Company Filing History:
Years Active: 2015
Title: **Thomas A. Faigl: Innovator in Phosphoric Acid Production**
Introduction
Thomas A. Faigl, a prolific inventor based in Rock Springs, Wyoming, is recognized for his contributions to the field of phosphoric acid production. With a keen focus on optimizing industrial processes, Faigl has been instrumental in developing innovative methods that enhance efficiency and sustainability within the industry.
Latest Patents
Faigl holds a patent titled "Phosphoric acid production gypsum filtration flocculant pre-dilution (make down) with post-filtration phosphoric acid." This innovative method aims to minimize the water addition during the phosphoric acid production process. By utilizing phosphoric acid to dilute a flocculant that is subsequently added to the production process, Faigl's invention promotes better filtration and clarification of crude phosphoric acid, which significantly aids in recycling materials within the production line.
Career Highlights
Currently, Thomas A. Faigl is associated with the Nalco Company, where he continues to push boundaries in the realm of chemical production. His work has not only contributed to operational cost reductions but has also enhanced the environmental sustainability of phosphoric acid production, showcasing his commitment to innovation and advancement in chemical engineering.
Collaborations
Throughout his career, Faigl has collaborated with notable professionals in his field, including Ronald V. Davis and Wayne L. Moss. These partnerships have allowed him to broaden the scope of his inventions and share insights that drive the industry forward.
Conclusion
Thomas A. Faigl exemplifies the spirit of innovation in the chemical industry. His dedication to improving the processes involved in phosphoric acid production through inventive solutions reflects the crucial role inventors play in advancing industrial efficiency and sustainability. As he continues his work at Nalco Company, his contributions will undoubtedly influence the future landscapes of chemical production.