Company Filing History:
Years Active: 2018
Title: Phil F Sullivan: Innovating Fluid Monitoring Technology
Introduction
Phil F Sullivan is an esteemed inventor based in Bellaire, Texas, recognized for his innovative contributions in the field of fluid monitoring systems. With a strong proficiency and experience, he has developed a patent that significantly enhances the capabilities of monitoring conditions within fluid-filled boreholes.
Latest Patents
Sullivan holds a noteworthy patent titled "Wireless logging of fluid filled boreholes". This invention addresses the detection of predetermined conditions in a fluid-filled wellbore system by generating sound within the wellbore that responds to specific conditions. The technology includes mechanisms for monitoring the sound and detecting changes, effectively indicating the occurrence of those conditions. This innovative approach also encompasses methods for estimating the values of properties in the wellbore system, achieved by recording data such as pressure and flow rate, and applying models that account for various factors influencing these measurements.
Career Highlights
Currently, Phil F Sullivan is employed at Schlumberger Technology Corporation, a leading company in the oilfield services sector. His role involves applying his expertise in the development of advanced monitoring technologies, contributing not only to his personal achievements but also to the company's innovations.
Collaborations
Throughout his career, Phil has collaborated with notable figures in the field, including his coworkers Douglas E Miller and Richard Timothy Coates. These collaborations have fostered an environment of creativity and innovation, further enhancing the advancements in fluid monitoring technology within the industry.
Conclusion
Phil F Sullivan stands out as a pivotal figure in the realm of fluid monitoring technology, with a significant patent illustrating his innovative spirit and dedication to his field. His work at Schlumberger Technology Corporation, alongside esteemed colleagues, continues to push the boundaries of what is possible in the monitoring of fluid systems, making substantial contributions to the efficiency and effectiveness of wellbore assessments.