Company Filing History:
Years Active: 2024-2025
Title: Yiming Fan: Innovator in Borehole Technology
Introduction
Yiming Fan is a notable inventor based in Rosharon, Texas, who has made significant contributions to the field of borehole technology. With a total of 2 patents to his name, he has developed innovative techniques that enhance the efficiency and effectiveness of packer systems used in wellbore applications.
Latest Patents
One of Yiming Fan's latest patents is focused on the combined actuation of slips and packer sealing elements. This technique facilitates the actuation of a packer to a sealing and gripping position along a borehole. The packer includes a packer element structure mounted about a center structure. The packer element structure features a sealing element mounted along an expandable base, allowing for radial expansion. Additionally, the packer incorporates an actuator member connected to a portion of the packer element structure via a release mechanism, such as a shear member. A plurality of slips is located on the actuator member, enabling linear movement of the actuator member to cause successive movement of the packer sealing element and then the slips in the radially outward direction. This sequential setting motion creates a jarring effect, ensuring that the slips securely bite into the surrounding wellbore surface, such as the casing surface.
Career Highlights
Yiming Fan is currently employed at Schlumberger Technology Corporation, a leading company in oilfield services and technology. His work focuses on developing advanced solutions that improve the performance of drilling and completion operations.
Collaborations
Yiming has collaborated with talented coworkers, including Farhan Ahmed Omer and Susan Wu, who contribute to the innovative environment at Schlumberger Technology Corporation.
Conclusion
Yiming Fan's contributions to borehole technology through his patents and work at Schlumberger Technology Corporation highlight his role as an influential inventor in the industry. His innovative techniques continue to advance the field and improve operational efficiencies in wellbore applications.