Company Filing History:
Years Active: 2025
Title: Frederic Albergucci: Innovator in Battery Cooling Technology
Introduction
Frederic Albergucci is a notable inventor based in Bordeaux, France. He has made significant contributions to the field of thermal management systems, particularly in the context of battery assemblies. His innovative approach focuses on enhancing the efficiency of liquid immersion cooling systems for battery cells.
Latest Patents
Albergucci holds a patent for "Stacked separator plates with coolant flow distribution channels for liquid immersion cooling in battery assemblies." This patent presents advanced thermal management systems that utilize coolant flow distribution plates for the immersion cooling of battery cells. The design includes multiple battery cells arranged in adjacent, mutually parallel cell rows, all housed within a protective battery casing. The system features inlet and outlet fluid ports for the circulation of dielectric coolant fluid. A pair of separator plates is strategically placed between each neighboring pair of cell rows, with coolant channels arranged in mutually parallel channel bands. This configuration allows for effective distribution of coolant fluid onto and vertically upward between the battery cells.
Career Highlights
Frederic Albergucci is currently employed at Gm Global Technology Operations, Inc., where he continues to develop innovative solutions for battery cooling technologies. His work is pivotal in advancing the efficiency and performance of electric vehicles.
Collaborations
Albergucci collaborates with talented individuals such as William Yu Chen and Chih-Hung Yen, contributing to a dynamic team focused on cutting-edge technology in the automotive sector.
Conclusion
Frederic Albergucci's contributions to battery cooling technology exemplify the importance of innovation in the automotive industry. His patent and ongoing work at Gm Global Technology Operations, Inc. highlight his commitment to enhancing the performance of electric vehicles through effective thermal management systems.