Company Filing History:
Years Active: 2009-2010
Title: The Innovative Contributions of Nicolas Flandrin
Introduction
Nicolas Flandrin is a notable inventor based in Nanterre, France. He has made significant contributions to the field of fluid dynamics, particularly in the simulation of fluid flows within heterogeneous formations. With a total of 2 patents to his name, Flandrin's work is essential for advancements in hydrocarbon reservoir simulations.
Latest Patents
Flandrin's latest patents include a method for simulating fluid flows within a medium discretized by a hybrid grid. This method evaluates fluid flows within a heterogeneous formation that is crossed by one or more geometric discontinuities. The process involves generating a hybrid grid from a CPG type grid and structured grids, which is crucial for simulating hydrocarbon reservoirs. The first stage of this method locally deforms a CPG type grid into a non-uniform Cartesian grid, allowing for accurate representation of the fluid dynamics involved.
Another significant patent is a method of generating a conforming hybrid grid in three dimensions of a heterogeneous formation. This method is designed for hydrocarbon reservoir simulation and combines structured and unstructured grids to effectively model formations with geometric discontinuities. The hybrid grid includes a structured grid for gridding the heterogeneous medium and additional structured grids for areas around each discontinuity, ensuring precise simulations.
Career Highlights
Nicolas Flandrin is associated with the Institut Français du Pétrole, where he applies his expertise in fluid dynamics and grid generation techniques. His work is instrumental in enhancing the accuracy of simulations used in the oil and gas industry.
Collaborations
Flandrin has collaborated with notable colleagues such as Chakib Bennis and Houman Borouchaki. Their combined efforts contribute to the advancement of methodologies in fluid flow simulations.
Conclusion
Nicolas Flandrin's innovative patents and contributions to fluid dynamics are vital for the future of hydrocarbon reservoir simulations. His work continues to influence the field and drive advancements in technology.