Article: Effect of sliding friction on torsional vibration of wind turbine drivetrain system under constant wind load Journal: International Journal of Engineering Systems Modelling and Simulation (IJESMS) 2024 Vol.15 No.3 pp.139 - 152 Abstract: Sliding friction is an unavoidable phenomenon that occurs between two contacting bodies under motion. In this paper, dynamic analysis of wind turbine drivetrain system (WTDS) is performed and sliding friction is incorporated in the model. Key tooth meshing points along path of contact like pitch point, single and double pair region are identified; reversal of force due to sliding friction at pitch point is explained. The drivetrain system contains three stages of gear drive. To study the dynamic characteristics of the system, governing equations of motion of lumped parameter model is derived using Lagrange's formulation. Time varying mesh stiffness (TVMS) is estimated using the analytical method and frictional torque are incorporated in the drivetrain model. Finally, the governing equations are numerically solved using the Houbolt discretisation method in MatLab. Torsional vibration signals and frictional torque are obtained in MatLab. The simulation results with and without friction are fast Fourier transformed. The dynamic effect of sliding friction on the WTDS is investigated in the frequency domain and comparison is made with no friction condition. Inderscience Publishers - linking academia, business and industry through research

Title: Effect of sliding friction on torsional vibration of wind turbine drivetrain system under constant wind load

Authors: Rishi Kumar; Sankar Kumar Roy

Addresses: Department of Mechanical Engineering, National Institute of Technology Patna, Ashok Rajpath, Mahendru, Patna, Bihar (800005), India ' Department of Mechanical Engineering, National Institute of Technology Patna, Ashok Rajpath, Mahendru, Patna, Bihar (800005), India

Abstract: Sliding friction is an unavoidable phenomenon that occurs between two contacting bodies under motion. In this paper, dynamic analysis of wind turbine drivetrain system (WTDS) is performed and sliding friction is incorporated in the model. Key tooth meshing points along path of contact like pitch point, single and double pair region are identified; reversal of force due to sliding friction at pitch point is explained. The drivetrain system contains three stages of gear drive. To study the dynamic characteristics of the system, governing equations of motion of lumped parameter model is derived using Lagrange's formulation. Time varying mesh stiffness (TVMS) is estimated using the analytical method and frictional torque are incorporated in the drivetrain model. Finally, the governing equations are numerically solved using the Houbolt discretisation method in MatLab. Torsional vibration signals and frictional torque are obtained in MatLab. The simulation results with and without friction are fast Fourier transformed. The dynamic effect of sliding friction on the WTDS is investigated in the frequency domain and comparison is made with no friction condition.

Keywords: wind turbine drivetrain system; WTDS; mathematical modelling; sliding friction; pitch point; time varying mesh stiffness; TVMS; fast Fourier transform.

DOI: 10.1504/IJESMS.2024.138294

International Journal of Engineering Systems Modelling and Simulation, 2024 Vol.15 No.3, pp.139 - 152

Received: 31 Mar 2021
Accepted: 17 Mar 2022
Published online: 01 May 2024 *

Full-text access for editors Full-text access for subscribers Purchase this article Comment on this article

Title: Effect of sliding friction on torsional vibration of wind turbine drivetrain system under constant wind load

Keep up-to-date