Company Filing History:
Years Active: 1984
Title: Innovations by Joseph V. McDonald in Ultrasonic Streaming Current Detection
Introduction
Joseph V. McDonald, an inventor based in Metairie, Louisiana, has made notable contributions to the field of ultrasonic current detection. He holds a patent that is crucial for understanding and measuring electric charges in charged particle streams. His work highlights the intersection of innovation and practical applications in technology.
Latest Patents
McDonald’s patent, titled "Jet Wash for Ultrasonic Streaming Current Detector," encompasses an advanced ultrasonic streaming current detector designed to develop an electric signal continuously. This signal reflects the charge condition within a fluid stream containing charged particles. The invention features a cross-shaped housing that incorporates a pump chamber with a reciprocating piston, which interacts with signal-generating electrodes. This innovative mechanism allows for effective measurement of electric charges in a fluid sample while preventing the buildup of residue that could impact accuracy.
Career Highlights
Joseph V. McDonald is associated with Process Development Corporation, where he applies his innovative mindset to develop practical solutions in the realm of fluid dynamics and charged particle detection. His patent represents a significant advancement in the design of devices that monitor electric charge in various industrial applications.
Collaborations
Throughout his career, Joseph has collaborated with Anthony S. Canzoneri, leveraging their combined expertise to enhance the development and application of technologies within their industry. Their partnership emphasizes the value of teamwork in the innovation process.
Conclusion
With a focus on practical inventions like the ultrasonic streaming current detector, Joseph V. McDonald continues to make strides in technology that effectively addresses the challenges in measuring electric charges in charged particle streams. His work not only showcases his inventiveness but also contributes significantly to advancements in the field.