Ighor K Uzhinsky

Title: Innovations in Hydrogen Production by Ighor K Uzhinsky

Introduction

Ighor K Uzhinsky is an accomplished inventor based in Springfield, VA (US). He has made significant contributions to the field of power generation through innovative methods of producing hydrogen and oxygen. With a total of 2 patents, Uzhinsky's work focuses on enhancing energy density and efficiency in power systems.

Latest Patents

Uzhinsky's latest patents include "Methods and systems of producing hydrogen and oxygen for power generation" and "Power source - Methods and systems of providing a source of hydrogen and oxygen with high volumetric energy density." These patents disclose advanced techniques for generating hydrogen and oxygen, particularly for use in non-air breathing engines, such as those found in submersible vehicles. His inventions utilize a hydride reactor to produce hydrogen from metal hydrides and a peroxide reactor to generate oxygen from hydrogen peroxide. The resulting high-temperature hydrogen and oxygen can be converted to water using a solid oxide fuel cell, which serves as a power source. This innovative power generation system boasts increased energy density compared to conventional batteries. Additionally, the heat produced during the exothermic reactions in both reactors can be harnessed for other applications within the power generation system.

Career Highlights

Uzhinsky is currently employed at Alliant Techsystems Inc., where he continues to develop cutting-edge technologies in energy production. His work has positioned him as a key figure in the advancement of sustainable power solutions.

Collaborations

Uzhinsky collaborates with notable colleagues, including Gary K Lund and John C Leylegian, who contribute to his innovative projects and research endeavors.

Conclusion

Ighor K Uzhinsky's contributions to hydrogen production and power generation exemplify the potential for innovation in energy technologies. His patents reflect a commitment to enhancing energy efficiency and sustainability in modern power systems.