Company Filing History:
Years Active: 2021-2024
Title: Innovations of Inventor Lingya Meng
Introduction
Lingya Meng is a notable inventor based in Qingdao, China. He has made significant contributions to the field of fluid dynamics and pipeline technology. With a total of 2 patents, his work focuses on experimental devices and methods that enhance the understanding and management of foam fluids and gas-liquid stratified flow pipelines.
Latest Patents
One of his latest patents is an "Experimental device and method for testing foam fluid properties and defoaming separation effects." This innovative device includes a foam generation module that creates foam fluid, an experimental loop for transporting the foam, and various modules for testing foam properties and evaluating defoaming results. The method allows for the generation of different foam fluids, which are then tested for their properties and separation effects.
Another significant patent is the "Single-point dual sensor-based leakage positioning method and system for gas-liquid stratified flow pipeline." This system utilizes two sensors installed at the same point on a pipeline to detect leakage. By processing the acoustic waves from both liquid and gas, the system can accurately determine the presence of leaks while minimizing costs and enhancing safety.
Career Highlights
Lingya Meng is affiliated with the China University of Petroleum, where he continues to advance research in fluid dynamics and pipeline technology. His work has garnered attention for its practical applications in various industries, particularly in improving safety and efficiency in pipeline operations.
Collaborations
He has collaborated with notable colleagues, including Yuxing Li and Qihui Hu, to further enhance the research and development of innovative technologies in his field.
Conclusion
Lingya Meng's contributions to the field of fluid dynamics and pipeline technology are noteworthy. His innovative patents reflect a commitment to advancing safety and efficiency in industrial applications. His work continues to inspire future research and development in these critical areas.