Company Filing History:
Years Active: 2017
Title: Gregory J Caston: Innovator in Acoustic Wellbore Technology
Introduction
Gregory J Caston is a notable inventor based in Fort Worth, TX (US). He has made significant contributions to the field of acoustic wellbore technology, particularly through his innovative patent that addresses challenges faced in downhole environments.
Latest Patents
Caston's most recent patent is titled "Normalization of sector amplitudes using monopole amplitudes." This invention presents a method and apparatus for normalizing an acoustic wellbore tool by correcting measured sector acoustic signals due to changes in pressure and temperature downhole. The technology involves an acoustic wellbore tool equipped with at least one monopole transmitter and monopole receiver, along with one or more sector transmitters and receivers positioned along the tool's longitudinal axis. The process includes determining the attenuation values of received monopole and sector acoustic signals, calculating a correction ratio using an average sector attenuation value and a theoretical attenuation value, and subsequently correcting the sector acoustic signals using this correction ratio. Caston holds 1 patent for this innovative work.
Career Highlights
Gregory J Caston is currently associated with Weatherford Technology Holdings, LLC, where he continues to develop and refine technologies that enhance the efficiency and accuracy of acoustic measurements in wellbore applications. His expertise in this area has positioned him as a valuable asset to his organization.
Collaborations
Throughout his career, Caston has collaborated with esteemed colleagues such as Thomas Jay Blankinship and Peter J Schoch. These partnerships have fostered an environment of innovation and have contributed to the advancement of acoustic technology in the oil and gas industry.
Conclusion
Gregory J Caston is a distinguished inventor whose work in acoustic wellbore technology has made a significant impact on the industry. His innovative approaches and collaborations continue to drive advancements in this critical field.