RU2708473C1 - Method of determining volume of a mixture of fluids in series pumped through pipelines, having different quality characteristics - Google Patents

Abstract

FIELD: transportation.

SUBSTANCE: invention relates to pipeline transport. Method for determining the volume of a mixture of liquids successively pumped through pipelines having different quality characteristics involves successive pumping of displaced and displacing liquids, selection of qualitative characteristics and their values, individually characterizing displaced and displacing liquids and determination of volume of mixture. Determination of boundaries of the mixture zone of serially pumped liquids is performed by fixing time for change of quality characteristics of pumped liquids determined by representative samples. Time for beginning change of selected value of qualitative characteristic is recorded – point t₁, then stabilization time of values of quality characteristics, characteristic for displacement fluid – point t₂. Volume of mixture is determined by formula V=π (D/2)²*L, where V is volume of mixture of fluids successively pumped via pipelines, m³; π=3.14; D is pipeline inner diameter at sampling point, m; L is the length of the mixed zone, m, wherein L=υ*Δt, where υ is fluid flow velocity, m/s; Δt is time delta, s, between fixed points t₁ and t₂ Δt=t₂ – t₁.

EFFECT: disclosed is a method of determining volume of a mixture of liquids successively pumped via pipelines.

4 cl, 2 dwg

Description

The invention relates to pipeline transport, and in particular to methods of pumping liquids of various quality through a single pipeline while maintaining quality.

When sequentially pumping liquids in the contact zone of sequentially moving batches, a mixture of pumped liquids is formed, which is a non-marketable product, therefore, measures are needed to accurately determine the volume of the mixture.

Known methods of sequential pumping of petroleum products with mechanical dividers, performing the role of moving partitions between different-grade petroleum products [Ishmukhametov I.T., Isaev S.L., Lurie M.V., Makarov S.P. 50 questions about sequential pumping of petroleum products. M .: Oil and gas, 1997].

These methods are characterized by great complexity in their implementation.

A known method of sequential pumping of petroleum products with the placement in the zone of contact of solid particles or gas bubbles [SU No. 272737, F17D 1/14, 1968; SU No. 1603133, F17D 1/16, 1988].

However, this method is technologically difficult to implement and has not been implemented in practice.

Known methods of sequential pumping of petroleum products with liquid separation (buffer) plugs. Such plugs are placed between the pumped oil products and, moving with them, prevent one oil product from entering another. First of all, it is pumping of petroleum products with a separation plug from a mixture of contacting petroleum products, as well as from a third petroleum product that is more compatible in properties with each of the petroleum products than they are among themselves [Lurie M.V., Maron V.I., Schwartz M. E. Parameters of sequential pumping with buffer oil. "Transport and storage of oil and oil products" No. 4, M .: VNIIOENG, 1973].

However, this method has a limitation in application and is used only in cases where there is a sufficient volume of a mixture of petroleum products formed in previous sections of the pipeline system.

There is also known a method of sequential pumping of petroleum products with a buffer plug, consisting of the product of the distillation of one of two pumped sequentially petroleum products in the range of hydrocarbon boiling temperatures common to both pumped petroleum products [Patent RU No. 2156915, F17D 1/14, 2000].

However, this method requires significant costs for the manufacture of distillate plugs and can be used only in exceptional cases, such as, for example, for sequential pumping of aviation kerosene.

There are also known methods of sequential pumping of liquids [SU 272737 A, F17D 1/14, 1970; SU 1464010 A1, F17D 3/08, 1989], based on the separation of the pumped liquids by the introduction of solid particles or the installation of separators in the form of dielectric disks.

However, such methods are technologically difficult to implement and have not been implemented in practice.

The closest to the proposed method in terms of technical nature and the achieved result is a method for pumping oil of different quality, disclosed in RU 2277201 C2, F17D 3/03, May 27, 2006, by supplying the pipeline with the main oil stream of the same quality and pumping it by direct contact with a batch oil of a different quality. At the same time, measurements of the oil parameter characterizing its quality are carried out to track the batch of oil and the selection of oil from the pipeline at the point of its reception and at the end of the selection, the further passage of the main oil flow through the pipeline. When selecting oil at the receiving point, the selection of oil from the zones at the beginning and end of the batch containing a mixture of oil from the main stream of sulphurous oil and batch oil with an intermediate sulfur content is carried out separately from oil in the middle zone of a batch of oil of a different quality with a different sulfur content.

The volume of the mixture formed in the process of movement of a batch of low-sulfur oil in a stream with sulphurous, calculated by the formula Sienitzer:

where Re ₁ and Re ₂ are the Reynolds numbers, respectively, for low sulfur and sulphurous oil;

D is the diameter of the pipeline;

L is the length of the pipeline;

V _tp is the volume of the pipeline.

