Company Filing History:
Years Active: 1989
Title: Todd A. Cerni: Innovator in Vapor Density Measurement
Introduction
Todd A. Cerni is a notable inventor based in Littleton, Colorado. He has made significant contributions to the field of vapor density measurement, particularly in applications related to nuclear reactor cooling. His innovative approach has led to the development of a unique apparatus that enhances the accuracy of measuring water vapor concentration in gaseous mixtures.
Latest Patents
Cerni holds a patent for a "Method of and apparatus for measuring vapor density." This invention provides a sophisticated method for determining the concentration of individual components, such as water vapor, within multi-component gaseous mixtures. The apparatus utilizes an infrared source to produce a broadband infrared energy beam, which includes both strong and weak water vapor absorption bands. The design incorporates a series of infrared pulses that allow for precise measurements, making it a valuable tool in various scientific and industrial applications.
Career Highlights
Todd A. Cerni is associated with Ophir Corporation, where he applies his expertise in developing advanced measurement technologies. His work has been instrumental in enhancing the capabilities of vapor density measurement, contributing to safer and more efficient nuclear reactor operations. Cerni's innovative spirit and technical knowledge have positioned him as a key figure in his field.
Collaborations
Cerni collaborates with Loren Dean Nelson, leveraging their combined expertise to further advance the technology in vapor density measurement. Their partnership exemplifies the importance of teamwork in driving innovation and achieving significant breakthroughs in scientific research.
Conclusion
Todd A. Cerni's contributions to the field of vapor density measurement highlight his role as an influential inventor. His patented technology not only enhances measurement accuracy but also plays a crucial role in the safety and efficiency of nuclear reactor operations.