Jeremy Dumoit

Title: Innovations in Subsurface Fracture Characterization by Inventor Jeremy Dumoit

Introduction

Jeremy Dumoit, an accomplished inventor based in Richmond, Texas, holds a total of five patents that contribute significantly to the field of subsurface formation analysis and hydraulic fracturing. His innovative techniques revolutionize how fractures are characterized and treated in the energy sector, showcasing his valuable contributions as an inventor.

Latest Patents

Among his latest patents, Dumoit has developed methods that enhance the understanding of hydraulic fractures in subsurface formations. One notable patent focuses on a method for characterizing a hydraulic fracture by inducing a pressure change in a borehole. This involves measuring at least one physical parameter of the fracture using pressure data over a specified time. Another innovation details a method for assessing the hydraulic fracturing rate through real-time monitoring of microseismic event counts in the borehole. Additionally, he has designed a method for well treatment that includes the hydraulic isolation of intervals within a well, allowing for the detection of reflections from induced tube waves to determine hydraulic boundary conditions and conductivity. Such advancements promise more effective re-fracturing treatments under optimal conditions.

Career Highlights

Dumoit's career spans significant roles at esteemed companies, including Seismos Inc. and Baker Hughes, a GE Company, LLC. His work at these organizations has provided him the platform to develop groundbreaking technologies in fracture characterization, further establishing his expertise in the field.

Collaborations

Throughout his career, Dumoit has collaborated with notable professionals, including Jakub Felkl and Youli Quan, who have contributed to his research and innovations. These partnerships exemplify the collaborative spirit that drives progress in the field of subsurface engineering.

Conclusion

Inventor Jeremy Dumoit continues to push the boundaries of hydraulic fracture analysis through his innovative patents and career experiences. His work not only enhances the efficacy of fracture treatment methods but also underscores the importance of advancements in subsurface formation analysis, solidifying his status as a key player in this specialized field.