Charles Francis Hanley

Title: Innovations of Charles Francis Hanley: Pioneering Patents in Gas Turbine Engineering

Introduction: Charles Francis Hanley, located in Liberty Township, OH, is a notable inventor with a keen focus on innovations related to gas turbine engines. With an impressive portfolio of three patents, Hanley's contributions have significantly advanced the field of turbine technology.

Latest Patents: Hanley's latest patents include groundbreaking methods and apparatus for local loop closure and vectoring nozzle control systems. The first patent details a method and apparatus that incorporate components for use in gas turbine engines. This invention encompasses an actuator or servo-valve, along with a sensor and an electronic module containing controller electronics and memory designed to process commands effectively. The second notable patent, the vectoring nozzle control system, offers an innovative approach to controlling the stroke of three circumferentially spaced actuators. These actuators operate a positionable actuation ring designed to vector thrust in a gas turbine engine exhaust nozzle, utilizing specific joint locations and trigonometric calculations for precise pitch and yaw adjustments.

Career Highlights: Throughout his career, Hanley has worked with General Electric Company, where he has implemented his innovative ideas into practical applications. His advancements demonstrate a strong commitment to enhancing gas turbine efficiency and functionality.

Collaborations: Hanley has collaborated with notable colleagues such as David J. Markstein and Mitchell Donald Smith, contributing to a network of innovation that drives progress in turbine technology.

Conclusion: Charles Francis Hanley exemplifies the spirit of innovation in the engineering sector, particularly in gas turbine technology. His patents reflect a deep understanding of complex systems and offer viable solutions that enhance operational capabilities. As the industry evolves, Hanley's contributions will continue to play a crucial role in shaping the future of gas turbine engineering.