Company Filing History:
Years Active: 2017-2020
Title: Innovations of Patrick J Mulvaney
Introduction
Patrick J Mulvaney is an accomplished inventor based in Everett, WA (US). He has made significant contributions to the field of aerospace engineering, particularly in the design and functionality of fuel systems for aircraft. With a total of 2 patents, Mulvaney's work has been instrumental in enhancing aircraft performance and safety.
Latest Patents
Mulvaney's latest patents include a "Center fuel tank assembly with partitioned center fuel tank for an aircraft and methods of sequencing fuel for the same." This innovative assembly features a center fuel tank that is partitioned into multiple sections, allowing for a sequential fuel burn that optimizes the aircraft's center of gravity and reduces drag during flight. Another notable patent is the "Cooling system for a center wing tank of an aircraft." This system utilizes a temperature sensor and a phase change cooling mechanism to maintain optimal fuel temperatures, ensuring efficient operation and safety.
Career Highlights
Patrick J Mulvaney is currently employed at The Boeing Company, where he applies his expertise in aerospace technology. His work focuses on developing advanced fuel systems that contribute to the overall efficiency and performance of modern aircraft. His innovative designs have garnered attention within the industry and have set new standards for fuel management in aviation.
Collaborations
Mulvaney has collaborated with notable colleagues such as Bradford A Moravec and Rodney N Graham. These partnerships have fostered a creative environment that encourages the exchange of ideas and the development of cutting-edge technologies in aerospace engineering.
Conclusion
Patrick J Mulvaney's contributions to the field of aerospace engineering through his innovative patents and collaborative efforts at The Boeing Company highlight his commitment to advancing aircraft technology. His work continues to influence the industry and improve the safety and efficiency of air travel.