SU1301512A1 - Multistage plant of hydrocyclones for separating petroleum products - Google Patents

Abstract

The invention relates to installations for conducting hydromechanical separation processes for viscous, oily petroleum products used in the chemical and petrochemical industries, and allows for improved separation efficiency. The installation contains a hydrocyclone 1, which forms its first stage with an inlet 2 and a non-electroplating product of DRAIN 3 branch pipes, a dissolving chamber 4 with a branch pipe 5 for discharging the dried product, and a branch pipe 6 for supplying the solvent. Hydraulic cyclones 8 and 10 form the second, 15 and 26 third, 18 and 31 fourth stages of the installation. Hydrocyclones 8, 15, 18 are designed for treating liquid discharges; hydrocyclones 10, 26, 31 are for treating a dry descent of a hydrocyclone 1. Hydrocyclone 1 is connected to hydrocyclone 8 inlet 7, hydrocyclones 8 and 15 are connected connected to the inlet nozzles 14 and 17 hydrocyclones of subsequent stages. The hydrocyclones 10 and 26 of the condensed descent, except the hydrocyclone 31 of the last stage, are equipped with dissolution chambers 11 and 27. Sand nozzles 20, 21, 22 of hydrocyclones 8, 15, 18 of liquid descent are connected to a second stage hydrocyclone 10 dissolving chamber 11, and drain nozzles 33, 34, 35 of hydrocyclones 10, 26 and 31 condensed descent are connected to an inlet nozzle 36 of an additional hydrocyclone 37. 1 il. Osbetlem Nespr product & (L 00 about SP 1chE -31 33

Description

The invention relates to installations for carrying out hydromechanical processes for the separation of viscous oily petroleum products and can be used in the chemical, petrochemical industry and a number of other branches of the national economy.

The purpose of the invention is to increase the efficiency of separation.

The drawing shows an installation diagram for the separation of petroleum products.

The installation contains a hydrocyclone 1 with an inlet 2 and a drain 3 nozzles, a dissolving chamber 4 with nozzles for draining the dried product 5 and supplying solvent 6. The hydrocyclone 1 has a diameter of the cylindrical part larger than all subsequent ones and forms the first stage . The drain pipe 3 of the hydrocyclone 1 is connected to the inlet pipe 7 of the hydrocyclone 8, belonging to the second stage. The sand pipe 5 of the hydrocyclone 1 is connected to the inlet pipe 9 of the hydrocyclone 10, also belonging to the second stage. The hydrocyclone 10 and the hydrocyclone 1 are provided with a dissolving chamber 11, into which a solvent is fed through the pipe 12. The drain pipe 13 of the hydrocyclone 8 is connected to the inlet pipe

14 hydrocyclone 15, referred to the third stage. Drain pipe 16 hydrocyclone

15 is connected to an inlet pipe 17 of a fourth-stage hydrocyclone 18 having a drain pipe 19, from which clarified oil products are diverted to the destination.

Sand nozzles 20-22 of hydrocyclones 8, 15 and 18, which are hydrocyclones of a liquid gathering, are connected to the nozzle 23 of the chamber 11 of a hydrocyclone 10 of the second stage. The sand pipe 24 of the hydrocyclone 10 is connected to the inlet pipe 25 of the hydrocyclone 26, which is a third stage hydro cyclone. It is also provided with a dissolving chamber 27 with a solvent inlet 28 and a Peskov nozzle 29, A hydrocyclone Pesing 29 29 is connected to a fourth stage hydrocyclone 31 inlet 30, a Pescovic 32 hydrocyclone 31. Hydrocyclones 10, 26 and 31 are hydrocyclones of a concentrated descent. Drain pipes 33-35 of hydrocyclones 10, 26 and 31 are connected to the inlet pipe 36 of an additional hydrocyclone 37, which has a drain 38 and a sandy 39 pipe.

Multistage installation of hydrocyclones works as follows.

The original viscous oily oil through the tangential inlet 2 enters the hydrocyclone 1 of the first separation stage. Under the action of centrifugal forces in the hydrocyclone 1, the oil product is divided into liquid and condensed gatherings. Liquid descent of the hydrocyclone 1 through the drain pipe 3 enters

in the tangential inlet 7 of the hydrocyclone 8 of the second stage. Here also, the product is divided into liquid and condensed descents. Liquid withdrawal from the hydrocyclone 8 through the drain pipe 13

enters the tangential inlet 14 of the hydrocyclone 15 of the third stage. Dividing into liquid and condensed gatherings, liquid discharge from the drain pipe 16 through the tangential inlet pipe 17 enters the fourth stage hydrocyclone 18 for further separation. From the hydrocyclone 18, the finally clarified liquid gathering of the oil product is discharged through the drain pipe 19 to its intended purpose.

