Don Banfield

Title: Don Banfield: Innovating the Measurement of Flow Speed

Introduction

Don Banfield is an accomplished inventor based in Ithaca, NY. He is recognized for his notable contributions to the field of fluid dynamics, particularly through his patented invention related to sonic anemometry. With a commendable background in academia and research, Banfield has proven to be an innovative force in his area of expertise.

Latest Patents

Banfield holds a patent for "Systems and methods for operation of a sonic anemometer." This invention focuses on a method of determining flow speed in a low-pressure environment. The innovative approach involves collecting bi-directional acoustic data from multiple transducer pairs while the fluid moves relative to these pairs. Key steps include measuring phase lags corresponding to the acoustic data, determining bi-directional flight times, and calculating the flow speed of the fluid for each transducer pair. Furthermore, this method accounts for corrections related to temperature effects, pressure effects, and wake effects using a system model. Ultimately, it culminates in generating a report that includes the flow speed of the fluid.

Career Highlights

Don Banfield has had a notable career, with significant roles in prestigious institutions such as Tufts University and Cornell University. His work at these institutions has provided him with a strong foundation in research and the practical application of scientific principles in creating innovative solutions.

Collaborations

Throughout his career, Don Banfield has collaborated with esteemed colleagues, including Robert White and Ian Neeson. These partnerships have contributed to the development and refinement of his work, particularly in the field of fluid dynamics.

Conclusion

Don Banfield’s work exemplifies the spirit of innovation within the realm of scientific research. His patented method for measuring flow speed in low-pressure environments showcases his ingenuity and commitment to advancing the understanding of fluid dynamics. With a strong academic background and collaborative efforts, Banfield continues to pave the way for future advancements in this vital area of study.