This method has a limitation in application and is used only in cases where the pumped liquids differ only in sulfur content and have different densities. The formula for determining the volume of the mixture in this case is very difficult to calculate, which increases the complexity of this method.

The technical result of the invention is to ensure the preservation of the quality of liquids with various qualitative characteristics during their sequential pumping by increasing the level of accuracy of determining the boundaries of the zone of their mixture.

The technical result is achieved by the fact that in the method for determining the volume of a mixture of fluids sequentially pumped through pipelines having various qualitative characteristics, they successively pump the displaced and displacing liquids, select the qualitative characteristics and their values that individually characterize the displaced and displacing liquids and determine the volume of the mixture, this determines the boundaries of the mixture zone of sequentially pumped liquids by fixing the time of change of ety characteristics as the fluid is determined on representative samples taken successively with a time interval from different layers pumping liquids, wherein the record start time of the selected value of quality characteristics for extruding liquid and / or top fixing quality characteristics unique to the displacement fluid - point t ₁ , then fix the stabilization time of the values of the qualitative characteristics characteristic of the displacing fluid, and / or stopped the fixation of qualitative characteristics that are characteristic only of the displaced fluid is point t ₂ , and the determination of the volume of the mixture is carried out according to the formula:

V = π (D / 2) ² * L,

where V is the volume of the mixture sequentially pumped through pipelines of liquids, m ³ ;

π = 3.14;

D is the inner diameter of the pipeline at the sampling point, m;

L is the length of the mixing zone, m,

wherein L = υ * Δt,

where υ is the velocity of the fluid flow, m / s;

Δt is the time delta, s, between the fixed points t ₁ and t ₂

Δt = t ₂ - t ₁ .

In this case, the qualitative characteristics can be the composition of the liquid, including hydrocarbon, elemental and quality indicators characterizing the physicochemical properties of the liquid.

Point t _{1 is} determined by fixing the time of the first change in the values of the qualitative characteristics characteristic of the displaced liquid, and / or the beginning of the fixing of qualitative characteristics typical of the displacing liquid, confirmed at least two times, and point t ₂ is determined by fixing the stabilization time of the values of the qualitative characteristics characteristic of the displacing fluid, and / or the termination of fixation of qualitative characteristics characteristic of the displaced fluid only, confirmed not less than tee times.

To determine the boundaries of the mixture zone of successively pumped liquids, markers added to the flow of displaced and displaced liquids can be used in addition.

The invention is illustrated by drawings (Fig. 1 and 2), which shows a diagram with the location of the sampling point sequentially pumped fluids to control the selected quality characteristics when determining the boundaries of the mixture zone.

For each of the fluids sequentially pumped through the pipeline, the qualitative characteristics inherent in the respective fluid are selected. Qualitative characteristics can be the composition of the liquid, including hydrocarbon, elemental, etc., the presence of additives and markers in the liquid, qualitative indicators characterizing the physicochemical properties of the liquid. The value of the above qualitative characteristics is established, the change of which allows you to determine the beginning of a change in the component composition of the liquid in the stream, which means a change in the volume ratio of liquids in the stream when the displaced (3) liquid begins to be replaced by the displacing (2) liquid. Similarly, for the displacing (2) liquid, qualitative characteristics are determined, the values of which in the mixture of the displacing (2) and displaced (3) liquids will significantly differ from the values of the qualitative characteristics selected for the displacing (2) liquid. The transition to stable values of the selected qualitative characteristics, characteristic values selected for the displacing (2) liquid, will indicate complete replacement of the displaced (3) liquid. To determine the volume of the mixture of sequentially pumped liquids at the end of the pipeline section (1) having one diameter and a length of at least five diameters, a device (5) is installed that allows representative sampling from different layers of the liquid pumped through the pipeline. The internal diameter of the pipeline (1) at the sampling point (D (m)) is determined. In order to accurately determine the volume of a mixture of successively pumped liquids, their speed at the measuring point must be constant. The measured values are selected to control the zone of the mixture of sequentially pumped fluids in the flow of the pumped fluid with a set time resolution. The measurement of the level of quality characteristics values selected for each of the successively pumped fluids is carried out using means, including flow analyzers, express analysis methods and standard quality control methods. The time of the initial change in the values of the selected qualitative characteristics of the displaced (3) liquid and / or the initial determination of the qualitative characteristics selected for the displacing (2) liquid with confirmation of at least two consecutive measurements, (t ₁ ) is fixed. As the fluid flow advances, the time is fixed when the measured qualitative characteristics reach a stable value of the indicator characteristic of the displacing (2) liquid and / or stop determining the qualitative characteristics selected for the displaced (3) liquid (t ₂ ). The transition point is the time after which the selected value of the measured quality characteristics will be recorded in at least five measurements in a row. The time delta (Δt, s) between the fixed transition points (Δt = t ₂ - t ₁ ) is determined.

