Company Filing History:
Years Active: 1990
Title: Paul Siska - Innovator in Dew Point Analysis
Introduction
Paul Siska is a notable inventor based in Calgary, Canada. He has made significant contributions to the field of gas analysis, particularly with his innovative patent for a dew point analyzer. His work has implications for various industries that rely on accurate measurements of hydrocarbon and water dew points in gas streams.
Latest Patents
Paul Siska holds a patent for a dew point analyzer. This device determines the dew points of condensible hydrocarbon and water in a gas stream independently in a single run. It operates by observing changes in the intensity of light scattered from a mirror surface, which is cooled below both dew points. A decrease in intensity indicates the hydrocarbon dew point, while an increase denotes the water dew point. The apparatus is designed to be simple and operates automatically. The mirror surface features a polished, highly reflective portion and a roughened, less reflective portion. The intensity of scattered light is monitored separately for each mirror portion, enhancing the accuracy of the measurements.
Career Highlights
Throughout his career, Paul Siska has been associated with Nova Husky Research Corporation. His work at this organization has allowed him to focus on developing innovative solutions for gas analysis. His expertise in this area has positioned him as a valuable contributor to advancements in the field.
Collaborations
Paul has collaborated with notable colleagues, including Kewal K Vij and Gyula Eisenbart. These partnerships have fostered an environment of innovation and have contributed to the development of effective technologies in gas analysis.
Conclusion
Paul Siska's contributions to the field of dew point analysis exemplify the impact of innovative thinking in technology. His patent for the dew point analyzer showcases his ability to create practical solutions for complex problems. His work continues to influence the industry and highlights the importance of accurate gas measurements.