Company Filing History:
Years Active: 2020
Title: The Innovative Journey of Zongqing Tang
Introduction
Zongqing Tang, an accomplished inventor based in Xuzhou, China, has made significant strides in the field of gas drainage technology. With a solid patent portfolio that emphasizes practical solutions, Tang's work addresses critical environmental challenges while improving industrial processes.
Latest Patents
Zongqing Tang holds a noteworthy patent titled "Using Horizontal Directional Drilling and Liquid Nitrogen Cyclic Freeze-Thaw Process to Improve Permeability in Gas Drainage." This innovative method utilizes a unique combination of horizontal directional boreholes and a liquid nitrogen freeze-thaw technique. The process involves constructing main boreholes in strategic locations such as intake or return roadways and methodically creating branch boreholes in a coal bed. The procedure enhances gas drainage by injecting water and then utilizing liquid nitrogen to freeze the surroundings, effectively improving permeability in the targeted areas.
Career Highlights
Currently, Zongqing Tang is affiliated with the Science Academy of China University of Mining and Technology. His work there has been pivotal in advancing methodologies that innovate traditional gas drainage processes. Tang's passion for research and development within this field has established him as a notable figure in the industry.
Collaborations
Throughout his career, Zongqing Tang has collaborated with esteemed professionals including Cheng Zhai and Lei Qin. These partnerships have fostered an environment of creativity and innovation, leading to developments in advanced gas drainage technologies and enhancing their efficiency.
Conclusion
Zongqing Tang continues to exemplify the spirit of innovation in his field. His contributions through patented methods and active collaborations with fellow researchers highlight the importance of creative approaches in addressing modern engineering challenges. As the industry evolves, Tang's work will undoubtedly impact future advancements in gas drainage technologies.