RU50437U1 - OIL SLUDGE PROCESSING PLANT (OPTIONS) - Google Patents

Abstract

The utility model can be used in the oil and gas industry in the construction of wells for the disposal of drilling waste. For each of the options, the installation in its general form consists of a set of interconnected containers in which sludge settles, with the subsequent removal of sludge products. The utility model allows to simplify the design of the installation and the process of its operation.

Description

The utility model can be used in the oil industry in the construction of wells for the disposal of drilling waste.

The prior art device for the processing of oil sludge according to the author's certificate of the USSR No. 1789275, containing a hopper with heating elements installed inside it and a hatch in communication with the screw conveyor body. At the outlet of the latter case, a hole is made, blocked by a pressure reducing valve. The conveyor housing is perforated, and under it is a collector with a quartz filter. Installation works as follows. Oil sludge is fed into the hopper, where it is heated to a temperature of 80-100 ° C. Under the influence of its own weight, the mixture moves through the hopper hatch into the screw conveyor, where when it is compressed, heavy resins and asphaltenes settle on the solid particles of the sludge, creating low-quality asphalt. The liquid fraction (oil) flows through a quartz filter into the collector.

From Japan application No. 2003-236306, published on 08.26.2003, a filter apparatus for purifying oil-contaminated liquids is known. The apparatus contains a filter mounted on the central axis of the housing, into which a liquid is required that requires cleaning. Passing through the filter, which performs the initial cleaning by trapping the largest particles, the liquid enters the inner surface of the housing, where the oil-containing fractions rise due to their own weight and are removed through a nozzle installed in the upper part of the housing, and water sediment settles to the bottom of the housing and is discharged through a pipe installed in the lower part of the housing.

Operation of the above devices directly in the areas adjacent to the drilling rigs appears

difficult due to the presence of moving parts in their structures or requiring periodic replacement of filters and, as a result, increases the cost of scheduled maintenance and repair. The proposed utility model is aimed at depriving these shortcomings and the technical result that can be obtained by its implementation is to simplify the design of the installation and the process of its operation.

To achieve the result according to one of the options of the proposed utility model, the installation for processing oil sludge consists of two tanks connected to each other in the upper parts by means of a pipeline, one of the tanks serves to fill it with oil sludge, and the second to separate it into fractions, when this in the upper and lower parts of the second tank made pipes that serve, respectively, for the output of oily and aqueous fractions.

According to the second variant, the installation consists of three tanks interconnected by pipelines, one of which serves to fill it with oil sludge, the second to dispose of the oily fraction of the sludge, the third to dispose of water, the first tank connected to the second in the upper parts, from the third - in the lower, and in the upper part of the second and third containers made pipes for the output, respectively, of oily and aqueous fractions.

The principle of operation of the installation for all options is based on the sedimentation of the sludge and the subsequent withdrawal and disposal of sludge products. In the general case, a loading pipe is installed along the longitudinal axis of the tank for oil sludge, the outlet end of which is located at a certain distance from the bottom of the tank. Sludge through the pipe evenly enters the tank, gradually filling its entire volume, with the sedimentation of sand, soil, etc. impurities at the bottom of the tank. The resulting precipitate is subsequently removed from the tank through a hatch made in its lower part at a certain distance from the bottom. The subsequent course of the processing process depends on the type of installation used.

Based on the first option, the sludge, as the tank is filled, rises to its upper part, which is connected via a pipeline, for example overflow, to the upper part of the second tank, into which the sludge is poured. In the second tank, the oil component of the sludge, due to its lower weight relative to the water component, floats to the surface, concentrates in the upper part of the second tank and merges from it through a pipe made in its upper part. The height of the nozzle is selected based on the size of the tank and the density of the original sludge. To speed up the process of separating the oil fraction, it is also possible to slightly heat the sludge in the second tank, for example, by installing heating elements inside the tank. Obviously, the heating temperature should be significantly lower than the ignition temperature of the oil. In addition, it is advisable to perform in this case the second tank is open, to eliminate the likelihood of accumulation of oil evaporation products in the tank. The water component of the sludge is concentrated in the lower part of the tank and is discharged through a pipe made in its lower part, at a certain distance from the bottom of the tank. In addition, small particles of impurities that have not settled in the first tank settle to the bottom of the second, forming a precipitate, which is also subsequently removed from the tank through the corresponding hatch.

According to the second embodiment, in the first tank, in addition to sedimentation of impurities to the bottom, primary fractionation of the sludge occurs, as a result of which the oil component, due to its lower weight relative to the water component, floats to the surface, is concentrated in the upper part of the tank, which, for example, is connected by overflow with the upper part of the second tank, into which the oil component is poured. In the second tank, the final sludge stage occurs, as a result of which the oil fraction floats to the surface and is removed from the tank through a pipe made in its upper part at an appropriate height. In its lower part, the first tank is connected

by means of a pipeline with a third capacity, into which the aqueous fraction of the sludge is poured. In the third tank, the final sediment of the water fraction occurs, which is subsequently removed from the tank by means of a pipe. Thus obtained water is suitable for further use in technical needs. In the lower part of the second and third containers, hatches can be made, which serve to remove the sediment formed during the sedimentation of smaller particles that do not settle on the bottom of the first container.

Both versions of the installation include the construction at a certain distance from the base of the ladder, which serves as a visual observation by the maintenance personnel of the sludge process, as well as the possibility of access to the upper pipes.

The proposed installations are simple in design and do not require the use of qualified manpower during installation and operation. Their advantage is also obvious, such as the possibility of operating in the open air, without preliminary (except for the construction of foundations for tanks) preparing the terrain for installation.

Claims (2)

1. Installation for the processing of oil sludge, consisting of two tanks connected to each other in the upper parts by means of a pipeline, one of the tanks serves to fill it with oil sludge, and the second - to separate it into fractions, while in the upper and lower parts of the second tank made pipes serving, respectively, for the output of oily and aqueous fractions. 2. Installation for the processing of oil sludge, consisting of three tanks interconnected by pipelines, one of which serves to fill it with oil sludge, the second - for disposal of the oily fraction of the sludge, the third - for disposal of water, while the first tank is connected to the second in the upper parts, from the third - in the lower, and in the upper part of the second and third containers made pipes for the output, respectively, of oily and aqueous fractions.