RU1801864C - Shipboard plant for cleaning water contaminated with oil - Google Patents

Abstract

The invention relates to the purification of oily waters and can be used in the treatment of marine oily waters, as well as wastewater on drilling platforms, oil industry enterprises and other areas where wastewaters containing oil products are generated. It consists of an ice water tank 1, a manifold 2, a hydrocyclone 3, a pressure sensor 4, an automatic air reducer 5 and valves 6,7,8.1 sludge.

Description

The invention relates to a technique for treating oil-containing waters and can be used in the treatment of shipboard oil-containing waters as well as wastewater on drilling platforms, oil refining and oil-producing industries, and other technical fields where wastewater containing oil products is generated.

An object of the present invention is to increase the cleaning ability of a plant. This goal is achieved by the fact that the water tank is equipped with a collector for supplying air installed in its lower part, connected to the ship's compressed air system by means of a pipeline, which is equipped with a pressure regulator and a pressure sensor located in the upper part of the internal cavity of the tank water and connected to a pipeline pressure regulator.

The cleaning ability of this installation is significantly higher than that of the analogue for the following reasons:

Firstly, the supply of compressed air to the reservoir causes the flotation of oil product droplets in the entire volume of oil-containing water contained in the tank of flax water. Moreover, the collector device is such that the size of the air bubbles is commensurate with the size of the droplets of the oil product, which is a necessary condition for effective operation. Such a size of air bubbles is created, for example, by deluge devices.

Secondly, the creation of excess air pressure in the lower part of the cistern of flax water allowed the supply of oily water to the hydrocyclone without using a pump. Thus, in this case, there is no additional crushing of the oil product in the pump, and consequently, the cleaning ability of the hydrocyclone increases.

ate with

00

about

00

about

Thirdly, part of the air supplied to the manifold accumulates in the upper part of the tank, and part is in the form of bubbles in the water filling the tank. Therefore, an air-oil line is fed into the hydrocyclone to the mixture. In a hydrocyclone, air bubbles having the lowest density of the components of the mixture are concentrated in the center of the vortex flow generated in the guiding apparatus of the hydrocyclone. Air bubbles are an effective center for oil product concentration, which increases the cleaning ability of the hydrocyclone. It should also be noted that the supply of an air-oil-water mixture to a hydrocyclone is not possible with a pump, because with a significant amount of air in the supplied mixture, normal pump operation is impossible. Therefore, an increase in the degree of purification of oil-containing waters in a hydrocyclone due to the introduction of a certain amount of air into the mixture to be cleaned is possible only with a pumpless supply of liquid to the hydrocyclone.

The drawing shows the installation diagram. It consists of an ice water tank 1, a manifold 2, a hydrocyclone 3, a pressure sensor 4, a pressure regulator 5 and valves 6,7,8.

The installation works as follows. Oil-containing water with open valve 7 enters the tank 1. Upon reaching level 1-1, valve 7 closes and valve 8 opens, air from the ship’s compressed air system enters manifold 2. At the same time, oil-containing water is saturated with a large number of air bubbles that float up with particles of the oil product and carry them to the surface, forming an air-oil foam. In the process, an excess pressure is created between level 1-1 and the upper part of the internal cavity of the tank 1, and in the volume of the oil-water mixture

(below level 1-1) air bubbles accumulate which do not have time to float up. Upon reaching a certain value of excess pressure (4-6 kg / cm2) opens

valve 6 and air-oil-water to the mixture enters the hydrocyclone. In this case, the pressure regulator 5, by means of the sensor 4, keeps the overpressure constant. This is necessary for the stable operation of the hydrocyclone 3. Due to the rotation in the coils of the hydrocyclone, the air-oil-water is divided into a mixture, air bubbles are collected in the center, and dispersed in

water, oil particles and air-oil are removed to the mixture. The purified water is drained, for example, overboard.

Thus, the advantages of this invention in comparison with the prototype are: 1. Flotation in a tank of flax water; 2. Pumpless supply of the mixture to be cleaned into a hydrocyclone, which does not lead to additional dispersion of the oil product; 3. Improving the performance of the hydrocyclone by adding air bubbles to the oil / water mixture, which are centers of fusion of the oil particles.

Claims (1)

The claims A ship installation for cleaning oil-containing water containing a bilge water tank and a cleaning device, characterized in that, in order to increase the cleaning ability of the plant, the bilge water tank is equipped with an air supply manifold installed in its lower part, made with the possibility of connecting to the ship’s compressed air system through a pipeline that is equipped with a pressure regulator and a pressure sensor located in the upper part of the inner cavity of the tank of flax water and connected with piping pressure regulator. CxfOfflt / t / Sosfyx Vt / s xx S0JA