Probabilistic Performance of Helical Compound Planetary System in Wind Turbine

Author:

Alemayehu Fisseha M.1,Ekwaro-Osire Stephen2

Affiliation:

1. Department of Mechanical Engineering, Texas Tech University, Lubbock, TX 79409 e-mails: ;

2. Department of Mechanical Engineering, Whitacre College of Engineering, Texas Tech University, Lubbock, TX 79409 e-mail:

Abstract

The dynamics of contact, stress and failure analysis of multibody systems is highly nonlinear. Nowadays, several commercial and other analysis software dedicated for this purpose are available. However, these codes do not consider the uncertainty involved in loading, design, and assembly parameters. One of these systems with a combined high nonlinearity and uncertainty of parameters is the gearbox of wind turbines (WTs). Wind turbine gearboxes (WTG) are subjected to variable torsional and nontorsional loads. In addition, the manufacturing and assembly process of these devices results in uncertainty of the design parameters of the system. These gearboxes are reported to fail in their early life of operation, within three to seven years as opposed to the expected twenty years of operation. Their downtime and maintenance process is the most costly of any failure of subassembly of WTs. The objective of this work is to perform a probabilistic multibody dynamic analysis (PMBDA) of a helical compound planetary stage of a selected wind turbine gearbox that considers ten random variables: two loading (the rotor speed, generator side torque), and eight design parameters. The reliability or probabilities of failure of each gear and probabilistic sensitivities of the input variables toward two performance functions have been measured and conclusions have been drawn. The results revealed that PMBDA has demonstrated a new approach of gear system design beyond a traditional deterministic approach. The method demonstrated the components' reliability or probability of failure and sensitivity results that will be used as a tool for designers to make sound decisions.

Publisher

ASME International

Subject

Applied Mathematics,Mechanical Engineering,Control and Systems Engineering,Applied Mathematics,Mechanical Engineering,Control and Systems Engineering

Reference37 articles.

1. Lewis, W., 1893, “Investigations of the Strength of Gear Teeth,” Proceedings of the Engineers Club of Philadelphia, Philadelphia, PA, pp. 16–23.

2. Musial, W., Butterfield, S., and McNiff, B., 2007, “Improving Wind Turbine Gearbox Reliability,” European Wind Energy Conference, Milan, Italy.

3. Gearbox Modeling and Load Simulation of a Baseline 750-kW Wind Turbine Using State-of-the-Art Simulation Codes,2009

4. Survey of Failures in Wind Power Systems With Focus on Swedish Wind Power Plants During 1997–2005;IEEE Trans. Energy Convers.,2007

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