SU1227991A1 - Arrangement for determining pressure of petroleum and petroleum products saturated vapours - Google Patents

Abstract

The invention relates to the control of pressure of vapor on a vapor and improves the accuracy and information content of the analysis. The device contains series-connected low-inertia sensor B of the temperature of the analyzed product, normalization electric converter. 9, a two-coordinate recorder 10, to which the saturated vapor pressure sensor 7 and the adder 19 are connected in series, connected by their inputs to the barometric pressure sensor 18 and the multiplication unit 17. The operation cycles of the device purge, preparation and analysis, / 4. // /five . y 4 f -BffiSEEil

Description

After purging the evaporation chamber 1 with compressed air from the remnants of the sample of the previous analysis, the magnetostriction converter 2 has cooled to the initial temperature. In the period of preparation, a sample of the product is fed into the evaporation chamber 1 through the valve 12 in a predetermined ratio of the volumes of the vapor and liquid phases. The valve 12 is then closed and the evaporation chamber 1 is separated from the atmosphere of the three.

The purpose of the invention is to increase the accuracy and informativeness of the analysis by expanding the temperature range and range of the analyzed products.

The drawing shows a schematic diagram of an apparatus for determining the pressure of saturated vapors of petroleum and petroleum products.

The device consists of an evaporation chamber 1, a heater made in the form of a magnetostrictive transducer 2, the lower end of which is installed in the form of a hollow chamber 3 with an annular protrusion 4 on which a perforated metal plate 5 is installed free. at the same time the role of the dispersant, the magnetostrictive transducer 2 is connected to the ultrasonic generator 6.

The device also contains a primary gauge of saturated vapor pressure 7, a low-inertia sensor 8 of the temperature of the analyzed product, a normalized electrical generator (generator 9, a two-coordinate p) 10, a three-way valve 11 ,. valves 12 and 13, air supply tube 14, supply tube 15 and product discharge tube 16, multiplication unit 17.

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With a crane 11, In the period of analysis, an ultrasonic generator 6 creates a frequency of 10–30 kHz and a mama, and a gynetotrictive transducer 2 vibrates a perforated metal plate 5, thereby dispersing and heating the product at a rate of 0.1–0.5 deg / s. , the pressure of the saturated 51 vapor was measured by the recorder 10 as a function of the temperature change of the analyzed product. 1 il.

barometric pressure sensor 18 and adder 19.

As block 17, a standard multiplication unit A31 of the Cascade system can be used, one input of which is supplied with an analog signal of the current temperature (T) in the evaporation chamber, and the value of the coefficient K Pg / Tf, where Rd and T - the initial barometric pressure and air temperature in the evaporation chamber. Thus, block 17 implements

the function GK T, where T is the current temperature in the evaporation chamber.

The signals from sensors 8 and 18 are converted into unified signals of 0-5 mA.

As meter 7 can

The PE-55M pneumoelectric transducer or an overpressure transducer (Sapphire-22 DI), the output signal of which

unified (0-5 mA).

OUT; ode meter 7, block 17, sensor 18 is connected to the input of the adder 19, which can be used as a block summation

A04 system Cascade.

As a two-coordinate recorder, you can use the potentiometer tablet two-coordinate PDP4-002.

The device operates cyclically with periods of purging, preparation and analysis. When purging the valve 12 is closed, the three-way valve 11 and the valve 13 are open. Compressed air

purge the evaporation chamber 1 from the remnants of the sample previous analysis. During the purge period, the magnetostrictive transducer 2 is cooled to the initial temperature (T) of 5 C.

During the period of preparation with a three-way valve, they shut off the compressed air pipe 14, connect the evaporation chamber 1 to the atmosphere and feed a sample 12 of the product prepared for analysis in accordance with GOST 24993-81 through the valve 12 at a predetermined ratio of the volumes of the vapor and liquid phases. Next, close the valve 12 and the evaporation chamber 1 is separated from the atmosphere of the three-way valve 11.

During the analysis period, an ultrasonic generator 6 (with an adjustable frequency of 10-30 kHz and an output power of 0.5 kW) of the magnetostrictive transducer 2 is included, in the hollow chamber 3 of the lower end of which, when the perforated metal plate 5 is vibrated, the analyzed product is heated at the same time from 0.1-0.5 degrees / s. A decrease in the heating rate of the product leads to inertia of the analysis in the chain, and an increase in the distortion of the accuracy of the analysis results,

In the evaporation chamber 1, film-droplet evaporation of low-boiling hydrocarbon components of the product occurs before the value of the saturated vapor pressure is established at a given product heating temperature. The saturated vapor pressure PS is measured by a continuous primary pressure gauge with a unified electrical output signal of 0-5 mA. At the same time, the correction by the adder 19 to the barometric pressure P and the multiplier 17 to the change in air pressure in the evaporation chamber 1 as a function of the temperature change T is introduced according to the equation of the gas state

P, K

T, K

Р / т о с

Рр, Тд - initial barometric pressure and air temperature in the evaporation chamber; T - the current temperature in the evaporation chamber.

Pressure measured

The vapor P is recorded by the two-coordinate recorder 10 as a function of the change in the heating temperature T of the analyzed product. The product temperature is perceived by a low-inertia temperature sensor 8 and through the converter 9 is fed to the input of the recorder 10. After

(Q recording of the change in pressure of the product’s saturated vapors as a function of software temperature increase to the set value analysis stops, the power is turned off

J5 ultrasonic generator 6, turn on the purge mode and then repeat the measurement cycle.

Measuring the vapor pressure as a function of the programmed temperature change and eliminating the use of calculation formulas makes it possible to obtain experimental dependences of the change in the pressure value of saturated vapors of oil and oil products on the temperature change, which are necessary when performing calculations of technological processes, when designing technological objects of preparation, transport and storage.

liquid hydrocarbon raw materials. Formula and 3-1 gained and

A device for determining the pressure of oil and petroleum product vapors containing an evaporation chamber with supply pipes for the product being analyzed and air, a product heater, a barometric pressure sensor, a temperature sensor installed in the lower part of the chamber, a saturated vapor pressure meter, and a recorder, characterized in that , in order to improve the accuracy and informativeness of the analysis, the heater is implemented in the form of a magnetostrictive converter installed along the axis of the evaporation chamber, the end of which is It is made in the form of a chamber with an internal annular protrusion, on which a perforated metal plate with a gap relative to the walls of this chamber is freely placed, and the device is equipped with an adder connected by the first and second inputs with a barometric pressure sensor and pressure gauge saturated vapors

$ 12279916

A multiplier unit, through a remote output with one of the inputs, is connected to a temperature sensor via a registrar, the other input of which is connected to the third input of the adder.

Claims (1)

A device for determining the pressure of saturated vapors of oil and oil products, containing an evaporation chamber with nozzles for supplying the analyzed product and air, a product heater, a barometric pressure sensor, a temperature sensor installed in the lower part of the chamber, a saturated vapor pressure meter and a recorder, characterized in that, in order to increase the accuracy and information content of the analysis for $ 4, the heater is made in the form of a magnetostrictive transducer installed along the axis of the evaporation chamber, the lower end of the cat orogo configured ⁵⁰ in a chamber with an inner annular projection, which with clearance relative to the walls of the chamber freely available perforated metal plate, and the device snab55 Genoux adder connected to first and second inputs with the sensor baromet,-parameter the pressure and meter 'vapor pressure sootvetst6 5 1227991, indirectly, and a multiplication unit, through a wall outlet with one of the inputs, a temperature sensor connected to a recorder, the other input of which to the third input of the adder, is connected to a temperature sensor.