Martin Lee Timm

Title: Martin Lee Timm: Innovator in Energy Delivery and Air Separation Technologies

Introduction

Martin Lee Timm is a notable inventor based in Getzville, NY (US). He has made significant contributions to the fields of energy delivery systems and air separation technologies. With a total of 4 patents to his name, Timm's work has had a considerable impact on industrial processes.

Latest Patents

One of Timm's latest patents is an energy delivery system for a gas transport vessel containing low vapor pressure gas. This innovative system is designed to deliver vapor phase fluid at an elevated pressure from a transport vessel containing liquefied or two-phase fluid. The system features a transport vessel positioned horizontally, energy delivery elements with heating means, and rigid support devices that ensure thermal contact with the vessel.

Another significant patent is a method and apparatus for separating air. This invention focuses on separating nitrogen from a compressed and purified feed stream in a cryogenic rectification plant. It employs a distillation column to produce nitrogen-rich vapor and oxygen-rich liquid. The method includes generating reflux for the column and recirculating part of the oxygen-rich liquid phase to maintain effective condensation of the nitrogen-rich vapor.

Career Highlights

Martin Lee Timm is currently associated with Praxair Technology, Inc., where he continues to develop innovative solutions in his field. His work has been instrumental in advancing technologies that enhance efficiency and effectiveness in gas transport and separation processes.

Collaborations

Timm has collaborated with notable coworkers such as Henry Edward Howard and Thomas John Bergman, Jr. Their combined expertise has contributed to the successful development of various technologies and patents.

Conclusion

Martin Lee Timm's contributions to energy delivery and air separation technologies highlight his role as an influential inventor. His innovative patents and collaborations continue to shape advancements in these critical areas.