THERMAL SCIENCE

International Scientific Journal

RELIABILITY ANALYSIS OF GEAR TRANSMISSION SYSTEM OF AERONAUTICAL TURBINE STARTER UNDER MULTI-CONSTRAINT

ABSTRACT
At present, there are some problems in the reliability analysis method for gear transmission system of aeronautical turbine starter, such as low accuracy of finite element model, low efficiency of analysis and low accuracy of analysis results. To this end, a reliability analysis method for the gear transmission system of aeronautical turbine starter under multi-constraint is presented. A 3-D model of the gear pair of aeronautical turbine starter is constructed in UG. The model is input into the finite element software for meshing. The gear transmission of aeronautical turbine starter under working conditions is simulated by defining boundary conditions and applying loads, which provides a basis for reliability analysis of gear transmission system of aeronautical turbine starter. The reliability of the gear transmission system of the aeronautical turbine starter is evaluated by the comprehensive evaluation method, and the reliability of the system is evaluated by the contact of the evaluation results. According to the evaluation results, the reliability analysis of the gear transmission system of the aeronautical turbine starter is realized under the condition of multi-constraint. The experimental results show that the proposed method has high analysis efficiency and high analysis accuracy.
KEYWORDS
PAPER SUBMITTED: 2019-05-17
PAPER REVISED: 2019-08-23
PAPER ACCEPTED: 2019-09-02
PUBLISHED ONLINE: 2020-02-08
DOI REFERENCE: https://doi.org/10.2298/TSCI190517016Z
CITATION EXPORT: view in browser or download as text file
THERMAL SCIENCE YEAR 2020, VOLUME 24, ISSUE Issue 3, PAGES [1513 - 1520]
REFERENCES
  1. Shuang, L., Zhao, S., Niu, B., et al. 2016. Stability Analysis of a Nonlinear Electromechanical Coupling Transmission System with Time Delay Feedback. Nonlinear Dynamics 86 (3): 1863-1874.
  2. Yang, H., Xie, K., Tai, H.M., et al. 2016. Wind Farm Layout Optimization and Its Application to Power System Reliability Analysis. IEEE Transactions on Power Systems 31 (3): 2135-2143.
  3. Chen, S., Tang, J., Li, Y., et al. 2016. Rotordynamics Analysis of a Double-helical Gear Transmission System. Meccanica 51 (1): 251-268.
  4. Yu, J., Hua, Z., Li, Z., et al. 2016. The Nonlinear Dynamics Response of Cracked Gear System in a Coal Cutter Taking Environment Multi-frequency Excitation Forces into Consideration. Nonlinear Dynamics 84 (1): 203-222.
  5. Zhou, Z.G. & Xu, F. 2016. Dynamic Reliability Analysis of Gear Transmission System of Wind Turbine Considering Strength Degradation and Dependent Failure. Journal of Mechanical Engineering 52 (11): 80-87.
  6. Li J, Zhang L, Feng X, et al. 2019. Feature Extraction and Area Identification of Wireless Channel in Mobile Communication. Journal of Internet Technology, 20(2): 544-553.
  7. Kou, H.X., An, Z.W., Liu, B., et al. 2016. Reliability Analysis of Wind Turbine Gearbox Based on Bayesian Network. Journal of Lanzhou University of Technology 42 (1): 40-45.
  8. Pandey PK.2018. A New Computational Algorithm for the Solution of Second Order Initial Value Problems in Ordinary Differential Equations. Applied Mathematics & Nonlinear Sciences, 3(1): 167-174.
  9. Huo, J.F. 2017. Reliability Analysis of Shearer Rocker Arm Transmission System Based on ANSYS. Coal Technology 36 (7): 251-253.
  10. Lv, H.Y., Xu, H.J. & Zhu, H.Q. 2017. A Flight Control Software Verification and Safety Assessment Method Based on Virtual Flight Testing. Computer Simulation 34 (10): 45-48.
  11. Miao, F., Kai, S., Lane, D., et al. 2018. A Novel Generation Rescheduling Algorithm to Improve Power System Reliability with High Renewable Energy Penetration. IEEE Transactions on Power Systems PP (99): 1-1.
  12. Huang H, Deng G, Došenović T, et al. 2018. Note on Recent Common Coupled Fixed Point Results in Multiplicative Metric Spaces. Applied Mathematics & Nonlinear Sciences, 3(2): 659-668.

© 2024 Society of Thermal Engineers of Serbia. Published by the Vinča Institute of Nuclear Sciences, National Institute of the Republic of Serbia, Belgrade, Serbia. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution-NonCommercial-NoDerivs 4.0 International licence