David Gomse

Title: David Gomse: Innovator in Cryogenic Technology

Introduction

David Gomse is a notable inventor based in Munich, Germany. He has made significant contributions to the field of cryogenic technology, holding 2 patents that showcase his innovative approach to generating cryogenic temperatures and efficient power supply systems.

Latest Patents

Gomse's latest patents include an "Apparatus and method for generating cryogenic temperatures." This invention relates to a sophisticated apparatus designed to generate cryogenic temperatures through a multi-stage cooling process. The apparatus features a cooling stage with a cold region and a warm region, utilizing a specially designed refrigerant mixture. This innovative design allows for autonomous operation and enhances the refrigerating capacity while preventing incorrect distribution of the refrigerant.

Another significant patent is the "Power supply and method for production thereof." This invention focuses on transporting electrical energy between an energy source and a device, with the energy source located in a warm region and the device in a cold region. The power supply comprises a stack of films made from electrically conductive materials, designed to transport electrical energy efficiently while managing fluid streams for cooling or liquefaction.

Career Highlights

David Gomse is affiliated with the Karlsruhe Institute of Technology, where he continues to advance his research and development in cryogenic technologies. His work has garnered attention for its potential applications in various industries, including energy and materials science.

Collaborations

Gomse collaborates with esteemed colleagues such as Steffen Grohmann and Eugen Shabagin, contributing to a dynamic research environment that fosters innovation and technological advancement.

Conclusion

David Gomse's contributions to cryogenic technology through his patents reflect his commitment to innovation and excellence in engineering. His work not only enhances our understanding of cryogenic processes but also paves the way for future advancements in the field.