RU2085728C1 - Device for measuring volume of gas-saturated liquid - Google Patents

Abstract

FIELD: oil production industry. SUBSTANCE: device has separator connected with oil pipeline and gas pipeline. Installed in oil pipeline are filter, flow rate meter, and regulating valve. Gas pipeline is connected with oil pipeline downflow of regulating valve. Separator is installed at height determined from relation; H>10ΔP/ρ, where H - height of liquid column above flow meter, m; DP - pressure loss in moving liquid along section from separator to regulating valve, kgf/cm2; ρ - density of liquid, g/cm3. This separator mounting height ensures excess pressure in oil pipeline downflow of meter above gas pressure in separator. This prevents separation of gas from oil in way from separator to regulating member and its influence upon meter indications. EFFECT: high efficiency. 1 cl, 1 dwg

Description

 The invention relates primarily to the oil industry.

 Known installations for measuring the volume of a gas-saturated liquid (oil), consisting of a gas separator and a counter installed after it (for example, a separator unit of the SU-2 type of the Giprovostokneft Institute, described in the book by Baykov N. M. Kolesnikov B. B. Chelpanov P. I. Oil gathering, transportation and preparation. Mineral resources 1975. UDC 622.32 + 621.6 (0.75.3) and UBUN-1500 installation developed by SKTB of Soyuznefteavtomatik association).

 The change in the amount of liquid in them is made by the counter after separating the gas in the separator. The gas released in the separator is sent to the gas pipeline (SU-2) or to the oil pipeline (UBUN-1500).

Such installations cannot provide the necessary measurement accuracy, since due to pressure loss along the liquid path from the separator to the control valve after the meter (losses reach 2 kgf / cm ² ), dissolved gas is released, which distorts the meter. For this reason, the installations turned out to be inoperative, and the measurement of the volume of gas-saturated liquid in the fields so far has been carried out only at booster pump stations, where the liquid is pre-separated, then pumped into the oil pipeline by pumps, on the outflow of which meters are installed to measure its volume, and the separator gas is sent to gas pipeline.

 The aim of the invention is to eliminate the influence on the readings of the gas meter emitted from the liquid along the path from the separator to the control valve, which allows to measure the volume of gas-saturated liquid without using pumps, i.e. significantly simplify and reduce the cost of the measurement scheme.

где H высота столба жидкости над счетчиком (м);
DP потери давления при движении жидкости на участке от сепаратора до регулирующего клапана (кгс/см²);
ρ плотность жидкости (г/см³).This goal is achieved by the fact that the separator is installed at a height that maintains the pressure in the pipeline after the meter (in front of the control valve) at a level slightly higher than the gas pressure in the separator, i.e. to satisfy the condition:

where H is the height of the liquid column above the counter (m);
DP pressure loss during fluid movement in the section from the separator to the control valve (kgf / cm ² );
ρ fluid density (g / cm ³ ).

 The proposed installation consists of a separator 1, counter 2, filter 3, a regulator with valves 4 and 5 on the pipelines of liquid and gas.

при самом низком уровне жидкости в сепараторе, давление в трубопроводе после счетчика перед клапаном 4 всегда будет выше, чем в сепараторе. Следовательно, при движении жидкости из сепаратора через фильтр и счетчик до регулирующего клапана 4 газ из нее выделяться не будет, и условия работы счетчика описываемой установки становятся аналогичными условиям работы счетчиков, устанавливаемых после насосов.During operation of the installation, liquid with gas enters the separator 1, where the gas is separated from the liquid. Then the liquid through the pipeline passes through the filter 3, the meter 2, the control valve 4 and is sent to a common collector (oil pipeline). The regulatory body with valves 4 and 5 acts in such a way that when the liquid level in the separator rises, valve 4 opens and valve 5 closes. As a result, the liquid output from the separator increases and its level decreases. When the liquid level decreases, valve 4 closes, and valve 5 opens, as a result, the liquid level is restored. Thus, the liquid level in the separator is maintained within specified limits. Due to the fact that the separator is installed at a height at which the condition is met

at the lowest liquid level in the separator, the pressure in the pipeline after the counter in front of the valve 4 will always be higher than in the separator. Therefore, when the liquid moves from the separator through the filter and counter to the control valve 4, gas will not be released from it, and the operating conditions of the counter of the described installation become similar to the working conditions of the meters installed after the pumps.

 To reduce the installation height of the separator, it is necessary during the design to choose the diameters of the liquid pipe after the separator, filter and meter so that the pressure loss in them is at the minimum acceptable level.

 In particular, the meter should work in the lower half of its working area. Calculations show that with this approach, the installation height of the separator will not exceed 10 m.

 Gas from the separator, passing through the control valve 5, is sent to the gas pipeline, if any, or to the oil pipe after the control valve 4. In the latter case, it is not necessary to install the control valve on the gas line, since the pressure in the separator will be determined by the pressure in the oil pipe valve 4.

 The proposed installation can be mounted on any sections of oil fields to measure the volume of produced fluid of individual teams, blocks, directions. It is especially effective to use it at booster pump stations to measure several fluid flows to pumps. In this case, the separator on each stream will simultaneously serve as the separator of the installation for measuring the volume of liquid and the separator of the first stage of separation, and the pumps will be common to all liquid flows.

 The introduction of the installation will reduce the construction of booster pumping stations and gas pipelines in the oil fields, which will lead to savings in capital investments and operating costs.

Claims (2)

1. Installation for measuring the volume of a gas-saturated liquid, including a separator connected to the oil pipeline and the gas pipeline, and a filter, a liquid meter and a control valve installed in series on the oil pipeline, characterized in that the separator is installed at a height determined from the ratio

where H is the height of the liquid column above the counter, m;
DP - pressure loss during fluid movement in the area from the separator to the control valve, kgf / cm ² ;
ρ is the density of the liquid, g / cm ³ .  2. Installation according to claim 1, characterized in that the gas pipeline is connected to the oil pipeline after the control valve installed on the oil pipeline.