Company Filing History:
Years Active: 2024
Title: Weisheng Du: Innovating Coal and Rock Mass Detection in Beijing
Introduction
Weisheng Du is a notable inventor based in Beijing, China, recognized for his contributions to detecting structural abnormalities in coal and rock masses. His innovative methods leverage seismic wave propagation to enhance the safety and efficiency of geological assessments.
Latest Patents
Weisheng Du holds a patent for a significant invention titled "Method for detecting structural abnormal area of coal and rock mass." This method provides a systematic approach to identifying structural abnormalities by acquiring a target velocity inversion map during a detection cycle. It indicates the velocity of seismic wave propagation across various grid cells, allowing for effective analysis of the geological conditions. The process includes comparing velocities from previous detection cycles to pinpoint abnormal structural areas, ultimately aiding in the determination of safety measures in coal mining and geological research.
Career Highlights
Currently, Weisheng Du works at the Chinese Institute of Coal Science, where he applies his expertise to enhance methodologies related to coal and rock analysis. His innovative approach has positioned him as a significant figure in the field, contributing to better practices and technologies in geological safety.
Collaborations
Throughout his career, Weisheng has collaborated with esteemed colleagues, including Xiangshang Li and Chunyang Cui. Together, they have worked on various projects aimed at refining detection methods and advancing research in coal science.
Conclusion
Weisheng Du’s innovative work in the detection of structural abnormalities in coal and rock masses exemplifies the importance of invention in geological science. His patent not only reflects his expertise but also contributes to the broader field of mining safety and efficiency. As he continues to collaborate with fellow professionals, his impact on the industry is anticipated to grow, paving the way for a safer and more sustainable approach to coal and rock mass assessment.