Company Filing History:
Years Active: 2017
Title: The Innovative Contributions of Matthew Carl Heller
Introduction
Matthew Carl Heller is an accomplished inventor based in Knoxville, TN (US). He is known for his significant contributions to the field of compressor technology. His innovative work focuses on enhancing the reliability and efficiency of rotating machine valves.
Latest Patents
Heller holds a patent for a "Compressor Valve Health Monitor." This invention is designed to monitor the health of rotating machine valves, particularly in reciprocating compressors. The system instruments each valve with sensors capable of detecting vibrations, while also monitoring the crankshaft for rotation. This allows for precise identification of individual valves that may exhibit leakage issues. The valve monitor employs a high-frequency stress wave analysis technique to ensure a good signal-to-noise ratio, which is crucial for identifying impact events indicative of leakage. Additionally, it utilizes circular waveforms of vibration data for pattern recognition, enabling ongoing data collection that predicts valve failures and schedules preventative maintenance.
Career Highlights
Heller's career is marked by his dedication to innovation in mechanical engineering. His work at Computational Systems, Inc. has positioned him as a key player in the development of advanced monitoring systems for industrial applications. His patent reflects his commitment to improving operational efficiency and reducing maintenance costs in machinery.
Collaborations
Heller has collaborated with notable colleagues, including Timothy Scott Bassett and Terry Lynn Ford. Their combined expertise contributes to the innovative environment at Computational Systems, Inc.
Conclusion
Matthew Carl Heller's contributions to compressor technology through his patented innovations demonstrate his expertise and commitment to advancing industrial machinery. His work not only enhances the performance of rotating machines but also sets a standard for future innovations in the field.