Company Filing History:
Years Active: 2017-2024
Title: Innovations by Christopher Seith in Carbon Dioxide Chromatography Systems
Introduction
Christopher Seith is an accomplished inventor based in Franklin, MA (US). He has made significant contributions to the field of chromatography, particularly in the cooling of pump heads in carbon dioxide chromatography systems. With a total of nine patents to his name, Seith's work focuses on enhancing the stability and efficiency of multi-pump systems.
Latest Patents
One of Seith's latest patents addresses the cooling of pump heads in carbon dioxide chromatography systems. This patent outlines methodologies, systems, and apparatus designed to provide balanced cooling and heat transfer between multiple pump heads. Multi-pump systems, which are essential for pumping fluids that exhibit significant density variations with minor temperature changes, require highly stable temperature conditions. To achieve this, Seith's invention proposes flowing coolant fluid through passageways within the pump heads in recursive and/or parallel flow patterns. These innovative flow patterns enhance temperature stability, compressibility, and density of the fluids in a multi-pump system.
Career Highlights
Christopher Seith is currently employed at Waters Technologies Corporation, a leading company in the field of analytical instruments and software. His work at Waters has allowed him to develop and refine his innovative ideas, contributing to advancements in chromatography technology.
Collaborations
Seith has collaborated with notable colleagues, including Michael R. Jackson and Joshua A. Shreve. Their combined expertise has fostered a productive environment for innovation and development in their respective fields.
Conclusion
Christopher Seith's contributions to the field of chromatography, particularly through his innovative cooling methodologies, have significantly advanced the technology used in multi-pump systems. His work continues to influence the industry and improve the efficiency of chromatography processes.