RU2465219C2 - Method of recycling oil sludge from sludge collector - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to oil extraction and refining, particularly to processing and recycling oil sludge contained in sludge collectors by separating oil sludge into oil products, water and mechanical impurities. The method involves collecting oil sludge simultaneously in two streams: collecting the top layer of oil sludge primarily containing oil products, and collecting the bottom layer of oil sludge first washed with water and primarily containing water with a bottom sediment. The top layer of oil sludge is first separated from coarse mechanical impurities on a filter. Oil products are then separated from the remaining mechanical impurities and water on a centrifuge and the bottom layer of oil sludge washed with water is fed to a vibrating sieve, to which mechanical impurities with water separated on the filter and the centrifuge are also fed. Oil products with water separated from the top and bottom layers on the vibrating sieve are settled in a vessel, with subsequent purification of water separated in the vessel in a hydrocyclone and the oil product layer is separated from mechanical impurities on a centrifuge.

EFFECT: faster process of recycling oil sludge and high efficiency of said process, with simultaneous reduction of environmental pollution and fire and explosion hazard.

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Description

The invention relates to the field of oil production and processing, in particular to the processing and disposal of oil sludge contained in sludge collectors.

There is a method of disposing of oil sludge from a sludge collector, which consists in the fact that the contents of the oil sludge are sampled from two levels, while the upper layer with a high content of oil sludge is sent directly to the processing, and the layer with a high water content is returned to the opposite end of the sludge collector (US Pat. No. 2,323,787, CL E02B 15/04, published on 05/20/2008).

The disadvantage of this method is the low efficiency of the separation of oil sludge, as it provides only the separation of the upper part of the sludge with a high content of oil from the lower part, which contains a high content of water and bottom sediment.

Closest to the claimed object is a method of disposal of oil sludge from a sludge collector by separating oil sludge into oil products, water and solids, in which the separation is carried out in three successive stages. At the first stage, the upper layer of oil sludge is collected, from which large mechanical impurities are first isolated on a vibrating screen, then the oil sludge is centrifuged to separate water from it, as well as residues of mechanical impurities, which are then washed in a solution of a surfactant. At the second stage, the middle layer of oil sludge is collected, which contains predominantly sublayer water, from which large mechanical impurities are first isolated by passing them through a vibrating screen, and then water is centrifuged to separate oil sludge from it, as well as residues of mechanical impurities, which are then washed in a surface active substance. At the third stage, the collection of bottom sediment is carried out, from which oil sludge is separated by washing the bottom sediment in a solution of a surfactant, then large mechanical impurities are separated from the oil sludge thus obtained on a vibrating sieve, after which the oil sludge is centrifuged to separate residual water and mechanical impurities from it ( Patent No. 2294803, class B09C 1/00, C02F 11/00, published March 10, 2007).

The disadvantages of this method is the duration of the process of disposal of oil sludge and its low productivity, since the separation of oil sludge into oil products, water and solids occurs in three successive stages. In addition, the use of vibrating screens to separate mechanical impurities from oil sludge to separate from the latter oil products leads to intensive evaporation of oil products, especially from the heated top layer of oil sludge, which pollutes the environment and creates a fire and explosion hazard.

The invention is aimed at accelerating the process of disposal of oil sludge and increasing its productivity while reducing environmental pollution and reducing fire and explosion hazard.

This is achieved by the fact that in the method of disposal of oil sludge from the sludge collector by separating oil sludge into oil products, water and solids, including collecting the upper layer of oil sludge, separating from the collected upper layer of oil sludge containing mainly oil products, mechanical impurities and water in a centrifuge, according to the invention simultaneously with collection of the upper layer is washed with water and the lower layer of oil sludge is selected, containing mainly water with bottom sediment, from which large mechanisms are separated on a vibrating screen mechanical impurities, before separating the mechanical impurities in the centrifuge from the upper sludge layer, large mechanical impurities are preliminarily separated on the filter, the mechanical impurities separated in the filter and the centrifuge are fed to the vibrating screen for additional separation from the mechanical impurities of oil products and water, separated in the vibrating screen from the upper and lower layers of oil sludge, oil products with water are fed to a tank for separation into an oil product layer and water separated in the tank is subjected to an additional purification from mechanical impurities in a hydrocyclone, after which they are used to wash out the lower layer of oil sludge in the sludge collector, and the separated oil products are fed to a centrifuge for further purification from mechanical impurities.

It is advisable to add a surfactant when selecting the bottom layer of oil sludge.

In addition, before separating the mechanical impurities on the vibrating screen from the bottom layer of oil sludge, it is advisable to treat the oil sludge with ultrasound.

