Location History:
- Clifton Park, NY (US) (2002)
- Wilmington, MA (US) (2011 - 2014)
Company Filing History:
Years Active: 2002-2014
Title: Innovations of Nicholas Joseph Mollo
Introduction
Nicholas Joseph Mollo is a notable inventor based in Wilmington, MA (US). He has made significant contributions to the field of flow measurement technology, holding a total of 3 patents. His work focuses on innovative solutions that enhance the accuracy and efficiency of fluid flow measurement systems.
Latest Patents
Mollo's latest patents include a "Sensor port insert apparatus," which provides a method for installing a transducer assembly in a sensor port of a flow cell without the use of glues or adhesives. This innovative design simplifies the installation process and improves the reliability of the transducer assembly. Another significant patent is the "Method and system for multi-path ultrasonic flow rate measurement." This invention describes a multi-path ultrasonic flow meter that determines the flow rate of a fluid in a conduit using multiple transducer pairs. The method involves calculating a composite velocity and applying a profile correction factor to achieve accurate flow rate measurements across various Reynolds numbers.
Career Highlights
Throughout his career, Nicholas Mollo has worked with prominent companies such as General Electric Company and Ge Infrastructure Sensing, Inc. His experience in these organizations has allowed him to develop and refine his innovative ideas in flow measurement technology.
Collaborations
Mollo has collaborated with talented individuals in his field, including Benjamin Edward McDonald and Xiaolei Shirley Ao. These partnerships have contributed to the advancement of his inventions and the successful development of new technologies.
Conclusion
Nicholas Joseph Mollo's contributions to the field of flow measurement technology are noteworthy. His innovative patents and collaborations with industry professionals highlight his commitment to advancing this important area of engineering. His work continues to influence the development of more efficient and accurate fluid measurement systems.