Valerie Suzanne Vernet

Title: Valerie Suzanne Vernet: Innovator in Gas Turbine Technology

Introduction

Valerie Suzanne Vernet is a prominent inventor based in Inman, SC (US). She has made significant contributions to the field of gas turbine technology, holding 2 patents that showcase her innovative spirit and technical expertise.

Latest Patents

One of her latest patents is titled "Systems and methods for extended emissions compliant operation of a gas turbine engine." This invention outlines a method of operating a rotary machine below a minimum emissions compliance load. The process involves reducing a fuel split to zero, which apportions the total flow of fuel to the combustor between two combustion zones. The method also includes determining the current operating temperature of the first combustion zone using a digital simulation. By establishing a target operating temperature, the rotary machine can operate below traditional Minimum Emissions Compliance Load (MECL) while still adhering to emissions standards. Additionally, she has developed a patent for a "Method of starting a turbomachine by testing operational support systems during the purging process." This invention aims to reduce the start-up time associated with powerplant machines, particularly turbomachines, by testing the systems before the start-up process begins.

Career Highlights

Valerie is currently employed at General Electric Company, where she continues to innovate and contribute to advancements in gas turbine technology. Her work has had a significant impact on improving the efficiency and compliance of power generation systems.

Collaborations

Throughout her career, Valerie has collaborated with notable colleagues, including David Leach and Jason Nathaniel Cook. These partnerships have fostered a collaborative environment that encourages innovation and the sharing of ideas.

Conclusion

Valerie Suzanne Vernet is a trailblazer in the field of gas turbine technology, with her patents reflecting her commitment to innovation and efficiency. Her contributions continue to shape the future of power generation systems.