SU976214A1 - Method and apparatus for transporting gas-water-oil mixture - Google Patents

Description

The invention relates to the oil production industry, in particular to the transport of gas-water mixtures. .

The known method of transporting the gas-water mixture through the pipeline involves processing it with a demulsifier, creating a high injection pressure and reducing the speed of the gas-oil mixture flow at the final section of the pipeline to a value that ensures the separation of the mixture into phases selected by separate flows into the separator.

It is also known a device for transporting a gas-water mixture containing the final section of the pipeline with a partition separating oil and water; gas / oil level regulator, oil, gas and ox pipes, gas cut-off and separator

The known method is associated with the extraction of oil and water directly from the stream of a stratified gas-water mixture, which leads to significant fluctuations in its level, deterioration in the quality of the selected fluids, and their partial reciprocal alternation. The water cut of the selected oil reaches

: 20-40%.

The presence of gas cut-offs and level controllers with movable mechanisms, which often fail due to jamming, corrosion, etc., complicates the phase selection process, reduces the performance and reliability of the known device.

The aim of the invention is to improve the quality of the separation of the phases and simplify the process of their selection.

The goal is achieved by enclosing the phases into the separator, gas and water in a closed volume, from which gas is taken from the interface between these phases in the mode of self-regulation of the speed and discharge pressure created by the gas phase and the hydrostatic column of liquid, and a certain extraction rate is established the gas phase from the volume, providing the pressure drop between the separator and the terminal deligel of the phases, proportional to the flow of the phases in this divider.

Claims (2)

A device for transporting gas and water My mixes through a pipeline is provided with a tank connected to an end phase divider and a separator and a divided vertical bypass partition into sections, in the second of which, in the course of the water flow, a gas collector is installed in the form of an inverted bowl connected with a gas cavity of the separator the lower edge of the gassing tank is installed below the upper edge of the bulkhead, and the edge profiles are made of sawtooth. The drawing shows the proposed device. A vertical partition 3 is installed inside the terminal phase divider (CDP) 1, which is connected to the collector by pipeline 2, and is connected to the capacitance 6 by means of pipes 4 and 5, and a separator 8 by means of pipe 7, divided by overflow b partition 9 on the section, there is a gas collector 10 with a filtered sawtooth-shaped edge (holes 11). The gas collector through pipe 12, at the end of which the reflector 13 is fixed, is connected to the cavity of the separator divided into compartments of the partition 14 and 15. In the two extreme compartments of the separator, the level regulators 16 are installed. The pipes 17-19 separator are connected to the consumer, and the pipe 20 with a capacity of 6. A method is carried out as follows. The gas-oil mixture flows through pipeline 2 into the terminal divider of phases 1, in which it splits into phases of oil 21, gas 2 and water 23. Oil and water flow through partitions 3 and 9 respectively into compartments 24 and 25, from which they are taken as accumulation. The fluctuations in the levels of the selected flows of oil 26 and water 27 do not affect the level of the flow of the gas-water mixture 28 flowing through the pipeline into the CDF, since levels 26 and 27 are below the level 28 of the mixture. The flow rates of oil extraction 26 and water 27 fluctuate in an insignificant range, namely, within the height of the holes 1 of the gas collector 10 so that the min value of the cross-sectional area of the holes 11 corresponds to the mm value of the water consumption of the water-oil mixture and, conversely, that. The value of the holes 11 is the corresponding shahrahokhod. The holes 11 in cross section have a sawtooth, i.e. triangular shape. This means that in iloe, a change in the height of & h of the holes corresponds to a change in the flow rate iTQ. For example, if you change the flow rate by 4 times, the height of the holes will change by 2 times, etc. This property contributes to an increase in the stability of level 26, ... Gas from KDF and tank 6, passed from ring 11, goes through the nozzle 12 into the separator and then is pumped through the pipe 19 to the consumer. With the passage of gas through the hole5. 11, which are variable cross-section devices, the gas loses some of the pressure (R P). The reflector funnel 13 changes the direction of the gas flow and directs the individual particles of water that will be trapped along with. gas in the process of taking it from the water-gas border zone, into the water of the separator). Water and oil, as they accumulate in compartments 24 and 25 under the pressure of LR R. -P., Are injected into the respective cavities of the separator and, overflowing through partitions 14 that are located at the same height, enter the corresponding extreme compartments of the separator. The level of water and oil in them is maintained by means of standard level regulators 16, and water and oil, as they accumulate, are directed through pipes 17 and 18 to the consumer. The distance from the bottom of compartment 25 to the lower edge of the gas collector bowl is calculated by calculation so that when water moves from tank 6 to tube 20, a rotation of the water layer is created, which prevents a possible accumulation of oil film on its surface. If the steady state movement of the gas-liquid mixture is disturbed, for example, as the flow rate of the mixture entering KDF 1 increases, the level 28 of the mixture increases, and the water flow through the nozzle 4 increases. The gas flow rate through the holes 11 decreases, as a result of which the pressure P begins to increase, and P decreases. Injection pressure & Р Р -Р rapidly grows and causes an increase in the flow of oil and water through the pipes 4 and 20 to a value equal to the flow of oil and water in the mixture entering the KDF. Costs at the entrance and exit of the KDF mutually compensate each other. Fluid levels 28 and 27 are stabilized, and the size of the holes ceases to change. The pressure becomes constant and corresponds to the changed flow rate of the mixture. The movement of the mixture becomes established up to the point in time when it is again disturbed due to some external factors, such as turning on or turning off a group of wells, etc. At the same time, the processes of stabilization of fluid movement are repeated again. The prc decreases the flow rate of the mixture entering the KDF, the fluid levels 27 decrease, the cross-sectional area (holes 11 quickly increase, and consequently, pressure P drops and pressure p increases to some level of DG - p const, when levels 28 and 27 change and hole sizes 11 stops, and the flow of water and oil from the KDF decreases and becomes equal to the reduced flow of the water-oil mixture entering the KDF. A higher value of the injection pressure, P corresponds to a larger value of the flow of the water-oil mixture, and a smaller value of the pressure thus, the injection pressure of the LR is automatically self-regulating and becomes appropriate for each specific flow so that level 27 stabilizes and the selection process is self-regulated. Improving the quality of phase separation significantly reduces the cost of further purification of oil and water by installations of complex preparation of oil and thermochemical installations, significantly reduce the capacity of these installations. Claim 1. The method of transporting the gas-water mixture through the pipeline, including its pre-treatment with a demulsifier, the creation of an injection pressure and speed of movement of the gas-oil mixture in the end divider of the phases, ensuring the separation of the mixture into phases, and sending them to the appropriate compartments of the separator, characterized in that, in order to improve the quality of the separation of the phases and simplify their process, before directing the phases to the separator, gas and water are enclosed in a confined space from which gas is taken from the boundaries of these phases in the mode of self-regulation of the speed and pressure of the injection created by the gas phase and the hydrostatic liquid column, moreover, a certain rate of gas phase extraction from the volume is established, providing a differential pressure between the separator and the terminal phase divider proportional to the flow rate of the phases in this divider. 2. A device for transporting a gas / water mixture through a pipeline that includes an end phase divider, a supply pipe and discharge pipes, a separator with level controls, distinguishes it by the fact that it is equipped with a tank connected to an end phase divider and a separator and separated a vertical overflow partition on the sections, in the second of which, in the course of the water movement, a gas collector is installed in the form of an inverted bowl connected by a nozzle to the gas cavity of the separator, with the lower edge of the gas collector Credited below the upper edge of the partition and the edges of the profiles are made sawtooth shape. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 503086, cl. F 17 D 1/14, 1975.