Company Filing History:
Years Active: 2016-2020
Title: Simon Douglas Eardly Allison: Innovator in Perforating Gun Technology
Introduction
Simon Douglas Eardly Allison is a notable inventor based in Aberdeen, GB. He has made significant contributions to the field of perforating gun technology, holding a total of 2 patents. His work focuses on enhancing the efficiency and effectiveness of perforating gun assemblies used in wellbore applications.
Latest Patents
Allison's latest patents include innovative methods and assemblies for perforating guns. One of his patents, titled "Perforating gun assembly and methods of use," describes a method that involves providing a perforating gun assembly with two groups of shaped charges. These groups are rotationally offset from one another, allowing for precise perforation in wellbores. The method includes locating the assembly in a wellbore and detonating the charges to create a defined fracture initiation point. Another patent, "Perforating gun assembly and method of forming wellbore perforations," details a charge carrier with multiple groups of shaped charges arranged to generate converging jets. This design enhances the perforation process by overlapping groups of charges in a longitudinal direction.
Career Highlights
Allison's career is marked by his dedication to advancing perforating technology. His innovative designs and methods have contributed to improved performance in wellbore applications. He is associated with Delphian Ballistics Limited, a company that specializes in developing advanced ballistics solutions.
Collaborations
Throughout his career, Allison has collaborated with talented individuals in the field. Notable coworkers include Jörn Olaf Löhken and Liam McNelis, who have contributed to the development of cutting-edge technologies alongside him.
Conclusion
Simon Douglas Eardly Allison is a prominent inventor whose work in perforating gun technology has led to significant advancements in the industry. His patents reflect a commitment to innovation and efficiency in wellbore applications.