Company Filing History:
Years Active: 2014
Title: Crystal McGee McConnaughhay: Innovator in Fuel Injection Technology
Introduction
Crystal McGee McConnaughhay is a notable inventor based in Greenville, SC (US). She has made significant contributions to the field of fuel injection technology, showcasing her innovative spirit and technical expertise. With a focus on enhancing engine performance, her work has implications for various applications in the automotive and aerospace industries.
Latest Patents
Crystal holds a patent for a Late Lean Injection (LLI) manifold. This innovative manifold design includes a central nozzle and first and second side nozzles positioned at circumferential locations around a vessel. The design features a connector and a first leg that defines a tube extending from the central nozzle to the first side nozzle, allowing for fuel communication between these components. Additionally, a second leg is formed to define a tube extending from the central nozzle to the second side nozzle, ensuring efficient fuel communication. This patent represents her commitment to advancing fuel injection systems.
Career Highlights
Crystal is currently employed at General Electric Company, where she applies her engineering skills to develop cutting-edge technologies. Her work at GE has allowed her to collaborate with other talented professionals in the field, further enhancing her contributions to innovation.
Collaborations
Some of her notable coworkers include Lucas John Stoia and Jonathan Hale Kegley. Their collaborative efforts contribute to the success of projects within the company, fostering an environment of creativity and innovation.
Conclusion
Crystal McGee McConnaughhay exemplifies the spirit of innovation through her work in fuel injection technology. Her patent for the Late Lean Injection manifold highlights her technical prowess and dedication to improving engine performance. As she continues her career at General Electric Company, her contributions will undoubtedly shape the future of fuel injection systems.