Company Filing History:
Years Active: 2021
Title: Innovations of Xinze Li in Porous Media Analysis
Introduction
Xinze Li is a notable inventor based in Qingdao, China. He has made significant contributions to the field of porous media analysis through his innovative methods and systems. His work focuses on enhancing the understanding of contact angles in porous materials, which is crucial for various applications in petroleum engineering and reservoir management.
Latest Patents
Xinze Li holds a patent titled "Method and system for determining contact angle of porous media." This invention involves a sophisticated approach to determining contact angles by conducting displacement simulation experiments. The method includes injecting a displacement fluid into an actual core sample and performing computed tomography scanning to obtain three-dimensional images at different oil displacing time points. By segmenting these images, the invention allows for the marking of contact lines between different phases, which include underground fluids, displacement fluids, and the rock matrix. This innovative system provides insights into the dynamic changes of contact angles at various 3D positions over time, thereby reflecting the wettability of real reservoir environments more accurately. Xinze Li has 1 patent to his name.
Career Highlights
Xinze Li is affiliated with the China University of Petroleum, where he continues to advance research in the field of petroleum engineering. His academic background and research endeavors have positioned him as a key figure in the study of porous media and fluid dynamics.
Collaborations
Xinze Li has collaborated with notable colleagues such as Yongfei Yang and Jun Yao. Their combined expertise contributes to the advancement of research in porous media and enhances the impact of their findings in the industry.
Conclusion
Xinze Li's innovative methods for determining contact angles in porous media represent a significant advancement in petroleum engineering. His contributions not only enhance the understanding of fluid dynamics in reservoirs but also pave the way for future research and applications in the field.