Company Filing History:
Years Active: 2025
Title: Innovations of Xiaolong Wang in Generator Fault Detection
Introduction
Xiaolong Wang is a notable inventor based in Baoding, China. He has made significant contributions to the field of electrical engineering, particularly in the area of generator fault detection. His innovative methods have the potential to enhance the reliability and efficiency of electrical generators.
Latest Patents
Xiaolong Wang holds a patent for a "Generator fault detection method based on the characteristics of air gap magnetic flux density." This method involves several key steps: installing detection devices on a generator and building a test platform, obtaining an air gap magnetic flux density signal through the detection devices, transforming a time domain signal of the magnetic flux density into a frequency domain signal using a fast Fourier transform, and judging if the generator has an air gap eccentricity or a stator inter-turn short circuit fault through the comparison of time domain and frequency domain. Additionally, the method includes calculating a value of air gap magnetic flux density and comparing the root mean square value of magnetic flux density under different working conditions with that under normal conditions to determine the fault degree. Xiaolong Wang has 1 patent to his name.
Career Highlights
Xiaolong Wang is affiliated with North China Electric Power University, where he contributes to research and development in electrical engineering. His work focuses on improving generator performance and fault detection methods, which are crucial for maintaining the integrity of power systems.
Collaborations
Xiaolong Wang collaborates with colleagues such as Yuling He and Wen Zhang, who share his commitment to advancing technology in the field of electrical engineering.
Conclusion
Xiaolong Wang's innovative approach to generator fault detection exemplifies the importance of research and development in electrical engineering. His contributions are paving the way for more reliable and efficient power generation systems.