Company Filing History:
Years Active: 2022
Title: The Innovative Journey of Lauren E. Brunacini
Introduction
Lauren E. Brunacini is an accomplished inventor based in Tucson, AZ, known for her groundbreaking work in rocket propulsion technologies. With a focus on enhancing ignition methods for solid rocket motors, Brunacini has contributed to significant advancements in aerospace engineering. Her passion for innovation and engineering excellence is exemplified through her patented invention.
Latest Patents
Lauren Brunacini holds a patent for a "Multi-pulse solid rocket motor ignition method." This innovative design features an electrically operated propellant initiator specifically for a propellant grain. The invention includes an electrode arrangement that effectively concentrates the electric field at the ignition electrode, facilitating the ignition of the electrically operated propellant. The rocket motor encompasses a combustion chamber that houses at least one propellant grain, alongside the initiator that is operatively connected to initiate combustion. The arrangement of the electrodes, which includes a ground plane electrode and an ignition electrode, is crucial for achieving optimal ignition when electrical input is applied.
Career Highlights
Brunacini has made noteworthy contributions while working at Raytheon Company, where she applies her expertise in aerospace technologies. Her work is pivotal to enhancing the efficacy and safety of rocket motors, further solidifying her reputation as an innovator in the field.
Collaborations
Throughout her career, Lauren has collaborated with notable professionals such as Frederick B. Koehler and Jacob A. Pinello-Benavides. These partnerships underscore the collaborative nature of innovation in aerospace and the importance of teamwork in developing cutting-edge technologies.
Conclusion
Lauren E. Brunacini continues to inspire the industry with her dedication to innovation and her impressive contributions to rocket propulsion technologies. Her patented methods not only reflect her ingenuity but also pave the way for future advancements in aerospace engineering.