Company Filing History:
Years Active: 2017
Title: The Innovative Contributions of Rune Lien
Introduction
Rune Lien is a notable inventor based in Kongsberg, Norway. He has made significant contributions to the field of subsea technology, particularly in the area of sampling systems for multiphase flows. His work is recognized for its practical applications in both subsea and surface environments.
Latest Patents
Rune Lien holds a patent for a "Sampling separation module for subsea or surface application." This innovative system is designed to segregate, enrich, and capture oil, water, and gas samples from a multiphase flow. The system can be utilized in various conditions, including subsea locations and surface applications, where it connects to a flow of different phases of gas and/or liquid. The samples obtained are representative of the phases flowing at wellhead conditions, taking into account both pressure and temperature. Notably, the system requires a relatively small volume of each phase to obtain accurate samples. It connects and disconnects to ports installed at the sampling location near the wellhead or production line, with the sampling flow controlled by a pump. The collected samples are separated into mono-phase samples (oil, water, and gas) and stored in individual bottles.
Career Highlights
Rune Lien is currently employed at Schlumberger Technology Corporation, a leading company in the oil and gas industry. His work at Schlumberger has allowed him to develop and refine his innovative sampling systems, contributing to advancements in the field.
Collaborations
Throughout his career, Rune has collaborated with esteemed colleagues, including Bernard E. Theron and Malcolm Atkinson. These collaborations have further enhanced the development and implementation of his innovative technologies.
Conclusion
Rune Lien's contributions to subsea technology through his innovative sampling systems have made a significant impact in the industry. His work exemplifies the importance of innovation in addressing the challenges of multiphase flow sampling.