Matthew Noel Orchard

Title: Matthew Noel Orchard: Innovator in Cryogenic Technology

Introduction

Matthew Noel Orchard is a notable inventor based in Bristol, GB. He has made significant contributions to the field of cryogenic technology, holding a total of 5 patents. His work focuses on enhancing safety and efficiency in cryogenic applications, particularly in the automotive and aerospace industries.

Latest Patents

One of his latest patents is for a cryogenic tank designed for storing cryogenic fluids. This innovative tank is typically mounted on vehicles to supply cryogenic fuel to propulsion systems. It features an inner vessel for containing cryogenic fluids and an outer vessel that defines a vacuum insulating volume, allowing for effective load transmission while isolating the inner vessel from external pressures. Another significant patent is for a fuel line safety protection system. This system provides an additional layer of protection against failures in fuel lines used with high-pressure and cryogenic fuels. The design includes a secondary outer sleeve that may be reinforced and is equipped with a selectively permeable or impermeable membrane. This sleeve not only protects against fuel leaks but also safeguards against oxygen liquefaction in cryogenic applications.

Career Highlights

Matthew has worked with prominent companies such as Airbus Operations GmbH and Zero Emissions Aerospace Limited. His experience in these organizations has allowed him to develop and refine his innovative ideas in cryogenic technology.

Collaborations

Throughout his career, Matthew has collaborated with talented individuals, including Roger Laguia-Barnola and Norman Wood. These partnerships have contributed to the advancement of his projects and patents.

Conclusion

Matthew Noel Orchard is a distinguished inventor whose work in cryogenic technology has the potential to revolutionize safety and efficiency in various applications. His innovative patents reflect his commitment to advancing the field and addressing critical challenges in cryogenic systems.