Company Filing History:
Years Active: 2025
Title: Kaoping Song: Innovator in Data-Driven Reservoir Development
Introduction
Kaoping Song is a prominent inventor based in Beijing, China. He has made significant contributions to the field of reservoir development through his innovative methods and devices. His work focuses on enhancing the evaluation and development of fracture-cavity reservoirs, which are crucial for efficient resource extraction.
Latest Patents
Kaoping Song holds a patent titled "Method and device for data-driven fracture-cavity reservoir development and evaluation, and storage medium." This patent outlines a comprehensive method that includes obtaining a fracture-cavity spatial topological relationship, geometric shape, and a physical model of fault-controlled fractures and cavities. The invention establishes a discrete spatial topological network model corresponding to these fractures and cavities. It also involves modeling the production performance of a fault-controlled fracture-cavity reservoir using fluid vertical equilibrium mechanisms and non-Darcy flow laws. This innovative approach allows for a quantitative representation of the reservoir's production performance, ultimately aiding in its development.
Career Highlights
Kaoping Song is affiliated with the China University of Petroleum, where he continues to advance research in reservoir engineering. His expertise in data-driven methodologies has positioned him as a key figure in the field, contributing to both academic and practical advancements in reservoir evaluation.
Collaborations
Throughout his career, Kaoping has collaborated with notable colleagues, including Daigang Wang and Jin Chen. These partnerships have fostered a collaborative environment that enhances research outcomes and innovation in reservoir development.
Conclusion
Kaoping Song's contributions to the field of reservoir development through his innovative patent demonstrate his commitment to advancing technology in this area. His work not only enhances the understanding of fracture-cavity reservoirs but also paves the way for more efficient resource extraction methods.