Company Filing History:
Years Active: 2019-2020
Title: Innovations by Angus Morgan in Aircraft Fuel Systems
Introduction
Angus Morgan is a notable inventor based in Bristol, GB, recognized for his contributions to aircraft fuel systems. With a total of 3 patents, Morgan has developed innovative solutions that enhance the efficiency and safety of fuel management in aviation.
Latest Patents
One of Morgan's latest patents involves an aircraft fuel tank system designed to improve the management of liquid fuel. This system includes a fuel tank compartment equipped with a float-activated valve that becomes positively buoyant when immersed in liquid fuel. This mechanism allows the float to rise, closing the valve and preventing fuel from flowing out. Conversely, when the fuel level drops, the float descends, opening the valve to allow fuel to flow out. Additionally, a pressure-activated valve may serve as an alternative to the float-activated valve.
Another significant patent by Morgan features an aircraft fuel system that incorporates a baffle dividing the fuel tank into primary and secondary fuel containing spaces. This design includes a fuel drain that facilitates the flow of fuel from the primary space to the secondary space. The system is engineered so that the mass flow rate of fuel through the secondary outlet is greater than that through the fuel drain, ensuring efficient fuel management during flight.
Career Highlights
Angus Morgan is currently employed at Airbus Operations GmbH, where he applies his expertise in aviation technology. His work focuses on developing advanced fuel systems that contribute to the overall safety and performance of aircraft.
Collaborations
Morgan collaborates with talented colleagues, including Christopher Slack and Dylan Benedict James, who share his commitment to innovation in the aerospace industry.
Conclusion
Angus Morgan's inventive contributions to aircraft fuel systems demonstrate his dedication to enhancing aviation technology. His patents reflect a deep understanding of fuel management, which is crucial for the safety and efficiency of modern aircraft.