Company Filing History:
Years Active: 2005-2007
Title: B Joseph Fietkiewicz: Innovator in Thermal Management Solutions
Introduction
B Joseph Fietkiewicz is a notable inventor based in Racine, WI (US), recognized for his contributions to thermal management technologies. He holds 2 patents that showcase his innovative approach to engineering challenges in high-pressure applications.
Latest Patents
His latest patents include an "Internally mounted radial flow, high pressure, intercooler for a rotary compressor machine." This invention features a header construction designed for use in heat exchangers, incorporating an array of parallel tube runs with fins. The design includes a flat header plate with tube slots for receiving tube ends, along with a tank that is sealed to the header plate. Additionally, stiffening beads in the form of flanges are strategically placed to enhance the structural integrity of the header.
Another significant patent is the "Latent heat storage device," which presents a low volume, high capacity solution for thermal energy storage. This device consists of a salt case with an optional outer jacket that creates an insulating space. The design includes inlet and outlet conduits extending from the outer jacket to the salt case, with a tube located within the salt case that contains a phase change material. The innovative arrangement of tube runs allows for efficient fluid communication and heat transfer.
Career Highlights
B Joseph Fietkiewicz is currently employed at Modine Manufacturing Company, where he applies his expertise in thermal management solutions. His work has significantly contributed to advancements in the field, particularly in high-pressure applications.
Collaborations
He has collaborated with notable coworkers, including Steven Meshenky and Robert Barfknecht, who have also made significant contributions to the field.
Conclusion
B Joseph Fietkiewicz's innovative patents and career at Modine Manufacturing Company highlight his impact on thermal management technologies. His work continues to influence advancements in engineering solutions for high-pressure applications.