Your search keyword '"planetary gear crack failure frequency"' showing total 3 results

1. Development of fault diagnosis system for wind power planetary transmission based on labview

Author

Zhihan Yang, Shaohong Wang, Chao Ma, and Jingnan Huang

Subjects

data acquisition, demodulation, virtual instrumentation, wind turbines, gears, fault diagnosis, cracks, frequency domain spectra, planetary gears, fault diagnosis system, wind turbine planetary transmissions, wind power planetary transmission, labview software, signal acquisition system, built wind turbine planetary transmission experiment platform, ni9171 data acquisition card, external wind environment, planetary gear transmission planetary gear crack fault diagnosis, testing experiments, frequency domain signal, initial time domain signal, planetary gear crack failure frequency, corresponding planetary gear crack, Engineering (General). Civil engineering (General), TA1-2040

Abstract

The article uses LabView to develop a fault diagnosis system for wind power planetary transmissions. First, use LabView software to create a signal acquisition system. Then, the built wind turbine planetary transmission experiment platform was combined with the NI9171 data acquisition card and the upper computer. The hysteresis brake was used in the laboratory to simulate the external wind environment, and the planetary gear transmission planetary gear crack fault diagnosis and testing experiments were performed. The frequency domain signal is obtained from the initial time domain signal obtained by the experiment through the EMD and envelope demodulation method. The frequency of the corresponding planetary gear crack in the frequency domain signal is compared with the theoretical calculation of the planetary gear crack failure frequency. The results show that the frequency of the corresponding planetary gear cracks in the frequency domain spectra obtained by the experiment is basically consistent with the theoretical calculation of the frequency of cracks in planetary gears. The fault diagnosis system developed by LabView is reliable. The experiment provides a theoretical basis for fault diagnosis, optimisation design, and life prediction of wind turbine planetary transmissions.

Published

2019

2. Development of fault diagnosis system for wind power planetary transmission based on labview.

Author

Yang, Zhihan, Wang, Shaohong, Ma, Chao, and Huang, Jingnan

Subjects

DEBUGGING, WIND power, DATA acquisition systems, DEMODULATION, GEARING machinery

Abstract

The article uses LabView to develop a fault diagnosis system for wind power planetary transmissions. First, use LabView software to create a signal acquisition system. Then, the built wind turbine planetary transmission experiment platform was combined with the NI9171 data acquisition card and the upper computer. The hysteresis brake was used in the laboratory to simulate the external wind environment, and the planetary gear transmission planetary gear crack fault diagnosis and testing experiments were performed. The frequency domain signal is obtained from the initial time domain signal obtained by the experiment through the EMD and envelope demodulation method. The frequency of the corresponding planetary gear crack in the frequency domain signal is compared with the theoretical calculation of the planetary gear crack failure frequency. The results show that the frequency of the corresponding planetary gear cracks in the frequency domain spectra obtained by the experiment is basically consistent with the theoretical calculation of the frequency of cracks in planetary gears. The fault diagnosis system developed by LabView is reliable. The experiment provides a theoretical basis for fault diagnosis, optimisation design, and life prediction of wind turbine planetary transmissions. [ABSTRACT FROM AUTHOR]

Published

2019

3. Development of fault diagnosis system for wind power planetary transmission based on labview

Author

Chao Ma, Shaohong Wang, Jingnan Huang, and Zhihan Yang

Subjects

corresponding planetary gear crack, data acquisition, Computer science, planetary gear crack failure frequency, wind turbine planetary transmissions, Energy Engineering and Power Technology, Fault (power engineering), testing experiments, fault diagnosis system, gears, Data acquisition, planetary gear transmission planetary gear crack fault diagnosis, wind turbines, wind power planetary transmission, Demodulation, frequency domain spectra, built wind turbine planetary transmission experiment platform, initial time domain signal, signal acquisition system, ni9171 data acquisition card, Wind power, Virtual instrumentation, business.industry, labview software, external wind environment, General Engineering, Electrical engineering, Labview software, fault diagnosis, Physics::Classical Physics, demodulation, frequency domain signal, planetary gears, Transmission (telecommunications), lcsh:TA1-2040, Physics::Space Physics, cracks, Astrophysics::Earth and Planetary Astrophysics, lcsh:Engineering (General). Civil engineering (General), business, virtual instrumentation, Software

Abstract

The article uses LabView to develop a fault diagnosis system for wind power planetary transmissions. First, use LabView software to create a signal acquisition system. Then, the built wind turbine planetary transmission experiment platform was combined with the NI9171 data acquisition card and the upper computer. The hysteresis brake was used in the laboratory to simulate the external wind environment, and the planetary gear transmission planetary gear crack fault diagnosis and testing experiments were performed. The frequency domain signal is obtained from the initial time domain signal obtained by the experiment through the EMD and envelope demodulation method. The frequency of the corresponding planetary gear crack in the frequency domain signal is compared with the theoretical calculation of the planetary gear crack failure frequency. The results show that the frequency of the corresponding planetary gear cracks in the frequency domain spectra obtained by the experiment is basically consistent with the theoretical calculation of the frequency of cracks in planetary gears. The fault diagnosis system developed by LabView is reliable. The experiment provides a theoretical basis for fault diagnosis, optimisation design, and life prediction of wind turbine planetary transmissions.

Published

2019