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ERCHENKO GERMAN NIKOLAEVICH

Overview
  • Total Patents
    36
About

ERCHENKO GERMAN NIKOLAEVICH has a total of 36 patent applications. Its first patent ever was published in 1989. It filed its patents most often in Russian Federation. Its main competitors in its focus markets environmental technology are DALIAN MARITIME AFFAIRS UNIV, WU XIONG and MELITOPOL MOTORNYJ Z.

Patent filings in countries

World map showing ERCHENKO GERMAN NIKOLAEVICHs patent filings in countries
# Country Total Patents
#1 Russian Federation 36

Patent filings per year

Chart showing ERCHENKO GERMAN NIKOLAEVICHs patent filings per year from 1900 to 2020

Focus industries

Focus technologies

Top inventors

# Name Total Patents
#1 Erchenko German N 16
#2 Erchenko German Nikolaevich 11
#3 Bogov Igor A 11
#4 Erchenko Nikolaj G 11
#5 Erchenko G N 8
#6 Erchenko Germen N 1
#7 Bogov Igor Aleksandrovich 1
#8 Erchenko Nikolaj Germanovich 1
#9 Tsikhelashvili V K 1
#10 Erchenko N G 1

Latest patents

Publication Filing date Title
RU2442902C2 Highly economical means of internal combustion engine operation according to erchenko cycle
RU2368817C2 Vortex installation for divided extraction of combustible component and carbon dioxide from air
RU2338168C2 Method for improving vibration characteristics and eliminating vibration of turbine rotors or ice crankshafts
RU2199783C2 Simulation approach to estimation of conditions ensuring dropping liquid retention on planet surface
RU2176412C2 Simulation method for determining planet rotation about its axis moving in unconstraint manner in a loop-shaped orbit with not uniform angular velocity and determining corresponding angle and direction of its loop-shaped orbit rotation about an axis being remote from its center of mass, from one revolution of the planet about it to another one, depending on fractional part of the corresponding ratio of angular speed of planet rotation causing its movement in the loop-shaped orbit
RU2164712C1 Method for simulation of motion of planet parts at its separation
RU2158966C2 Method for simulation of motion of planet parts at its separation
RU2150089C1 Method determining change of mass of rotary device depending on change of its rotational speed and radial forces transmitted by necks of rotary device to bearings, in various diametrical fore-and-aft planes of rotary device depending on angle of its turn about axis with corresponding rotational speed of it
RU2136056C1 Method for simulating orbital motion of planets
RU2131610C1 Method determining critical value of circumferential velocity of center of mass of rigid body on corresponding radius of its rotation
RU2118757C1 Swirl igniting-and-burning device with surface tube burning of fuel gas inside device
RU96117134A Highly efficient method of industrial production of helium
RU96114290A Method of enhancing efficiency of air separating deep cooling plant in combined unit and combined unit for realization of this method
RU2101643C1 Method of optimization of characteristics of vortex heat-exchanger element
RU2105203C1 Jet apparatus
RU96104494A Vortex plant for separation of combustible component from air
RU96104480A Vortex plant for separation of combustible component from air
RU95103497A Method of determination of temperature area nonuniformity in gas flow downstream from nozzle supercritical outflow and device intended for its realization
RU2059185C1 Condenser vertical heat-transfer element
RU2059184C1 Vertical heat-transfer element of condenser