Company Filing History:
Years Active: 1992
Title: Innovations of Michael J Welter
Introduction
Michael J Welter is an accomplished inventor based in Columbiana, OH (US). He is known for his innovative contributions to the field of combustion technology. His work focuses on enhancing the efficiency and control of combustion processes.
Latest Patents
Welter holds a patent for a "Pulse combustor with controllable oscillations." This invention describes a pulse combustor that utilizes thermally induced pulse combustion in a continuously flowing system. The design incorporates at least one elongated ceramic body, which significantly increases the heat transfer area within the combustion chamber. The ceramic body possesses sufficient mass and heat capacity to ignite the fuel-air charge after being heated by conventional spark plug initiated combustion. This allows for repetitive ignition and combustion of sequentially introduced fuel-air charges without the need for a spark plug. The invention also provides controlled quenching of the flame after each ignition, enabling selective control over the oscillation frequency and amplitude. Additionally, mechanisms for selectively heating or cooling the ceramic body and the combustion chamber walls enhance heat transfer control.
Career Highlights
Welter's career is marked by his dedication to advancing combustion technology. His innovative approach has led to significant improvements in the efficiency and effectiveness of combustion systems. He works for the United States of America as represented by the United States, contributing to research and development in this critical area.
Collaborations
Welter has collaborated with notable colleagues, including George Alan Richards and Gary Jay Morris. Their combined expertise has fostered advancements in combustion technology and innovation.
Conclusion
Michael J Welter's contributions to the field of combustion technology exemplify the spirit of innovation. His patented pulse combustor represents a significant advancement in the efficiency and control of combustion processes.