Company Filing History:
Years Active: 1994
Title: H Burt Warner: Innovator in Cryogenic Cooling Systems
Introduction
H Burt Warner is a notable inventor based in Orange, California, recognized for his contributions to the field of cryogenic technology. He holds a patent for a unique airborne cryogenic cooling system, showcasing his innovative approach to engineering challenges.
Latest Patents
Warner's most significant patent is for a "Cryogenic cooling system for airborne use." This invention involves an airborne cryogenic cooling system where a first cryogenic material is cooled to a solid state within an on-board container. Prior to launch, a second cryogen is remotely located and conduited to the container. Just before becoming airborne, the connection to the second cryogen is broken, allowing for on-board cooling through venting the container to the space environment. This process causes sublimation of the solid first cryogenic, or alternatively, the container may remain sealed, resulting in cooling from the triple-point transition of the solid cryogen. Warner's innovative design addresses the complexities of cooling systems in aerospace applications.
Career Highlights
H Burt Warner has made significant strides in his career, particularly through his work at Hughes Aircraft Company. His expertise in cryogenic systems has positioned him as a valuable asset in the aerospace industry. With a patent portfolio that includes one patent, he has demonstrated his ability to innovate and contribute to advanced technologies.
Collaborations
Warner has collaborated with notable colleagues, including Matthew M Skertic and Roy B Hasselquist. These partnerships have likely enriched his work and contributed to the development of cutting-edge technologies in the field.
Conclusion
H Burt Warner's contributions to cryogenic cooling systems exemplify the spirit of innovation in aerospace technology. His patent reflects a deep understanding of engineering principles and a commitment to advancing the field. Warner's work continues to inspire future developments in cryogenic applications.