SU1247038A1 - Apparatus for dehydration and oil demineralization - Google Patents

Description

The invention relates to devices for the dehydration and desalting of oil and can be used in systems for the collection and treatment of oil in the fields.

The aim of the invention is to increase the efficiency of the desalting and dewatering process.

The drawing is a schematic diagram of the device.

The device contains a main pipe 1, a distributor in the form of nozzles 2 and 3 for supplying washing water arranged in several rows (two rows are shown in the drawing). Nozzles 2 and 3 are connected to a collector 4, which is divided by partition 5 into autonomous cavities 6 and 7, each of which communicates with a main line of flushing water using sections 8 and 9 equipped with throttle valves 10 and 11, respectively. The collector 4 surrounds the main pipe 1 above the inlet openings of the pipes 2 and 3. The axis of the pipes in different rows 2 and 3 of the position. placed at an angle to each other and at different angles to the axis of the main pipe 1. The location of the pipes 2 and 3 is in the corridor rows. The second branch pipes 3 in the downstream direction are installed opposite the oil flow. The nozzles 3 are installed at an angle of 130-140 ° to the axis of the pipe 1.

The device works as follows.

Oil enters the main pipe 1. Wash water from the line through sections 8 and 9 goes to cavity 6, 7 of collector 4, from where it goes through pipe 2 and 3 to the inside of main pipe 1 and mixes with oil, washing off the salts it contains.

After the wash water is injected, water-and-oil mixture is supplied to an oil preparation unit (not shown).

When using the proposed device, flushing water jets through nozzles of different rows are directed at different angles to the pipe axis and at an angle to one another. This determines the intersection of the jets and the formation of more powerful jet streams as a result of the merging of jets of different rows. At the same time, the determining size of the jets (for example, the equivalent diameter) and their impulse is a function at constant geometric parameters of the impulse device (velocity head or discharge) of the jets of different rows. Consequently, the parameters of the discharged jets vary very significantly with the redistribution of the wash water. In extreme cases, in the absence of water flow through the second row, these are jets with the characteristics of the first row, and in the absence of flow through the first row, they are jets with the characteristics of the second row. When supplying jets of the second row at an angle to the pipe axis, the range of parameters of the device operation within which effective mass exchange is realized expands the range of oil flow. It should be noted that the supply of jets against the course of the flow of oil leads to a significant reduction in the length of the mixing zone and, as a result, the dimensions of the device. This is due both to an increase in the intensity of transverse pulsations in the zone of displacement of the flows, and to a particular mixing on the countercurrent. Increasing the jet delivery angle for the second row more than 130-140 ° is not advisable, since this significantly increases the energy costs in the device, both by increasing the pressure for the wash water and, to a large extent, by mixing losses for the oil stream. The length of the mixing zone is practically unchanged.

Claims (3)

1. DEVICE FOR DEWATING AND SALTINING OIL, containing a main pipe, inside of which a distributor is made, made of pipes installed at an angle to the axis of the pipe, a collector located kaxial on the pipe connected to the pipes, characterized in that, in order to increase efficiency processes, the distributor nozzles are placed in at least two rows, the axis of the nozzles in the rows are located at an angle to one another and at different angles to the pipe axis, while the manifold is provided with a partition between the rows of nozzles and dividing the collector into autonomous cavities, including nozzles for supplying washing water. 2. The device according to π. 1, characterized in that the nozzles of the second row of the distributor are installed against the course of the oil flow. 3. Apparatus' according to claim. 2, characterized in that the nozzles are set at an angle of 130-140 ° _L to the main pipe axis. §