Company Filing History:
Years Active: 1981-2002
Title: **Inventor Spotlight: Arno H. Reidies**
Introduction
Arno H. Reidies, an accomplished inventor based in LaSalle, Illinois, has made significant contributions to the field of materials science and waste management through his innovative patents. With a total of nine patents to his name, his work focuses on creating effective oxidizing materials and methods.
Latest Patents
One of Reidies' most notable inventions is a method of composition and kit for oxidizing materials in an aqueous stream. This innovation introduces an oxidizing composition that consists of agglutinated particles including alkali metal permanganate, binder or coating agents such as alkali metal silicates and/or aluminate, and various fillers like clay, diatomaceous earth, talc, ground silica, or zeolites. The kit is designed to facilitate the oxidation of waste materials in a substantially aqueous moving fluid stream.
Another significant patent by Reidies is a Sorel cementitious composition that time-releases permanganate ions into aqueous media. This inventive approach not only describes the composition but also outlines methods for making and using this effective oxidizing formulation.
Career Highlights
Reidies has had a fruitful career, notably with his tenure at Carus Corporation and Carus Chemical Company. His work at these organizations has played a crucial role in his development as an inventor and in refining his innovations.
Collaborations
Throughout his career, Reidies has collaborated with notable professionals, including Edward S. Rogers and Peter G. Mein. These collaborations have helped advance his research and innovations in the field of oxidizing solutions and cementitious compositions.
Conclusion
Arno H. Reidies continues to be a prominent figure in the realm of innovation, particularly in developing methods and compositions for waste treatment and environmental management. His contributions not only showcase his inventive prowess but also reflect a commitment to sustainability and enhancing material applications.