-connected operation elements anti-accident measures[Z]," 2011.

Google Scholar

[8] "D-VAR System Overview[R]," 2010.

Google Scholar

[9] "The Equalizer TURBO The Ultimate Sag Solution[Z]," 2009.

Google Scholar

[10] "The introduction of the LVRT reformation equipment 900[R]," (2011)

Google Scholar

[11] "Technical information low voltage ride-through (LVRT) Equipment[Z]," 2009.

Google Scholar