Company Filing History:
Years Active: 2023
Title: Innovations by Vivek Singhal in X-ray Mass Flow Rate Sensors
Introduction
Vivek Singhal is an accomplished inventor based in Austin, TX. He has made significant contributions to the field of sensor technology, particularly with his innovative work on X-ray mass flow rate sensors. His inventions are aimed at improving high-pressure processes, showcasing his expertise and creativity in engineering.
Latest Patents
Vivek Singhal holds a patent for an X-ray mass flow rate sensor designed for high-pressure applications. This sensor utilizes a low-density polymer pipe, an X-ray source, and an X-ray detector. The polymer pipe is characterized by a low density of less than 2.8 SG and a high-pressure rating exceeding 5 ksi. By employing a low-density polymer pipe, the sensor can operate with an X-ray source that does not necessitate a linear accelerator and is limited to 450 kV. The X-ray source and detector are positioned on opposite sides of the polymer pipe, creating a detection area that allows for real-time calibration by measuring gray level values in a calibration region with two reference materials. Additionally, the sensor may incorporate a mechanical flow rate sensor featuring multiple pistons with springs of varying constants.
Career Highlights
Vivek Singhal is affiliated with the University of Texas System, where he continues to advance his research and development efforts. His work has garnered attention for its practical applications in various industries, particularly those requiring precise flow measurements under high-pressure conditions.
Collaborations
Vivek collaborates with notable colleagues such as Eric Van Oort and Pradeepkumar Ashok. Their combined expertise contributes to the innovative projects undertaken at the University of Texas System.
Conclusion
Vivek Singhal's contributions to the field of sensor technology, particularly through his patent for X-ray mass flow rate sensors, highlight his role as a leading inventor. His work not only enhances measurement accuracy in high-pressure processes but also reflects the ongoing advancements in engineering and technology.