Company Filing History:
Years Active: 1993-1996
Title: Innovations by Sonja R. Wilkinson
Introduction
Sonja R. Wilkinson is a notable inventor based in Norman, OK (US). She has made significant contributions to the field of fluid dynamics, holding a total of four patents. Her work focuses on systems that characterize the flow patterns and pressure of fluids under high-pressure conditions.
Latest Patents
Among her latest patents is a "System for characterizing flow pattern, pressure and movement of a fluid." This innovative system is designed to analyze the pressure, temperature, movement, and flow patterns of a fluid within a test cell lined with adjustable rock facings. The system employs pressure-distortable optical fibers to measure pressure, while fluid velocity, flow direction, and filter-cake buildup are assessed using laser Doppler velocimetry. Additionally, the flow pattern is visualized through arrays of transmitting and receiving optical fibers, and the temperature of the fluid is estimated using a combination of thermal sensors. These integral systems work together to provide comprehensive data on fluid behavior.
Another patent by Sonja is a similar "System for characterizing flow pattern and pressure of a fluid," which shares the same innovative features and applications as her previous work.
Career Highlights
Sonja R. Wilkinson is currently associated with the Gas Research Institute, where she continues to develop and refine her innovative systems. Her expertise in fluid dynamics has positioned her as a key figure in her field.
Collaborations
Throughout her career, Sonja has collaborated with notable colleagues, including John E. Fagan and James J. Sluss, Jr. These partnerships have contributed to the advancement of her research and the successful development of her patented technologies.
Conclusion
Sonja R. Wilkinson's contributions to fluid dynamics through her innovative patents demonstrate her expertise and commitment to advancing technology in this field. Her work continues to influence the understanding and characterization of fluid behavior under high-pressure conditions.