James C Holste

Title: Innovations and Contributions of James C Holste

Introduction

James C Holste is a notable inventor based in Bryan, Texas, with a remarkable portfolio of nine patents. His work primarily focuses on innovative processes that enhance resource recovery and flow measurement technologies.

Latest Patents

One of Holste's latest patents is titled "Resource recovery of waste organic chemicals by thermal catalytic conversion." This invention outlines a process for converting waste organic materials, such as waste tires, into reusable hydrocarbons. The method involves using a heated, stirred reactor where a feedstock and catalyst, specifically AlCl, are introduced. The process allows for the removal of vaporized hydrocarbons and AlCl from the reactor, with the composition varying based on the operational mode. The remaining hydrocarbons are recovered for further applications, while unreacted materials are processed in a supplemental reactor to maximize efficiency.

Another significant patent is the "Multiple-phase flow meter," which pertains to flow meter instrumentation. This invention improves the measurement of liquid and gas phases in a flow conduit by utilizing obstruction flow meters positioned serially. Mathematical equations are developed to solve for phase flow rates, enhancing the accuracy of flow measurements in various applications.

Career Highlights

Throughout his career, Holste has contributed to significant advancements in his field. He has worked with reputable organizations, including the Texas A&M University System and Precision Measurement, Inc. His expertise in thermal catalytic processes and flow measurement has positioned him as a key figure in these industries.

Collaborations

Holste has collaborated with notable professionals, including Kenneth R Hall and Gerald L Morrison, further enriching his contributions to innovation and technology.

Conclusion

James C Holste's inventive spirit and dedication to advancing technology through his patents have made a lasting impact in the fields of resource recovery and flow measurement. His work continues to inspire future innovations.