Company Filing History:
Years Active: 2023-2025
Title: The Innovations of Sébastien Merle
Introduction
Sébastien Merle is a notable inventor based in Moissy-Cramayel, France. He has made significant contributions to the field of aircraft propulsion technology. With a total of 2 patents to his name, his work focuses on enhancing the efficiency and functionality of aircraft thrusters.
Latest Patents
One of Sébastien Merle's latest patents is an "Aircraft thruster having an annular part integral with a fairing surrounding a first propeller." This innovative design includes a first propeller equipped with multiple radial blades that rotate around its axis. The propeller is driven by a first electric motor, and the electrical supply is characterized by power circuits arranged in an annular manner within a part that is integral with the thruster's fairing. This design optimizes the arrangement around the propeller for improved performance.
Another significant patent is the "Electrical propulsion unit for an aircraft and method for using such a propulsion unit." This invention features an electric propulsion unit that comprises at least one first propulsion member and a second propulsion member, both driven by a single electric motor. The motor is designed to enable counter-rotating motion, enhancing the efficiency of the propulsion system.
Career Highlights
Sébastien Merle is currently employed at Safran, a leading company in aerospace and defense. His work at Safran has allowed him to collaborate on cutting-edge technologies that push the boundaries of aircraft design and functionality.
Collaborations
Some of his coworkers include Christelle Saber and Anthony Gimeno. Their collaborative efforts contribute to the innovative environment at Safran, fostering advancements in aerospace technology.
Conclusion
Sébastien Merle's contributions to aircraft propulsion technology through his patents reflect his commitment to innovation in the aerospace industry. His work continues to influence the development of more efficient and effective aircraft systems.