Jody Doyon

Title: Jody Doyon: Innovator in Fuel Cell Technology

Introduction

Jody Doyon is a notable inventor based in Bantam, Connecticut, recognized for her contributions to the field of fuel cell technology. With a total of two patents to her name, she has made significant advancements in the manufacturing processes of electrolyte materials used in Carbonate Fuel Cell (CFC) power plants.

Latest Patents

Doyon's latest patents include a continuous method and apparatus for the manufacture of uniform size flake or powder. This innovative method allows for the continuous fabrication of homogeneous thin flake or powder electrolyte material from inorganic salts, metallic materials, or mixtures thereof. The process involves feeding electrolyte precursor powders into a continuous blender type mixer, where precision metering equipment controls the material feed rates. The blended powders are then melted in a high-temperature melting tank, forming a desired molten eutectic composition. The liquid eutectic melt is subsequently dripped through nozzles and splat-cooled on a rotating, water-cooled metal cylinder, resulting in uniform size, thin flake material. This thin flake electrolyte material can be utilized as-is or further processed using continuous grinding and powder fabrication equipment.

Career Highlights

Doyon is currently employed at FuelCell Energy, Inc., where she continues to develop innovative solutions for energy production. Her work focuses on enhancing the efficiency and effectiveness of fuel cell technologies, contributing to the advancement of sustainable energy solutions.

Collaborations

Doyon collaborates with her coworker, Thomas M Lucas, to further innovate in the field of fuel cell technology. Their combined expertise fosters a productive environment for research and development.

Conclusion

Jody Doyon's contributions to fuel cell technology through her patents and work at FuelCell Energy, Inc. highlight her role as a key innovator in the industry. Her continuous efforts in developing efficient manufacturing processes for electrolyte materials are paving the way for advancements in sustainable energy solutions.