Franz Lenz

Title: **Franz Lenz: Innovator in Electrochemical Storage Solutions**

Introduction

Franz Lenz, a visionary inventor from Neulussheim, Germany, has made significant contributions to the field of electrochemical storage technology. With a total of two patents to his name, Lenz has focused on enhancing the efficiency and safety of storage cells, particularly those used for sodium.

Latest Patents

Lenz's most recent innovation is the patent for an "Electrochemical Storage Cell with Additional Closure Seal." This advanced storage cell features a metallic casing that encloses a cup-shaped solid electrolyte, effectively separating the anode compartment from the cathode compartment. Notably, this storage cell has been designed to be leak-proof and gas-tight, with an additional seal that incorporates two overlapping components, enhancing its overall integrity.

In addition, he developed a patent for a general "Electrochemical Storage Cell," specifically of the Na/S type. This design includes a safety container for sodium that communicates with the solid electrolyte through a strategically placed hole, featuring a flow resistance mechanism that allows sodium to pass through multiple discharge openings.

Career Highlights

Throughout his career, Franz Lenz has been associated with prominent companies in the engineering and technology sectors. He has worked with Brown, Boveri & Cie AG and ABB Patent GmbH, where he contributed to various advancements in electrical engineering and patent development.

Collaborations

Lenz has collaborated with noteworthy professionals, including Dieter Hasenauer and Gunther Steinleitner. These partnerships likely facilitated creative exchanges that may have influenced the innovative designs present in his patents.

Conclusion

Franz Lenz stands as a notable figure in the realm of electrochemical storage solutions. With his groundbreaking patents and collaborative efforts, he continues to pave the way for advancements in battery technology. His work not only enhances safety but also improves the efficiency of energy storage systems, making notable contributions to the field.