SU1663510A1 - Method and device for determining the content of gaseous and liquid components of petroleum - Google Patents

Abstract

The invention relates to the petroleum industry and simplifies the process. The method involves taking a sample of oil at an elevated pressure, supplying a sample of oil to the tank, lowering the pressure in the tank for degassing the oil, taking gas and liquid from the tank for analysis. The sample through the pipe 1 is continuously fed into the tank 2 of a constant volume, the pressure in the tank is reduced by throttling, the liquid is continuously withdrawn from the lower part of the tank, and the gas from the upper part. The sampling pipe 1 is located inside the container 2, is made with openings 7 for introducing the sample into the container 2 and is equipped with a vertical pipe 10 connected to its lower end, the upper end of the pipe 10 being located in the upper part of the container 2. The pipe 1 for sampling equipped with throttles, installed before and after tank 2. The device is placed in a thermostat. 2 sec. and 1 z. p. f-ly, 3 ill.

Description

The invention relates to the petroleum industry and is intended to determine gaseous and liquid components in petroleum.

The aim of the invention is to simplify the method and apparatus for implementing the method.

FIG. 1 shows a diagram of an apparatus for carrying out the method; in fig. 2 — an oil exploration plant, general view; in fig. 3 is a process flow diagram for the distillation of a sample of oil.

The device for determining the content of gaseous and liquid components in the oil contains a pipe 1 for sampling, a tank 2 for oil degassing installed in a thermostat 3 and equipped with a pressure gauge 4 and nozzles with valves 5 and 6 for sampling for analysis. Pipe 1 dl

sampling is located inside the tank 2 and is made with holes 7 for introducing the sample into the tank 2 and is equipped with throttles 8 and 9, installed before and after the tank 2, and the vertical pipe 10 connected to the lower end to it, and the upper end of the vertical pipe 10 is located in the upper part of the tank 2. The choke 8 has a pressure regulator drive 11. A nozzle with a valve 6 for sampling oil is connected to a sampling dispenser 12 having a piston 13 with a hollow rod 14, an opening 15 in the side wall of the rod 14 and a locking device 16. The device is placed in a thermostat 17,

The installation depicted in FIG. 2, contains a manifold 18 connecting pipe 1 for taking a sample with a sampler 19, which in its lower part is connected to the lower

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a portion of the pressure vessel 20 connected at the top with a gas cylinder 21.

The technological scheme for the degassing of an oil sample, shown in FIG. 3, consists of a dispenser 12 connected to a measuring burette 22 connected in the lower part with pressure vessel 23.

The method and operation of the device is as follows.

The thermostat 17 sets the temperature of the oil test.

In the sampler 19, the pressure is set above the oil saturation pressure of the gas by connecting its lower part with the lower part of the pressure vessel 20 filled with the working fluid and connected in the upper part with the gas cylinder 21 where the pressure is higher than the saturation pressure of the oil with gas. The choke 9 is opened, then the choke 8 is opened and the sample is set to flow through the pipe 1 at a constant pressure drop. The pressure in the tank 2 is fixed by the pressure gauge 4. When the predetermined pressure level is reached in the tank 2, they are connected to the pressure regulator 11. The sample of oil in the pipe 1 is partially degassed and released through the throttle 9. Through the holes 7, oil and gas fill tank 2. The gas bubbles float and in tank 2 a certain level of gas-oil section is established at a given constant pressure level. The level of separation, with continuous air bubbles bubbling up, is kept constant by the flow of a portion of gas from the top of tank 2 through a vertical pipe 10 to pipe 1 for sampling. The connection of the upper part of the tank 2 through the vertical pipe 10 with the pipe 1 for sampling also performs the function of the damper. A gas sample is taken from the port with the valve 5 for analysis on a chromatograph. A pipe is taken from the nozzle with the valve b. The oil is dispensed into the dispenser 12, the working fluid is discharged from it through the hole 15 in the rod 14, opens the locking device 16. The oil taken into the dispenser 12 is discharged into the measuring burette 22 12. The working fluid from measuring burette 22 goes to pressure vessel 23. In the measuring burette, gas is separated from oil and two levels of separation are established, namely, between gas and oil and oil and working liquid. The volumes of gas and oil are fixed on a scale of divisions printed on the wall of the measuring burette. According to the volume ratio

dispenser to the volume of oil determine the volume ratio. A gas and oil sample is taken from the measuring burette 22 for analysis. Pressure regulator 11 set not

the pressure of the next stage of degassing in the tank 2 by increasing the flow rate of the oil sample flowing through pipe 1. To do this, manually move the unregulated choke 9 to a position that reduces the pressure in the tank 2 to the next stage of degassing. The adjustable throttle 8 is automatically moved to the desired position with the help of the pressure regulator 11. After taking measurements at the next stage of degassing, the throttle 8 is closed, the pipe 1 for sampling and the container 2 for degassing the oil are freed from evacuating the sample oil by evacuating.

Claims (3)

1. Method of determining the content of gaseous and liquid components in oil, including sampling of oil at elevated pressure, supplying the sample of oil to the tank, lowering the pressure in the tank for degassing the oil, taking gas and liquid from the tank for analysis, characterized in that, in order to simplify the process, the sample is fed into a constant volume tank continuously, the pressure in the vessel is reduced by throttling, liquid is continuously withdrawn from the bottom of the vessel, and gas from the top. 2. A method according to claim 1, characterized in that a sample of the liquid phase is taken into a constant volume dispenser, and the volume ratio is determined by the ratio of the volume of the dispenser to the volume of the degassed liquid phase of the sample at atmospheric pressure. 3. Device for determining the content of gaseous and liquid components in oil, containing a pipe for sampling, a tank for oil degassing, installed in a thermostat and equipped with a manometer and nozzles for sampling for analysis, characterized in that in order to simplify the device, the sampling pipe is located inside the tank, is made with openings for sample introduction into the tank and is equipped with throttles installed before and after the tank, and a vertical pipe connected to the lower end of it, with the upper end of the vertical pipe located at the top of the tank 2gpf # I tfifb S & + / 019C99L 2  "E" cot about in v V 0 j 0 23 J { fig.Z