RU2654691C1 - Installation for preparation of high-viscosity paraffin oil to transport (variants) - Google Patents

Abstract

FIELD: engines and pumps; oil and gas industry.

SUBSTANCE: present invention relates to variants for the preparation of high viscosity paraffinic oil for transport. One of the installation options includes a three-phase separator with a well production line, a feed pump, external transport pumps and water preparation blocks. In this case, at least one electric dehydrator and a thermal oil pre-treatment unit are placed downstream of the feed pump, connected by a feed line of the circulating light fraction to the well production flow line.

EFFECT: proposed installation allows to improve the quality of oil treatment.

2 cl, 2 dwg

Description

The invention relates to the transport of oil and can be used to prepare high-viscosity paraffin oil for pipeline transport in the oil industry.

A known method for the preparation of paraffin oil [RU 2553857, IPC B01D 5/00, publ. 06/20/2015], carried out on the installation, which includes a cooling and stabilization system with a recuperative heat exchanger and separation and stabilization units, a fractionation unit connected to the thermolysis unit, as well as a furnace.

The main disadvantage of the installation is the need for preliminary degassing, dehydration and desalination, as well as oil stabilization, which is difficult due to its high viscosity and pour point.

Closest to the proposed invention, the installation of the preparation of heavy oils (options) [RU 2471853, IPC C10G 33/00, C10G 33/04, B01D 17/00, publ. January 10, 2013], which includes a three-phase separator with a well production line, a raw material pump, a coalescer with internal coalescing elements and a sump with an internal coalescence-sedimentation section, as well as a buffer tank with a pump and a commercial oil metering unit (block of external transport pumps ) and treatment facilities (water treatment unit).

The disadvantages of this installation are the low quality of preparation of highly viscous paraffin oil in terms of the "mass fraction of water" and "concentration of chloride salts", and sometimes the impossibility of its preparation due to the high pour point, as well as the high energy consumption for pumping due to the high viscosity of the oil.

The objective of the invention is to improve the quality of oil preparation and reduce energy consumption.

The technical result is to increase the quality of oil preparation and reduce energy costs for pumping by reducing the viscosity of the oil by equipping the unit with a thermal pre-treatment unit connected to the supply line of the production of wells with a supply line of light fraction.

Two installation options are proposed, the first option provides for the transport of oil in the form of liquid, the second in the form of an oil and gas mixture.

The specified technical result in the first embodiment is achieved by the fact that in the proposed installation, which includes a three-phase separator with a supply line for the production of wells, a feed pump, blocks of external transport pumps and water treatment, the peculiarity is that at least one electric dehydrator and a block are placed after the feed pump thermal pre-treatment of oil, connected by a supply line of circulating light fraction with a supply line of well products.

The second option differs in that a multiphase pumping station is installed as a block of external transport pumps connected to a gas outlet line from a three-phase separator.

The thermal oil pre-treatment unit may consist, for example, of a recuperative heat exchanger, separation and stabilization units, fractionation and thermolysis, as well as a furnace. A multiphase pumping station may include a buffer tank, multiphase pumps and metering units for commercial oil and gas. The remaining elements of the installation can be made in the form of any devices of the corresponding purpose, known from the prior art.

The placement of electric dehydrators and a thermal oil pre-treatment unit after the feed pump makes it possible to reduce the viscosity of the oil by thermally converting high molecular weight paraffins of heavy oil fractions to light hydrocarbon fractions, which reduces the energy consumption for pumping oil. The connection of the output line of the circulating light fraction from the thermal oil pretreatment unit with the supply line of the well products reduces the viscosity of oil during separation and electric dewatering by mixing with a low viscosity light fraction, thereby improving the quality of oil preparation. The circulating light fraction can be supplied in both liquid and vapor form.

The first variant of the proposed installation (Fig. 1) includes a three-phase separator 1, electric dehydrators 2 (one apparatus is conventionally shown), a pump 3, a thermal oil pre-treatment unit 4, and an external transport pump block 5. The second option (Fig. 2) is distinguished by the installation of a multiphase pump station 6 instead of block 5.

During the operation of the first installation option, the oil supplied through line 7 is mixed with the circulating light fraction supplied through line 8 and sent to the separator 1, where the gas discharged through line 9 is emitted, for example, to prepare for use as fuel gas water discharged through line 10, for example, to prepare for injection into the reservoir pressure maintenance system (water treatment unit is not shown conventionally), and pre-dehydrated oil, which is pumped through line 11 to electric dehydrators 2, simultaneously mixed with fresh the ode supplied through line 12. The extracted water through line 13 is fed to line 10, and the dehydrated oil through line 14 is sent to block 4, from which the circulating light fraction is withdrawn, the gas supplied through line 15 to line 9, and an additionally prepared stable oil, pumped out using block 5 along line 16. The operation of the second installation option differs by supplying part of the separation gas, which was not used for own needs, from line 9 along line 17 to a multiphase pump station 6, which pumps the oil and gas mixture through line 18.

Thus, the proposed installation can improve the quality of oil preparation, reduce energy consumption and can be used in industry.

Claims (2)

1. Installation for the preparation of high-viscosity paraffin oil for transport, including a three-phase separator with a line for supplying well products, a feed pump, blocks of external transport pumps and water treatment, characterized in that at least one electric dehydrator and a thermal oil pretreatment unit are connected after the feed pump a feed line of a circulating light fraction with a feed line of well production. 2. Installation for the preparation of high-viscosity paraffin oil for transport, including a three-phase separator with a supply line for wells, a feed pump, blocks of external transport pumps and water treatment, characterized in that at least one electric dehydrator and a thermal oil pretreatment unit are connected after the feed pump a supply line of circulating light fraction with a supply line of well products, and as a block of external transport pumps, a multiphase pumping station connected to the line is installed th gas outlet from the three-phase separator.

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