Company Filing History:
1 out of 832,718 Years Active: 1996
Title: Vladimir P Znamensky: Innovator in Thrust Production Technology
Introduction
Vladimir P Znamensky is a notable inventor based in Kaliningrad, Russia. He has made significant contributions to the field of thrust production technology, particularly through his innovative patent.
Latest Patents
Znamensky holds a patent for a "Method and nozzle for producing thrust." This invention describes a method and apparatus designed to generate a thrust force from an annular axial stream of gaseous products. The system operates by feeding these products to a nozzle that experiences a supercritical pressure drop and accelerates to subsonic speed. The nozzle's design allows for the direction of the subsonic annular stream to be altered from axial to radial. This radial stream is then divided into multiple opposing jets that collide in a braking zone, subsequently redirecting back to axial for discharge into the ambient atmosphere. The intensity of the thrust can be adjusted by varying the flow rates of the radial jets and the axial stream. Additionally, the angle of the thrust vector can be modified by changing the discharge angle of the axial stream.
Career Highlights
Throughout his career, Znamensky has demonstrated a commitment to advancing thrust production technologies. His innovative approach has led to the development of a nozzle that features a housing, a central body with a flat base, and a casing that surrounds the central body. The casing is designed to be axially adjustable, while the central body can be angularly moved to optimize the nozzle's performance.
Collaborations
Znamensky has collaborated with notable individuals in his field, including Sergei Vasil'evich Sokolov and Vladislav D Chekmasov. These partnerships have likely contributed to the refinement and success of his inventions.
Conclusion
Vladimir P Znamensky is a distinguished inventor whose work in thrust production technology has the potential to impact various applications. His innovative methods and designs reflect a deep understanding of fluid dynamics and engineering principles.