METHOD FOR DETERMINING PHYSICAL PROPERTY COEFFICIENTS FOR NATURAL GAS AND DEVICE FOR AUTOMATIC REALIZATION OF METHOD Russian patent published in 2006 - IPC G01N11/00 G01N9/32 

Abstract RU 2269113 C1

FIELD: technology for automatic control of technological parameters and coefficients of physical properties of natural gas during its extraction, transportation, storage and distribution.

SUBSTANCE: method includes preparation of gas. Prepared controlled gas is let through serially positioned turbulent and lamellate throttle governors, absolute gas pressure is measured prior to turbulent throttle governor, in inter-throttle portion and after lamellate throttle governor. Gas temperature is measured before turbulent throttle governor and in inter-throttle portion and on basis of measured values of mentioned parameters coefficients of physical properties of natural gas (density, dynamic viscosity, compression coefficient, adiabatic curve coefficient, specific combustion heat level coefficient) are determined, while before turbulent throttling absolute pressure is maintained, providing lamellate gas flowing mode in lamellate throttle governor with maximum possible Reynolds coefficient. Device has controlled gas line with gas preparation block (filter) positioned thereon and computing device unit, to first output of which information display device is connected, turbulent and lamellate throttle governors, serially positioned on controlled gas line. Executive mechanism, for example, adjusting valve, is positioned on controlled gas line before turbulent throttle. Absolute pressure indicators are positioned before turbulent throttle governor, in inter-throttle portion and after lamellate throttle governor. Temperature indicators are positioned before turbulent throttle governor and inside the inter-throttle portion. Aforementioned indicators are connected to computing device unit, second output of which is connected to executive mechanism.

EFFECT: simplified procedure, increased speed of operation (execution in real time scale mode) for process of determining physical property coefficients of natural gas (density, dynamic viscosity, compression coefficient, adiabatic curve coefficient, specific combustion heat level coefficient.

2 cl, 1 dwg

Similar patents RU2269113C1

Title Year Author Number
AUTOMATIC METER OF GAS DENSITY 2005
  • Konovalov Il'Ja Leonidovich
  • Korzhenko Mikhail Aleksandrovich
  • Taranenko Boris Fedorovich
  • Ushenin Aleksej Valentinovich
RU2290623C1
PROCEDURE MEASURING PERMEABILITY 2001
  • Belonenko V.N.
  • Troitskij V.M.
  • Beljaev Ju.Eh.
RU2181883C1
METHOD FOR MEASURING THE PRODUCTION RATE OF A GAS WELL 2017
  • Rogalev Maksim Sergeevich
  • Saranchin Nikolaj Viktorovich
  • Maslov Vladimir Nikolaevich
  • Derendyaev Aleksej Borisovich
RU2661777C1
ULTRASONIC GAS FLOW METER-COUNTER 2007
  • Kremenets Evgenij Mikhajlovich
  • Leontejchuk Konstantin Vladimirovich
  • Ovsjanikov Mikhail Trofimovich
  • Sheptovetskij Aleksandr Jur'Evich
RU2336499C1
0
  • Teplyukh Zenovij Nikolaevich
  • Pistun Evgenij Pavlovich
SU517831A1
METHOD OF TRANSPORTATION OF LOOSE MATERIALS, AEROSOLS AND CAPSULES 1986
  • Borisov V.V.
RU2037458C1
METHOD FOR CENTRIFUGAL SURGEON PROTECTION AGAINST SURGING 2019
  • Tumakov Aleksej Grigorevich
RU2713782C1
MODE OF FORMING OF A DECAMETER IONOSPHERE RADIO CHANNEL OF HIGH ANTIJAMMING 2005
  • Sivokon' Vladimir Pavlovich
RU2297643C2
PROCEDURE FOR EVALUATION OF RESOURCE OF PIPELINE METAL 2010
  • Zaporozhets Evgenij Petrovich
  • Mishchenko Igor' Vladimirovich
  • Shauro Andrej Nikolaevich
  • Berlin Mark Abramovich
RU2426091C1
HEAT ANALYZER CELL 0
  • Pistun Evgenij Pavlovich
  • Teplyukh Zinovij Nikolaevich
  • Franko Roland Tarasovich
  • Kravchenko Aleksej Anisimovich
  • Primiskij Vladislav Filippovich
  • Kulla Tynu Osvaldovich
  • Tyru Arent Aleksandrovich
SU628435A1

RU 2 269 113 C1

Authors

Konovalov Il'Ja Leonidovich

Korzhenko Mikhail Aleksandrovich

Taranenko Boris Fedorovich

Ushenin Aleksej Valentinovich

Dates

2006-01-27Published

2004-06-21Filed