Phillip M Inman

Title: The Innovative Contributions of Phillip M. Inman

Introduction

Phillip M. Inman is a notable inventor based in Houston, Texas. He has made significant contributions to the field of valve technology, holding a total of 3 patents. His work focuses on enhancing the functionality and efficiency of multiport valves, which are crucial in various industrial applications.

Latest Patents

Among his latest patents is the Multiport Valve, which features outlets that are transverse to the inlet and is particularly useful as a coker switch valve. This innovative design includes a sealed lower sleeve assembly that provides semi-trunnion ball support. The upper part of the outlet seat recesses is formed in the bonnet, while the lower part is in the valve body. This configuration allows for the independent loading of resilient members to bias the seats, regardless of the end connections. The design also facilitates the insertion of seats and resilient members during assembly, ensuring efficient operation. Another significant patent is the Coker Switch Valve Operating System and Method, which allows for seamless switching between drum A, drum B, and bypass modes. This system incorporates a shear pin linkage between the actuator and the valve stem, along with a position indicator that maintains functionality even in the event of shear pin failure.

Career Highlights

Phillip M. Inman is currently employed at Mogas Industries, Inc., where he continues to innovate and develop advanced valve technologies. His expertise in valve design and operation has positioned him as a key player in the industry.

Collaborations

Throughout his career, Phillip has collaborated with talented individuals such as Alfred Lewis Anderson and Asmaa Sadek Kassab. These partnerships have contributed to the successful development of his patented technologies.

Conclusion

Phillip M. Inman's contributions to valve technology through his innovative patents demonstrate his commitment to advancing industrial applications. His work continues to influence the field and improve operational efficiencies in various systems.