Company Filing History:
Years Active: 2021-2022
Title: Xiongying Dong: Innovator in Oil-Gas Exploration
Introduction
Xiongying Dong is a notable inventor based in Tianjin, China. He has made significant contributions to the field of oil-gas exploration, holding a total of 3 patents. His innovative methods aim to enhance the efficiency and accuracy of shale exploration and development.
Latest Patents
One of his latest patents is the "Shale brittleness sweet spot evaluation method." This method involves determining a brittleness evaluation formula based on shale brittleness indexes, mineral volume percent content, and total organic matter mass percent content. By creating a shale brittleness grading chart, this method allows for the accurate identification of shale brittleness sweet spots, ultimately reducing exploration costs and increasing production capacities of gas-bearing shale formations.
Another significant patent is the "Oil-gas reservoir exploration method and apparatus." This invention provides a systematic approach to oil-gas exploration by acquiring data on hydrocarbon source rock distribution, reservoir distribution, fault distribution, and oil-gas reservoir distribution. The method enables the precise determination of exploration targets and the order of exploration, facilitating a more efficient exploration process.
Career Highlights
Xiongying Dong is currently employed at Dagang Oil Field Company of CNPC. His work at this esteemed company has allowed him to apply his innovative methods in real-world scenarios, contributing to advancements in oil-gas exploration techniques.
Collaborations
Xiongying Dong has collaborated with notable colleagues, including Xianzheng Zhao and Xiugang Pu. These partnerships have fostered a collaborative environment that enhances the development of innovative solutions in the oil-gas sector.
Conclusion
Xiongying Dong's contributions to oil-gas exploration through his patented methods demonstrate his commitment to innovation in the field. His work not only improves exploration efficiency but also has the potential to significantly impact the industry.