Company Filing History:
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1 out of 285 Years Active: 2018-2023
Title: Innovations of Jing Liang in Tobacco and Lignite Processing
Introduction
Jing Liang is an accomplished inventor based in Jiangsu, China. He has made significant contributions to the fields of tobacco processing and lignite oxidation. With a total of two patents to his name, his work showcases innovative methods that enhance efficiency and effectiveness in these industries.
Latest Patents
One of Jing Liang's latest patents is a method and device for detecting plastic foreign objects with low chromaticity difference in shredded tobacco through online pulse spectral imaging. This invention involves three key steps: negative pressure thin-layer loading of shredded tobacco, pulse line-scanning identification, and positive pressure online elimination of foreign objects. The method utilizes a conveying cylinder to form a continuous thin layer of shredded tobacco, while an LED linear array light source emits optical pulses to identify plastic foreign objects in real time.
Another notable patent is the method of catalytic oxidation of lignite using oxygen as an oxidant at atmospheric pressure. This method includes several steps, such as pulverizing lignite, drying it in a vacuum, and conducting a reaction with acetic acid and a catalyst. The process aims to enhance the catalytic oxidation of lignite, ultimately leading to more efficient energy production.
Career Highlights
Jing Liang has worked at prestigious institutions, including Jiangsu University and China University of Mining and Technology. His academic and research background has provided him with a solid foundation to develop his innovative patents.
Collaborations
Jing Liang has collaborated with notable colleagues, including Jiyong Shi and Yueying Wang, who have contributed to his research endeavors.
Conclusion
Jing Liang's innovative patents in the detection of foreign objects in tobacco and the catalytic oxidation of lignite demonstrate his commitment to advancing technology in these fields. His work not only enhances processing efficiency but also contributes to the overall improvement of product quality.