Company Filing History:
Years Active: 2019
Title: Innovations by Christopher Scott Johnson
Introduction
Christopher Scott Johnson is an accomplished inventor based in Woods Cross, Utah. He holds a patent for an innovative apparatus designed to measure the relative permeability of immiscible fluids. His work contributes significantly to the field of fluid dynamics and has practical applications in various industries.
Latest Patents
Johnson's notable patent is titled "Apparatus, method, and system for measuring relative permeability of immiscible fluids." This invention features an apparatus that measures the volumes of two or more immiscible fluids, specifically a lighter fluid and a heavier fluid, within a core sample. The design includes a fluid separator and two volume pressure actuators. The lighter fluid accumulates in the upper portion of the fluid separator, while the heavier fluid collects in the lower portion, creating a meniscus between the two. The volume pressure actuators are equipped with fluid volume encoders that accurately determine the net volumetric flow of the fluids to and from the separator. Additionally, these actuators maintain constant back pressure on the fluid separator, ensuring that the meniscus remains stable.
Career Highlights
Christopher Scott Johnson is associated with DCI Corporation, where he applies his expertise in fluid dynamics. His innovative approach and technical skills have made him a valuable asset to the company. Johnson's work exemplifies the intersection of engineering and practical application, showcasing his commitment to advancing technology in his field.
Collaborations
Johnson collaborates with talented individuals such as Christopher F. Johnson and Andrew C. Johnson. Their combined efforts contribute to the innovative environment at DCI Corporation, fostering creativity and technological advancement.
Conclusion
Christopher Scott Johnson's contributions to the field of fluid dynamics through his patent demonstrate his innovative spirit and technical expertise. His work not only enhances our understanding of immiscible fluids but also paves the way for future advancements in related technologies.