Company Filing History:
Years Active: 2019
Title: The Innovative Contributions of Matthew W. Reese
Introduction
Matthew W. Reese is an accomplished inventor based in Temple, GA (US). He has made significant contributions to the field of heating technology, particularly through his innovative designs in furnace and heat exchanger systems. His work exemplifies the spirit of innovation that drives advancements in energy efficiency and environmental sustainability.
Latest Patents
Matthew W. Reese holds a patent for a "Four pass high efficiency furnace and heat exchanger." This invention provides a condensing heat exchanger assembly that includes multiple heat exchanger passes. The condensing furnace features a burner assembly with a combustion air device and a frame that houses a primary heat exchanger with a first and second pass. Additionally, a secondary heat exchanger includes a third and fourth pass. The design allows for simultaneous airflow over both the primary and secondary heat exchangers, enhancing efficiency in heating applications.
Career Highlights
Matthew W. Reese is currently employed at Heatco, Inc., where he continues to develop innovative heating solutions. His work focuses on improving the efficiency and effectiveness of heating systems, contributing to the company's reputation as a leader in the industry. With a patent portfolio that includes his latest invention, Reese is recognized for his technical expertise and commitment to advancing heating technology.
Collaborations
Matthew has collaborated with notable colleagues such as Eric R. Bruton and Terrance C. Slaby. These partnerships have fostered a creative environment that encourages the exchange of ideas and the development of cutting-edge technologies in the heating sector.
Conclusion
Matthew W. Reese's contributions to the field of heating technology through his innovative patents and collaborations highlight his role as a key inventor in the industry. His work not only enhances energy efficiency but also sets a standard for future innovations in heating systems.