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2 775 372

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IPC

G01N15/08(2006-01-01)

G01N25/58(2006-01-01)

(21) (22)

Application

2021129930, 2021-10-14

(24)

Start date

2021-10-14

(22)

Actual filing date

2021-10-14

(45)

Published

2022-06-30

(72)

Inventor

Sokolov Aleksandr FedorovichVankov Valerij PetrovichAlemanov Aleksandr EvgenevichTroitskij Vladimir MikhajlovichMizin Andrej VitalevichMonakhova Olga MikhajlovnaRassokhin Andrej SergeevichNikolashev Vadim VyacheslavovichKostevoj Nikita SergeevichNikolashev Rostislav VadimovichSkorokhod Roman AndreevichKurochkin Aleksandr DmitrievichUsanov Aleksandr ViktorovichAlekseevich Mikhail YurevichChurakov Ilya MikhajlovichKolesnikov Maksim VladimirovichSkorokhod Natalya Vladimirovna

(73)

Holder

Publichnoe Aktsionernoe Obshchestvo

AUTOMATED INSTALLATION FOR RESEARCH OF FILTRATION RESERVOIR PROCESSES Russian patent published in 2022 - IPC G01N15/08 G01N25/58

Abstract RU 2775372 C1

FIELD: laboratory studies.

SUBSTANCE: invention is intended for laboratory study of filtration reservoir processes and can be used to determine the characteristics of porous media of oil and gas condensate fields and underground gas storages. Automated installation for studying reservoir filtration processes contains a 3-phase visual separator-measuring device (VSMD), the first cryothermostat, a system for creating and maintaining back pressure during the study of reservoir filtration processes, a system for measuring excess and differential pressure, a high-pressure PV pump, a capillary viscometer, first, second, third, fourth and fifth separation tanks. All the systems mentioned above, separation tanks, VSMD, capillary viscometer and high-pressure PV pump are located in a heating cabinet, which is designed to create reservoir temperature when conducting studies of reservoir filtration processes. A platform is equipped inside the heating cabinet, which is made with the possibility of placing on it a replaceable module for studying reservoir filtration processes, containing a sample simulating the studied reservoir rock.

EFFECT: increasing the reliability of the results of studies of filtration formation processes by expanding the functionality of conducting studies of filtration formation processes under thermobaric conditions.

4 cl, 3 dwg

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RU 2 775 372 C1

Authors

Sokolov Aleksandr Fedorovich

Vankov Valerij Petrovich

Alemanov Aleksandr Evgenevich

Troitskij Vladimir Mikhajlovich

Mizin Andrej Vitalevich

Monakhova Olga Mikhajlovna

Rassokhin Andrej Sergeevich

Nikolashev Vadim Vyacheslavovich

Kostevoj Nikita Sergeevich

Nikolashev Rostislav Vadimovich

Skorokhod Roman Andreevich

Kurochkin Aleksandr Dmitrievich

Usanov Aleksandr Viktorovich

Alekseevich Mikhail Yurevich

Churakov Ilya Mikhajlovich

Kolesnikov Maksim Vladimirovich

Skorokhod Natalya Vladimirovna

Dates

2022-06-30—Published

2021-10-14—Filed