Richard J Nesting

Title: Richard J Nesting: Innovations in Fuel Sensing Technology

Introduction

Richard J Nesting, an accomplished inventor based in Everett, WA, has made significant contributions to the field of fuel sensing technology. With a total of three patents to his name, Nesting's pioneering work focuses on enhancing the efficiency and accuracy of fuel measurement systems.

Latest Patents

Nesting's latest patents include a groundbreaking wireless fuel sensor system. This innovative method involves transmitting a series of wireless power signals to a group of sensor units, followed by wireless data collection signals. As a result, sensor data is efficiently transmitted back to the system via wireless response signals.

Another notable patent by Nesting is the optical impedance modulation method for fuel quantity measurement. This system utilizes an optical impedance sensor that operates without electricity to accurately measure fuel levels in tanks. The design consists of two optical fibers contained within a meniscus tube, which is equipped with a longitudinal slot and a lens. This configuration minimizes fuel sloshing, allowing the optical impedance between the fibers to reflect changes in fuel levels. Depending on the height of the fuel tank, the sensor can be tailored to emit light either unidirectionally or omnidirectionally.

Career Highlights

Nesting's professional journey has largely been associated with The Boeing Company, where he employs his expertise in fuel sensing technologies. His role has enabled him to push the boundaries of innovation in aerospace fuel systems.

Collaborations

Richard J Nesting collaborates with fellow professionals in his field, including his coworkers Jason Philip Bommer and David William Minteer. Together, their collective insights and expertise foster advancements in fuel sensing solutions that impact various industries.

Conclusion

Through his innovative contributions and collaborations, Richard J Nesting exemplifies the spirit of invention. His work in wireless fuel sensor systems and optical impedance technology not only showcases his technical prowess but also enhances the way fuel measurement is approached in modern technology. As he continues to innovate, the impact of his discoveries is likely to resonate well beyond the aerospace industry.