Company Filing History:
Years Active: 2005-2015
Title: The Innovative Contributions of Cecilie T Misiewicz
Introduction
Cecilie T Misiewicz is a notable inventor based in Raade, Norway. She has made significant contributions to the field of downhole technology, particularly with her innovative designs that enhance the efficiency of oil and gas operations. With a total of 2 patents to her name, her work is recognized for its practical applications in challenging environments.
Latest Patents
One of her latest inventions is the Mud Flow Back Valve. This valve is designed for downhole use, allowing the flow of mud or completion fluids while automatically closing when subjected to produced hydrocarbons. The flow through the valve occurs via an annular passage featuring a sleeve, preferably made of rubber. During completion operations, the passage remains open, but when hydrocarbons are produced, the rubber swells, effectively closing off the passage. This invention is particularly useful in completions involving long horizontal runs and small inside diameter laterals, where access to a sliding sleeve with coiled tubing or a wireline run tool is impractical.
Career Highlights
Cecilie is currently employed at Baker Hughes Corporation, a leading company in the oil and gas industry. Her role involves developing innovative solutions that address the complexities of downhole operations. Her expertise and creativity have positioned her as a valuable asset within the company.
Collaborations
Throughout her career, Cecilie has collaborated with several professionals, including Knut Henriksen and Knut H Henriksen. These collaborations have fostered an environment of innovation and have contributed to the successful development of her patented technologies.
Conclusion
Cecilie T Misiewicz's contributions to the field of downhole technology exemplify the impact of innovative thinking in the oil and gas industry. Her patents, particularly the Mud Flow Back Valve, showcase her ability to solve complex challenges and improve operational efficiency. Her work continues to inspire future advancements in the field.