RU66772U1 - INSTALLATION FOR REMOVING TECHNOGENIC CLUSTERS OF OIL PRODUCTS - Google Patents

Abstract

The installation is designed to extract technogenic accumulations of oil products from the surface of the groundwater and can be used to organize soil treatment to increase the flow rate of pumping wells. The installation contains a system of wells 1, filter columns 2 with submersible oil pumps 3, product lines 4, a receiving tank 5, with valves 6. A control unit 7 with level sensors 8.9 is installed on each well. The sensors are located on a height-adjustable rod 10. A submersible pump 3 is installed in the well above the level of the phase separation of the liquids and is powered by the engine 11. A purification filter 12, a gas separator 13 and a metering device 14 are installed at the pipeline 4 in front of the receiving tank 5. At each pipe 4 a check valve 15 is installed in the well. A pressure gauge 16 is installed on the pipeline in front of the tank 5. By simplifying the installation layout, the production cycle for extracting oil products from the surface of the groundwater is reduced and the percentage ingress of water in the evacuated mixture, 2 ill.

Description

The utility model relates to the field of ecology, and in particular, to devices for extracting technogenic accumulations of oil products from the surface of groundwater, and can be used in organizing soil treatment to increase the flow rate of pumping wells.

The prior art is as follows:

A device for cleaning the soil from oil product leakage (RF patent No. 38352, IPC ЕВВ 7/02, bull. No. 16, 2004) containing a system of wells, pumps, buffer capacity, storage systems and a transfer pump connected to a single line. Wells are equipped with perforated columns and protected by mesh throughout the perforation zone. The lifting of the oil product is carried out by pumping the inflow of the internal perforation zone by the sliding control and by sending reverse metered circulation to the inflow zone. This device is taken as a prototype.

The disadvantages of the known device is the structural complexity and duration of the technological cycle of cleaning the soil from oil spills.

The task of creating a utility model is to develop a simple and reliable installation for extracting technogenic accumulations of oil products from the surface of ground water, with a low percentage of water entering the evacuated mixture.

The problem is solved using the characteristics specified in the formula of the utility model, common with the prototype, such as a plant for extracting technogenic accumulations, including one or more wells with filter columns and submersible pumps connected by product pipelines to the receiving tank and shut-off

fittings, and distinctive essential features, such as: the installation is equipped with an automation system that includes a control unit installed on each well, connected to height-adjustable level sensors located on a height-adjustable rod and to a submersible pump motor, which is installed in the well at level of the phase separation of the liquids, while a purification filter, a gas separator and a metering device are installed on the pipeline in front of the receiving tank, and a return valve is installed at the outlet of the pipeline of each well pan.

The above set of features allows you to obtain the following technical result: simplification of the design (do not need a buffer tank, transfer pump, pipelines connecting them to each other and other elements of the technological scheme) and shorten the technological cycle of extracting oil products from the surface of ground water (long-term sedimentation of the mixture is not required) , a low percentage of water ingress in the evacuated mixture is obtained (due to the presence of filters and a control system that optimizes the pumping process by sensors).

Patent studies have shown that solutions having features similar to the distinguishing features of the proposed technical solution have not been identified, which gives the right to judge the materiality of the differences between these signs, and the totality of all the signs gives a new technical result.

The above signs can effectively solve the problem.

The above distinguishing features, each individually and all together, are aimed at solving the problem and are significant. The use of significant distinguishing features in the prior art is not found, therefore, the proposed

the technical solution meets the patentability criterion of "novelty."

The utility model is illustrated by the following drawings. Figure 1 shows a General diagram of the installation; figure 2 - well in section.

Installation for extracting technogenic accumulations of oil products from the surface of the groundwater includes (Fig. 1) a system of wells 1, filter columns 2 with submersible oil pumps 3, connected product lines 4 to a receiving tank 5 and shutoff valves - valves 6.

The installation is equipped with an automation system, including a control unit 7 installed on each well, connected to height-adjustable level sensors 8, 9, located on a height-adjustable rod 10, of the motor 11 of the submersible pump 3, which is installed in the well above the phase separation level liquids. A purification filter 12, a gas separator 13, and a metering device 14 are installed on the pipeline 4 in front of the receiving tank 5. A non-return valve 15 is installed at the outlet of the pipeline 4 of each well. A pressure gauge 16 is installed on the pipeline in front of the tank 5. The positions in Fig. 2 indicate soil 17, a layer of oil product 18, water 19.

The control unit is used as a control unit, for example, "Cascade".

As a metering device, for example, a PPO-25-1.6 flow meter is used.

As a level sensor use, for example, LSC.

Installation works as follows.

A rod 10 is lowered into the well with height-adjustable sensors 8, 9, which are placed in the oil product layer 18 located above the ground water layer 19 (Fig. 2).

The control of pumping equipment is set by the control unit, by level sensors that determine the level of water-oil contact and the pumping mode. When the fluid level drops below sensor 9

the motor 11 of the pump 3 stops. When raising the liquid level to the level of the sensor 8, the engine 11 is turned on. The position of the sensor 9 is determined by the level of water-oil contact for a given well. The position of the sensor 8 is determined individually for each well, and depends on the flow rate of the well and the operating mode of the well. Due to the presence of filters 12 and a control unit 7, which optimizes the pumping process by sensors 8, 9, a low percentage of water ingress in the pumped-out mixture is ensured (Fig. 1), because in the well, the submersible pump 3 is installed above the phase separation level of the liquids 18, 19.

A single set of new essential features with common, well-known provides a solution to the problem and indicates the successful industrial application of the proposed solution

From the description and practical application of the present utility model, other particular forms of its implementation will be obvious to specialists. This description and examples are considered as material illustrating a utility model, the essence of which and the scope of patent claims are defined in the following utility model formula, a set of essential features and their equivalents.

Claims (1)

Installation for extracting technogenic accumulations of oil products, including one or more wells with filter columns and submersible pumps connected by product pipelines to a receiving tank and shutoff valves, characterized in that it is equipped with an automation system that includes a control unit installed on each well connected to adjustable in height, level sensors placed on a height-adjustable rod and to the submersible pump motor, which is installed in the well above the level of phase separation bones, wherein the pipeline installed before the receiving vessel filter, gas separator and metering unit, and the output of each well conduit check valve.