The condensed descent of the hydrocyclone 1 enters the dissolution chamber 4, where simultaneously the solvent is fed through the pipe 6 in the ratio of 0.5-0.7 to 1% of the volume of the condensed descent. The solvent washes away the oils and resins contained in it, dissolves them and dilutes the condensed convergence to a fluid state. Diluted condensed descent from the hydrocyclone 1 through the pipe 5 enters the tangential inlet 9 of the hydrocyclone 10 condensed descent of the second stage. In hydrocyclone 10, the diluted condensed gathering is divided under the action of centrifugal forces into liquid and condensed convergences. The condensed gathering thus distinguished, moving in a spiral along

the walls of the hydrocyclone 10, do; into the dissolving chamber 11. Here, pipe 23 from Peskovye pipes 20-22 is supplied with condensed descent of hydrocyclones 8, 15 and 18, and through pipe 12 serves a solvent that dissolves oils and gums from petroleum product, dilute it to a liquid.

The diluted condensed gathering through the nozzle 24 enters the tangential inlet nozzle 25 of the hydrocyclone 26 of the third stage, where it is again divided under the action of centrifugal forces. Selected condensed gathering enters the dissolution chamber 27, where the solvent is fed through the pipe 28.

The condensed thydrocyclone 26 brought to a liquid state through a pipe 29 enters a tangential inlet 30 of a hydrocyclone 31 of the fourth stage, where it is finally separated and the condensed descent through the sand pipe 32 is removed from the installation.

Hydrocyclones 10, 26, and 31 liquid outlets are removed from the apparatus through drain pipes 33-35, respectively, are combined, and through the tangential inlet pipe 36 enter the additional hydro cyclone 37. After the final separation

in hydrocyclone 37, the clarified descent resulting from the sequential processing of the condensed descents is derived from

installation through the drain pipe 38, and a condensed gathering through the sand pipe 39.

Removal of the condensed product from the installation after the hydrocyclone 31 of the last stage and the additional hydrocyclone 37, as well as the removal of the clarified product after hydrocyclones 18 and 37, can be carried out through common pipelines, and the mixing of the liquid effluent of the last clarification stage and the last condensation stage is due to the high degree of successive washing of solid phase with a solvent and with the exception of the possible breakthrough of particles of the solid phase by trapping them in an additional hydrocyclone 37.

Thus, the supply of the first-stage hydrocyclone and the condensed-out hydrocyclones, in addition to the last-stage hydrocyclone, dissolution chambers and the installation of the unit with an additional hydrocyclone allows, by dissolving the separated condensed product having a thick, viscous, oily consistency and giving it flow properties while simultaneously separating from low hydrocarbons, as well as by excluding the possible slippage of particles of the solid phase with the clarified product of hydrocyclones of a condensed descent during flax hydrodynamic

Editor M. Blanar Order 926/10

VNIIPI USSR State Committee for Inventions and Discoveries

1 13035, Moscow, Zh-35, Raushsk nab. 4/5 Production and printing company, Uzhgorod, ul. Design. four

mode, select the maximum amount of the desired substances from petroleum products and thereby increase the efficiency of their separation.

Claims (1)

Invention Formula Multistep installation of hydrocyclones for the separation of petroleum products, containing stages of separation and pipelines connecting them, each subsequent after the first stage are designed as two hydrocyclones with inlet, drain and Peskovy pipes, the discharge pipes of hydrocyclones of the liquid descent are connected to the inlet pipes of hydrocyclones of the liquid descent of each subsequent stage, characterized in that, in order to increase the separation efficiency, it is equipped with an additional hydro cyclone, a first stage hydro cyclone and a hydro cycling us condensed vanishing except the last hydrocyclone stage, equipped with cameras dissolving condensed descent, the hydrocyclone for sand pipes connected to the liquid gathering chamber dissolving hydrocyclone second stage, and drain connections connected hydrocyclones vanishing condensed with additional hydrocyclone inlet. Compiled by L. Tsyganov Tehred I. VeresKorrektor O. Lugova Circulation 517Subscribe