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ZAP SIB NI GEOLOGORAZVEDOCHNYJ

Overview
  • Total Patents
    68
About

ZAP SIB NI GEOLOGORAZVEDOCHNYJ has a total of 68 patent applications. Its first patent ever was published in 1973. It filed its patents most often in USSR (Union of Socialist Soviet Republics) and Russian Federation. Its main competitors in its focus markets basic materials chemistry and environmental technology are TSNI LAB PROIZV OBEDINENIYA NI, UK NI GEOLOGORAZVEDOCHNYJ INST and BASHKIRSKIJ GNI PI NEFTYANOJ.

Patent filings in countries

World map showing ZAP SIB NI GEOLOGORAZVEDOCHNYJs patent filings in countries

Patent filings per year

Chart showing ZAP SIB NI GEOLOGORAZVEDOCHNYJs patent filings per year from 1900 to 2020

Top inventors

# Name Total Patents
#1 Medvedskij Rodion I 11
#2 Sklyar Yurij G 9
#3 Balin Valerij P 7
#4 Kryakvin Aleksandr B 6
#5 Nefedov Valentin A 5
#6 Khajrullin Bulat Yu 5
#7 Gnatus Nikolaj A 5
#8 Dyadechko Vladimir N 5
#9 Stasyuk Miroslav E 4
#10 Nesterov Ivan I 4

Latest patents

Publication Filing date Title
RU2041176C1 Stock mixture for production of light granulated filler
RU2014436C1 Lighted oil-well slurry
RU2036885C1 Raw mix for preparation of light-weight air-entrained concrete
RU2031892C1 Concrete mixture for manufacturing contsruction and structural heat-insulating articles
RU2010203C1 Piezoreceiver
RU1778277C Method for heat insulation of wells in permafrost zone
RU1798472C Composite well support
SU1742249A1 Raw materials mixture for light filler production
SU1745904A1 Method for inclined fracturing rock between two wells
SU1680888A2 Unit for deironing of underground water in bed
SU1727049A1 Ultrasound converter
SU1741037A1 Dew point content test method
SU1745902A1 Method of wheel operation
SU1682537A1 Method for development of a massive gas-condensate deposit
SU1677624A1 Method of defining the state of aggregation of hydrocarbon fluid in oil deposits
RU1775556C Method for predicting retention of physical and chemical stability of formation system during well development
SU1624141A1 Method of locating productive intervals in oil pools
SU1640395A1 Method for examining boreholes
SU1765376A1 Condensation starting point pressure determination method
RU1786430C Method of determining phase state of oil pool hydrocarbon system