The drawing shows a process diagram of the installation, illustrating the proposed method of disposal of oil sludge from sludge collector.

Installation for implementing the method of disposal of oil sludge from the sludge collector 1 contains a pump 2 for collecting the upper part of the oil sludge and feeding it into the filter 3 to separate large mechanical impurities from it, a centrifuge 4 for separating mechanical impurities and water from oil products, and also a pump 5 for collecting lower parts of oil sludge and feed to the vibrating screen 6, a tank 7 for collecting a mixture of oil products and water separated from the mechanical impurities on a vibrating screen and separating the mixture by settling into water and the oil product layer, pump 8 for supplying the water separated in the tank 7 to the hydrocyclone 9, which serves to separate the water from the remaining mechanical impurities, a water removal system from the hydrocyclone 9 for washing the bottom of the sludge at the opposite end of the sludge collector and a pump 10 for feeding the oil product layer separated in the tank 7 into centrifuge 4. The installation is equipped with an ultrasonic apparatus 11 installed in front of the vibrating screen 6.

The method is as follows.

At the same time, two streams collect the upper layer of oil sludge, which contains mainly oil products, by pump 2 and collects the previously diluted water of the lower layer of oil sludge, which contains mainly water with bottom sediment, by pump 5. The upper layer of oil sludge is fed to filter 3, where the oil sludge is cleaned of large mechanical impurities, and then - to a centrifuge 4, in which the remaining mechanical impurities and water are separated from oil products, which are removed from the centrifuge 4.

The bottom layer of oil sludge washed out by water is fed to a vibrating screen 6, where mechanical impurities separated in the filter 3 and centrifuge 4 are also fed with water, where additional separation of oil products occurs due to washing with water under the influence of vibration generated by the vibrating screen. Separated mechanical impurities are removed from the vibrating screen 6, and water with oil products enters the tank 7. From the tank 7, water is taken out by the pump 8 and the remaining mechanical impurities are removed from the hydrocyclone 9, after which the bottom layer of oil sludge is washed out to the end opposite to the place of oil sludge intake sludge collector. The oil product layer separated in the tank 7 is fed to the centrifuge 4 by the pump 10 to separate the remaining mechanical impurities from it.

To improve the separation of petroleum products, it is advisable to add a surfactant during the selection of the bottom layer of oil sludge washed out with water, after which it will be sonicated 11 before being fed to the vibrating screen 6.

Using the proposed method of disposal of oil sludge from a sludge collector will allow, in comparison with the prototype, to accelerate the process of separating oil sludge into oil products, water and mechanical impurities and to increase productivity by simultaneously collecting and processing the upper and lower layers of oil sludge from a sludge collector, using a filter to pre-separate mechanical impurities from sludge will reduce the evaporation of petroleum products and environmental pollution, as well as reduce the fire explosion hazard.

In addition, when the lower layer of oil sludge is washed out with water, mechanical impurities are washed off, and the sludge collector works as a sump: oil products emerge from the lower layer of oil sludge directly in the sludge collector. The washing off of mechanical impurities and the ascent of oil products is carried out more intensively in the presence of surfactants that enter the sludge collector together with water supplied to the erosion of the lower layer of the sludge collector. Ultrasonic treatment of oil sludge also helps to improve the separation of solids from oil products.

Claims (3)

1. The method of disposal of oil sludge from the sludge collector by separating oil sludge into oil products, water and mechanical impurities, including collecting the upper layer of oil sludge, separating from the collected upper layer of oil sludge, containing mainly oil products, mechanical impurities and water in a centrifuge, characterized in that at the same time as collecting the upper the layers are washed with water and the lower oil sludge layer is selected, which contains mainly water with bottom sediment, from which large mechanical impurities are separated on a vibrating screen, while Before separation of mechanical impurities in a centrifuge from the top layer of oil sludge, large mechanical impurities are preliminarily separated on the filter, separated in the filter and centrifuge, mechanical impurities with water are fed to a vibrating screen to further separate from mechanical impurities of oil products and water, oil products separated on a vibrating screen from the upper and lower layers of oil sludge with water is fed into the tank for separation into the oil product layer and the water separated in the tank is subjected to additional purification from mechanical their impurities in a hydrocyclone, after which is used to scour the bottom layer of sludge in the sludge collector, and the separated oil product layer fed to a centrifuge for purification from mechanical impurities. 2. The method according to claim 1, characterized in that when selecting the lower layer of oil sludge, a surfactant is added to it. 3. The method according to claim 1 or 2, characterized in that before separating the mechanical impurities on the vibrating screen from the bottom layer of oil sludge, it is subjected to ultrasonic treatment.

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