James Harold Wight

Title: Innovations of James Harold Wight

Introduction

James Harold Wight is an accomplished inventor based in Mansfield, TX (US). He has made significant contributions to the field of energy services, particularly in wellbore pressure control and perforation techniques. With a total of 4 patents to his name, Wight continues to push the boundaries of innovation in his industry.

Latest Patents

One of Wight's latest patents is titled "Self correcting prediction of entry and exit hole diameter." This technique provides a method for estimating perforated entry and exit hole diameters (EHD) of a casing string. In this embodiment, the method involves selecting one or more variables for a perforating operation, determining an estimate of a perforating outcome, and correcting that outcome using historical perforating data.

Another notable patent is "System and method to control wellbore pressure during perforating." This system includes a carrier, a sensor, a pressure-altering device, and a processor that communicates with the sensor. The sensor detects a stress wave propagating through the carrier before the arrival of a related pressure wave in the wellbore. It generates a signal indicative of the detected stress wave, allowing the pressure-altering device to change the wellbore pressure effectively.

Career Highlights

James Harold Wight is currently employed at Halliburton Energy Services, Inc., where he applies his expertise in energy services. His work focuses on enhancing the efficiency and safety of perforating operations in the oil and gas industry.

Collaborations

Wight has collaborated with notable coworkers such as John Patrick Rodgers and Timothy S. Glenn. Their combined efforts contribute to the innovative solutions developed within their organization.

Conclusion

James Harold Wight's contributions to the field of energy services through his patents and collaborative efforts highlight his role as a key innovator. His work continues to influence the industry and improve operational efficiencies.