Company Filing History:
Years Active: 2024-2025
Title: Innovations of Erik Undheim
Introduction
Erik Undheim is a notable inventor based in Bryne, Norway. He has made significant contributions to the field of flow measurement technology. With a total of two patents to his name, Undheim's work focuses on enhancing the accuracy and efficiency of fluid flow measurements.
Latest Patents
One of Erik Undheim's latest patents is for an "Enlarged pipe section for microwave-based flow measurements." This invention includes a pipe section designed with measuring antennas that assess predetermined characteristics of fluid within the pipe. The design features an input and output end with specific dimensions, along with a section that extends beyond these dimensions in one direction while maintaining a smaller cross-section in a perpendicular direction.
Another significant patent is for a "System for detection of drift of the water volume fraction in a flow." This system is particularly useful for measuring the water volume fraction of mixed fluid flows, especially in wet and dry gas hydrocarbon fluid flows. It comprises a measuring unit that evaluates the dielectric permittivity of the fluid mixture, a computing unit that calculates and stores the water volume fraction, and an analysis unit that detects drift in the measured water volume fraction by comparing it with statistical variations over time.
Career Highlights
Erik Undheim is currently employed at Roxar Flow Measurement AS, where he continues to innovate in the field of flow measurement technology. His work has been instrumental in developing systems that improve the accuracy of fluid measurements in various applications.
Collaborations
One of his notable collaborators is Ebbe Gustaf Nyfors, with whom he has worked on various projects related to flow measurement technologies.
Conclusion
Erik Undheim's contributions to the field of flow measurement through his innovative patents demonstrate his commitment to advancing technology in this area. His work continues to influence the industry and improve measurement accuracy for fluid flows.