Company Filing History:
Years Active: 2000-2012
Title: Warren Kendrick Jaul: Innovator in Supersonic Technology
Introduction
Warren Kendrick Jaul is a notable inventor based in Ridgecrest, CA (US). He has made significant contributions to the field of aerothermal testing and combustion technology. With a total of 3 patents, Jaul's work focuses on advancing the capabilities of supersonic and hypersonic systems.
Latest Patents
Jaul's latest patents include innovative technologies that enhance the efficiency and effectiveness of supersonic combustion. One of his key inventions is the "Variable supersonic mach number air heater utilizing supersonic combustion." This apparatus features a fixed geometric nozzle with a converging area, throat, and diverging area. It incorporates a movable combination of a fuel injector and an oxygen injector, strategically positioned to stabilize the flame at the exit plane.
Another significant patent is the "Low cost wind tunnel for supersonic and hypersonic aerothermal testing." This invention provides a subsonic wind tunnel capable of accurately maintaining desired Mach numbers, pressure, and temperature for aerothermal testing. The design allows for precise control of the Mach number in the test section, simulating actual trajectories with varying conditions.
Career Highlights
Warren Kendrick Jaul is currently associated with the United States Navy, where he contributes his expertise in aerothermal technologies. His work has been instrumental in developing systems that enhance the understanding and application of supersonic and hypersonic flight.
Collaborations
Jaul has collaborated with notable colleagues, including Ronald Schultz and Gerhard Willms Thielman. These partnerships have fostered innovation and advancement in their respective fields.
Conclusion
Warren Kendrick Jaul's contributions to supersonic technology and aerothermal testing are noteworthy. His innovative patents reflect a commitment to advancing the field and improving the efficiency of combustion systems. His work continues to influence the future of aeronautics and engineering.