According to the data on the velocity of the fluid flow (υ, m / s) and the time between the fixed points of the boundaries of the mixture zone, the length of the mixed zone (L, m) of successively pumped liquids is determined:

L = υ * Δt.

The speed of the fluid flow can be determined by the values of the flow rate of the products being pumped or by the readings of flow meters installed on the pipeline (1).

According to the data on the length of the mixing zone and the diameter of the pipeline (D, m), the volume of the mixture (V, m ³ ) of liquids sequentially pumped through the pipeline is determined:

V = π (D / 2) ² * L.

The proposed method for determining the volume of a mixture of fluids sequentially pumped through pipelines can be used for any fluids sequentially pumped, for example, petroleum products and oils.

An example of a specific implementation of the proposed method:

The main pipeline carries out sequential pumping of gasoline and winter diesel fuel. A batch of gasoline is transported first, being thus a displaced liquid, respectively, diesel fuel is a displacing liquid. It is necessary to determine the volume of the mixture formed during sequential pumping.

To determine the boundaries of the mixture formation zone of sequentially pumped liquids, the following qualitative characteristics were selected:

- for gasoline - the octane number;

- for diesel fuel - flash point.

Initial data:

Payment:

The length of the mixing zone (L) is determined by the formula:

L = υ * Δt,

where υ is the velocity of the fluid flow, m / s;

Δt is the delta of time, s, between the fixed points t ₁ and t ₂

Δt = t ₂ - t ₁ .

Find:

Δt = t ₂ - t ₁ = 57 min. = 3420 s.

L = 3 m / s * 3420 s. = 10260 m.

The volume of the mixture (V) is determined by the formula:

V = π (D / 2) ² * L,

π = 3.14;

D is the internal diameter of the pipeline at the sampling point, m

That is: V = 3.14 * (0.35 / 2) ² * 10260 = 986.6 m ³ .

Thus, the volume of the mixture of sequentially pumped gasoline and diesel fuel, determined using the above method, was 986.6 m ³ .

Claims (13)

1. A method for determining the volume of a mixture of fluids sequentially pumped through pipelines having various qualitative characteristics, including sequential pumping of the displaced and displacing liquids, the selection of qualitative characteristics and their values that individually characterize the displaced and displacing liquids and determining the volume of the mixture, characterized in that the boundaries are determined zones of the mixture of successively pumped liquids by fixing the time of changing the quality characteristics of the pumped liquids, determined by representative samples taken sequentially with a time interval from different layers of the pumped liquids, while recording the time of the beginning of the change in the selected value of the quality characteristic for the liquid being displaced and / or the beginning of fixing the qualitative characteristics characteristic only of the displacing liquid - point t ₁ , then fix the time of stabilization of the values of the qualitative characteristics characteristic of the displacing fluid, and / or the termination of the fixation of qualitative characteristics line providers characteristic only for extruding liquid - the point t _2, and determining the volume of the mixture is carried out according to the formula V = π (D / 2) ² * L, where V is the volume of the mixture sequentially pumped through pipelines of liquids, m ³ ; π = 3.14; D is the inner diameter of the pipeline at the sampling point, m; L is the length of the mixing zone, m, wherein L = υ * Δt, where υ is the velocity of the fluid flow, m / s; Δt is the delta of time, s, between the fixed points t ₁ and t ₂ ; Δt = t ₂ - t ₁ . 2. The method according to p. 1, characterized in that the qualitative characteristics are the composition of the liquid, including hydrocarbon, elemental and quality indicators characterizing the physico-chemical properties of the liquid. 3. The method according to p. 1, characterized in that the point t ₁ is determined by fixing the time of the first change in the values of the qualitative characteristics characteristic of the displaced liquid and / or the beginning of the fixing of qualitative characteristics characteristic of the displacing liquid, confirmed at least two times, and point t _{2 is} determined by fixing the stabilization time of the values of the qualitative characteristics characteristic of the displacing fluid, and / or stopping the fixing of the qualitative characteristics characteristic of the displaced only liquids confirmed at least five times. 4. The method according to one of paragraphs. 1-3, characterized in that to determine the boundaries of the zone of the mixture of sequentially pumped liquids additionally use markers added to the flow of displaced and displacing liquids.

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