Research and Application of Faster Design Support Technology of Wind Turbine Pitch Bearing

Qing Feng Gao; Yang Wang; Xiao Ming Rui

doi:10.4028/www.scientific.net/AMM.130-134.2855

Paper Titles

Holographic Spectrum in the Remote Rotating Machinery Fault Diagnosis
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Design and Simulation of a Mini Precision Positioning Magnetostrictive Inchworm Linear Motor
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Fault Ride through of Doubly Fed Induction Generator Wind Turbine Based on Supercapacitors Energy Storage
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Research and Application of Faster Design Support Technology of Wind Turbine Pitch Bearing
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Analysis and Optimization of Flexible Supported Drive Train in a Wind Turbine
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Dynamic Analysis of Split Stirling Engine
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An Investigation on Size Distribution of Exhaust Particulate Emitted from Gasoline Engine
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Modeling and Optimizing of Control System with Full-State Feedback and Integral Output Feedback for DC Motor
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 130-134Research and Application of Faster Design Support...

Research and Application of Faster Design Support Technology of Wind Turbine Pitch Bearing

Abstract:

On the basis of intensive study on the characteristics of structure and standards of wind turbine pitch bearing, the paper established the parameters level model of pitch bearing, analyzed the vague relationship between the size of pitch bearing and the capacity of wind turbine and determined the main design parameters of pitch bearing. Via combining open parametric method for part family and parameter-driven technology, this paper also developed a faster design support system of pitch bearing of wind turbine, which effectively cut down repetitive design work and improved the efficiency of design and the reliability of pitch bearing.

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Periodical:

Applied Mechanics and Materials (Volumes 130-134)

Pages:

2855-2860

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.130-134.2855

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Online since:

October 2011

Authors:

Qing Feng Gao, Yang Wang, Xiao Ming Rui

Keywords:

Faster Design, Pitch Bearing, Support System

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References

[1] J. Liu. Fast Expansion of Wind power Completed Two Years Ahead of National Target: submitted to Journal of China Economic Weekly. Vol. 40 (2008), pp.34-36.

Google Scholar

[2] L. Cheng, H.W. Du, J.K. Wu. Brief Description of Wind Turbine Bearings: submitted to Journal of Bearing. Vol. 12 (2008), pp.45-50.

Google Scholar

[3] Machinery Industry Standard of People's Republic of China JB/T10705-2007-Wind Turbine Bearing (Released by National Development and Reform Commission of People's Republic of China).

Google Scholar

[4] M.F. Liao, R. Gasch, J. Twele. in Wind Power Plants, edtied by Northwestern Polytechnical University, Xi'an, China (2009), in press.

Google Scholar

[5] T. Burton, D. Sharpe, N. Jenkins. in Wind Energy Handbook, edtied by John Wiley & Sons Ltd, (2005), in press.

Google Scholar

[6] S.M. Wang, J.H. Wen, H.R. Du. Fretting Wear Analysis of Wind Turbine Pitch Bearings and Determination of Raceway Parameter: submitted to Journal of Bearing. Vol. 6 (2010), pp.9-12.

Google Scholar

[7] X.M. Rui. Fundamentals of a Power Splitting Driving Chain for Large Wind Turbines: submitted to the 7th World Congress on Intelligent Control & Automation. Chongqing, China (2008).

DOI: 10.1109/wcica.2008.4593909

Google Scholar

[8] Q. Wei, Q.F. Gao, L.X. Zhang. An Open Parametric Method for Part Family under Solid Edge Environment: submitted to the Tenth Annual Meeting of China Association for Science Proceedings, Vol. 9 (2008).

Google Scholar