SU687380A1 - Device for measuring dew-points and hydrate formation of gases - Google Patents

Description

one

The invention relates to the oil and gas industry and, at the same time, controls the quality of gas preparation for long-haul transport by the following parameters: moisture dew point, hydrocarbon dew point, temperature of hydrate formation.

A device for simultaneously determining dew points and the onset of gas formation in gases is known, comprising a sealed housing with a sight glass, a metal rod cooled with a vortex tube with thermal sensors attached to it along the entire length of the sealed housing 11.

The gas to be analyzed is supplied to the inside of the body of the gas pipeline, and the rod is removed from the main body and out of the body. The rod, which is constantly heated and cooled from opposite ends with a vortex tube, acquires a temperature gradient. Analyzing a flush gas, washing the rod, will accumulate pshrata, moisture and heavy hydrocarbons on its surface. Condensation piles are observed on the surface of the rod. The temperature of the covdensation is determined using thermal sensors.

The drawbacks of the device are the long time of stabilization of the temperature over the bar above the rod, the need to get out of the mode during the cleaning period.

It is also known a device for measuring dew points and gas forming gases, including a housing in which a measuring chamber and a swirling channel underneath it, measuring gels {th device, made in the form of an U-shaped plate and located at the bottom of the measuring chamber, thermohighters, installed in the upper part of the U-shaped plate 2J.

five

Claims (2)

The process of measurement by a known device is associated with the need for removal of the operation during the cleaning of the sensing surface, which should be carried out after a measurement in determining the parameters of the direct and secondary gas containing heavy hydrocarbon fractions. In addition to 1TOGO, the device characterizes the complexity of the auto measurement process and the accuracy is low. 36 In order to improve the accuracy and automatic measurements, the proposed device is equipped with a screen mounted in the measuring chamber above the temperature sensors. The screen can be made in the form of a horizontal plate movable in a vertical direction, provided with a sylph, or in the form of an endless band movable in a horizontal direction provided with a drive for moving it. In addition, thermal sensors can be coated with liquid metal, for example, mercury. FIG. 1 shows a device with a screen made in the form of a horizontal plate, a general view; in fig. 2 - device with a screen in the form of a non-tape, general view; in fig. 3 - device with thermal sensors covered with a layer of liquid metal, general view. A device for measuring dew points and hydrating gas formation consists of a housing 1 in which measuring chamber 2 and a vortex channel 3 located under it, a measuring device made in the form of a U-shaped plate 4 and sized in the bottom of the measuring chamber; and temperature sensors 5 installed in the upper part of the U-shaped plate 4. The device is equipped with a screen installed in the measuring chamber 2 above the temperature sensors 5. The screen can be made in the form of a polyro horizontal plate 6 movable in a vertical direction, fitted with a bellows 7, or horizontal endless belt 8, provided with a drive 9 for moving it. In addition, thermal sensors 5 may be covered with a layer 10 of liquid metal, such as mercury. The device works as follows. The analyzed gas is fed through channel 11 into chamber 2, passes over the screen and spinning out of the chamber through channel 12. The screen is in thermal contact with the plate 4, the length of which is determined by a time-constant temperature gradient using a vortex channel 3. In this case, a temperature gradient is created on the screen, similar to the temperature distribution on the plate. Hydrates, hydrocarbons, and water are condensed from the gas on the screen, and their deposition temperatures are recorded using thermal sensors 5. After the measurement, the screen is prepared for the next measurement. For this, plate 6 is removed from thermal contact with plate 4 by applying pressure through screen 13. Plate, having a small thermal imeration, is quickly heated by the flow of the analyzed gas, the condensate is evaporated, and if necessary, the plate can be subjected to meanic cleaning. When the pressure is removed under the plate, it re-enters the thermal contact with the plate 4. In the case of the screen in the form of a tape 8, the surface changes due to its horizontal movement by the length of the plate 4. If the thermal sensors are covered with a layer of liquid metal (mercury) analam 14 and 15. After these operations, the next measurement is carried out. The small heat energy of the screens allows a significant reduction in the preparatory operators during the measurements, and the design ensures that they are carried out without turning off the vortex channel and the possibility of automating the measurement process. Taking into account the high flow rate of gas through the vortex channel, the invention reduces operational costs by reducing the measurement time by 30-40%. Claim 1. Device for measuring dew points and gas hydrate formation, comprising a housing in which a measuring chamber is made and a vortex channel is located under it, a measuring device made in the form of a U-shaped gauze and located at the bottom of the measuring chamber, and thermal sensors, installed in the upper part of the U-shaped plate, characterized in that, in order to improve the accuracy and automation of the measurements, it is equipped with a screen mounted in the measuring chamber above the thermal sensors. 2. The device according to claim 1, of which is that the screen is made in the form of a horizontal plate movable in the vertical direction and fitted with a bellows. 3. The device according to claim 1, wherein the screen is made in the form of an endless belt movable in a horizontal direction, provided with a drive for moving it. 4. Device 1sh. 1-3, characterized in that the temperature sensors are covered with a layer of metal, such as mercury. Sources of information taken into account during the examination 1. USSR author's certificate No. 219261, 1СЛ. B 01 O 53/26, 1965. 2. USSR author's certificate N® 263943, cl. B 01 O 53/26, 1967. / 3 y / Figg