John Steven Davis

Title: Innovations of John Steven Davis in Hydrocarbon Seal Analysis

Introduction

John Steven Davis is an accomplished inventor based in Kingwood, TX (US). He has made significant contributions to the field of hydrocarbon seal analysis, particularly through his innovative methods that enhance the understanding of seal capacity in hydrocarbon traps. With a focus on practical applications, his work is vital for the oil and gas industry.

Latest Patents

Davis holds a patent for a method titled "Method for mechanical and capillary seal analysis of a hydrocarbon trap." This innovative approach allows for a probabilistic determination of total seal capacity by simultaneously considering both capillary entry pressure and mechanical seal capacity. The method estimates capillary entry pressure by relating it directly to the buoyancy pressure applied by the hydrocarbon column to the top seal. This technique addresses the substantial uncertainty associated with input parameters, which often limits the utility of analyses for robust hydrocarbon column height and fluid contact predictions. By inverting trap parameters, the method provides a way to estimate seal capillary entry pressure without the need for direct measurement through mercury injection capillary capacity tests, which may not be available or representative of adjacent rocks.

Career Highlights

Davis is currently employed at ExxonMobil Upstream Research Company, where he continues to apply his expertise in hydrocarbon research. His work has been instrumental in advancing methodologies that improve the accuracy of hydrocarbon trap analyses.

Collaborations

Throughout his career, Davis has collaborated with notable colleagues, including Scott A. Barboza and William R. James. These partnerships have fostered a collaborative environment that enhances research outcomes and innovation.

Conclusion

John Steven Davis's contributions to hydrocarbon seal analysis through his patented methods demonstrate his commitment to advancing the field. His work not only improves the understanding of hydrocarbon traps but also supports the broader objectives of the oil and gas industry.