Jan C Namyslo

Title: Jan C Namyslo: Innovator in Energy-Efficient Metal Chelate Production

Introduction

Jan C Namyslo is a notable inventor based in Herzberg am Harz, Germany. He has made significant contributions to the field of chemistry, particularly in the production of metal chelates. With a total of 2 patents to his name, Namyslo's work focuses on energy-efficient and environmentally friendly methods.

Latest Patents

One of Jan C Namyslo's latest patents is an energy-efficient solvent-free method for producing metal chelates. This innovative method involves a solvent-free mixture of at least one metal oxide, metal hydroxide, metal carbonate, or oxalate, combined with a solid organic acid. The process subjects these materials to intensive mechanical stress, introducing the reaction partners in particle form into a fluid stream of a fluid-bed countercurrent mill that operates without grinding elements. The mechanical activation occurs through collision processes within a reaction chamber, triggering a solid body reaction to form the metal chelate. This novel method is highly energy-efficient and yields compact particles in the small, single-digit micrometer range, characterized by a narrow particle size distribution and a large surface area. The resulting product is homogeneous and pure, avoiding thermal loading or decomposition of the organic chelate ligands, particularly amino acids, and eliminating contaminants from milling and grinding element abrasion.

Career Highlights

Jan C Namyslo is affiliated with Technische Universität Clausthal, where he continues to advance his research and innovations. His work has garnered attention for its potential applications in various industries, particularly those focused on sustainable practices.

Collaborations

Namyslo has collaborated with notable colleagues, including Dieter Kaufmann and Roman Florescu, contributing to a dynamic research environment that fosters innovation and development.

Conclusion

Jan C Namyslo's contributions to the field of metal chelate production exemplify the importance of innovation in chemistry. His energy-efficient methods not only enhance production efficiency but also align with sustainable practices, marking him as a significant figure in contemporary scientific research.