Company Filing History:
Years Active: 2020
Title: Innovations of Hongyan Han in Evaluating Gas-Water Two-Phase Flow Fracture Conductivity
Introduction
Hongyan Han is an accomplished inventor based in Beijing, China. He has made significant contributions to the field of shale evaluation through his innovative patent. His work focuses on the complexities of gas-water two-phase flow in fractured shale, which is crucial for understanding and optimizing resource extraction.
Latest Patents
Hongyan Han holds a patent for a device and method designed to evaluate gas-water two-phase flow fracture conductivity of fractured shale. This device comprises a seepage system, an injection system, a data collecting and processing system, and a three-axis shale core holder. The seepage system operates in two stages: a water injection stage followed by a gas flooding stage. The process begins with determining the initial permeability and mass of the shale sample. A water influx test is conducted by injecting water until a stable flow rate is achieved. After the water injection phase, the shale sample undergoes gas flooding, during which the aqueous fracturing fluid is collected until the gas volume stabilizes.
Career Highlights
Hongyan Han is affiliated with the University of Science and Technology Beijing, where he continues to advance research in his field. His innovative approach to evaluating shale conductivity has positioned him as a notable figure in the academic and research community.
Collaborations
He collaborates with esteemed colleagues, including Weiyao Zhu and Ming Yue, who contribute to his research endeavors. Their combined expertise enhances the quality and impact of their work in the field of shale evaluation.
Conclusion
Hongyan Han's contributions to the evaluation of gas-water two-phase flow in fractured shale are significant. His innovative patent reflects his dedication to advancing the understanding of shale conductivity. Through his work at the University of Science and Technology Beijing, he continues to influence the field positively.