RU175266U1 - Installation for the introduction of anti-turbulent additives in the pipeline - Google Patents

Abstract

The invention relates to a technique for dosing chemicals in the oil industry and can be used, for example, to increase the throughput of oil pipelines or oil pipelines by reducing the hydraulic resistance of a turbulent flow of oil or oil products during pumping by introducing an anti-turbulent additive into the pipeline. An installation for introducing an anti-turbulent additive into a pipeline contains a storage unit for anti-turbulent additives connected by pipelines with shut-off valves and control and monitoring units and equipment for preparing and supplying an anti-turbulent additive placed in a warmed container. Equipment for the preparation and supply of an anti-turbulent additive includes two parallel-mounted feed pumps, connected by inputs to an accumulative block for an anti-turbulent additive, and outputs - with the inputs of two parallel-mounted metering pumps, a recirculation pump, the suction and discharge pipes of which are connected to an accumulative block for an anti-turbulent additive. The insulated container is divided by a sealed fire-resistant partition into a hardware compartment in which control and monitoring units are located, and into a technological compartment in which equipment for the preparation and supply of an anti-turbulent additive is placed. The technological compartment is equipped with an easy-to-reset design. The technical result is expressed in increased safety during operation of the installation for the introduction of anti-turbulent additives in the pipeline. 9 s.p. f-ly, 1 ill.

Description

The invention relates to a technique for dosing chemicals in the oil industry and can be used, for example, to increase the throughput of oil pipelines or oil pipelines by reducing the hydraulic resistance of a turbulent flow of oil or oil products during pumping by introducing an anti-turbulent additive into the pipeline.

A known installation for the introduction of anti-turbulent additives in the pipeline [RF Patent No. 89883 U1, IPC F17D 3/12, F17D 1/16, 06/03/2009., Op. December 20, 2009.], Containing a heated container, storage tanks and equipment for supplying the reagent, connected by pipelines with shutoff valves, including at least two metering pumps of different capacities installed in parallel, the signal, control, measuring and control equipment, is placed in the container at least one supply tank associated with the storage tank and with the suction pipe of each metering pump and configured to create an excess pressure in it by means of a compressor. It is envisaged that the installation can be equipped with heating, ventilation and automatic fire extinguishing systems.

The disadvantages of the known installation are:

1. The absence of easily removable structures in the container with equipment, which can lead to additional destruction of the equipment located inside the container in the event of an emergency (for example, explosion) and, as a result, to reduce work safety.

2. The location of technological equipment, signaling, control, measuring and control equipment in one room, in which an explosive atmosphere may form from the used anti-turbulent additive, which leads to an increase in the risk of personal injury in case of an emergency (for example, explosion or fire) and as a result, to reduce the safety of work.

Known installation for dosed supply of the reagent (installation for the introduction of anti-turbulent additives in the pipeline) [RF Patent №39910 U1, IPC ЕВВ 43/00, з. 05.05.2004., Op. 08/20/2004.], Adopted for the prototype, containing a storage tank connected by pipelines to shutoff valves (a storage unit for an anti-turbulent additive) with electric heaters and equipment for supplying a reagent (anti-turbulent additive) placed in an insulated container, including a dosing pump. In addition, the equipment for supplying the reagent (anti-turbulent additive) additionally contains a second metering pump connected in parallel with the first, and two feed pumps installed in parallel in the suction pipe of the metering pumps together with the pipeline for returning excess reagent (anti-turbulent additive) to the storage tank (storage unit for anti-turbulent additive), a recirculation pump is placed in the container, the suction and discharge nozzles of which are connected to the accumulator noy capacitance (storage units for protivoturbulentnyh additives), wherein the suction nozzle is formed with parallel outlet and piping sections between the storage capacity (a storage unit for protivoturbulentnyh additives) and the container wall are made of flexible hoses. It is envisaged that in the container, heating, ventilation, automatic fire extinguishing systems (nodes), reagent level control (anti-turbulent additives) in the storage tank (storage unit for anti-turbulent additives), an indicator of explosive concentrations, an air sampling unit and electrical equipment with a control system and can be mounted control unit (control and monitoring unit), and a flow meter and pressure gauge can be installed in the discharge pipeline of dosing pumps.

The disadvantages of the prototype are:

1. The absence of easily removable structures in the container with equipment, which can lead to additional damage to the equipment located inside the container in the event of an emergency (for example, explosion) and, as a result, to reduce work safety.

2. The location of the process equipment, control and monitoring system (control and monitoring unit) and other equipment in one room, in which an explosive atmosphere may form from the used anti-turbulent additive, which leads to an increase in the risk of personal injury in case of an emergency (for example, explosion or fire) and, as a result, to reduce the safety of work.

A technical problem is the creation of an installation for introducing an anti-turbulent additive into the pipeline, providing a high level of security.

The technical result is expressed in increased safety during operation of the installation for the introduction of anti-turbulent additives in the pipeline.

The specified technical result is achieved in that the installation for introducing an anti-turbulent additive into the pipeline contains a storage unit for anti-turbulent additives connected by pipelines with shutoff valves and control and monitoring units located in the insulated container, equipment for preparing and supplying an anti-turbulent additive, including two parallel feed pumps, connected by inputs to the storage unit for anti-turbulent additives, and outputs - with the inputs of two in parallel Formation of metering pumps, recirculating pump, the suction and blast nozzles which are connected to a storage unit for protivoturbulentnyh additive.

According to the proposed technical solution, the insulated container is divided by a sealed fire-resistant partition into a hardware compartment in which the control and monitoring units are located, and into a technological compartment in which the equipment for preparing and supplying an anti-turbulent additive is placed, while the technological compartment is equipped with an easily erasable design.

The installation can be equipped with heating, ventilation and air conditioning units.

The technological compartment can be equipped with forced-air and exhaust ventilation, capable of operating in automatic mode, and the hardware compartment can be equipped with forced-air ventilation and air conditioning.

A meter can be installed at the outlet of the metering pumps.

As dosing pumps, dosing pumps with adjustable flow can be installed.

The sections of pipelines between the storage unit for anti-turbulent additives and the wall of the insulated container can be made of flexible hoses.

The storage unit for anti-turbulent additives can be made in the form of at least one reservoir for anti-turbulent additives.

As a reservoir for anti-turbulent additives, a Eurocube-type cargo cubic container mounted on a podium can be used.

The technological compartment of the insulated container can be equipped with gas sensors.

The easy-to-clean design can be made in the form of at least one wall element of the insulated container, which can be removed with increasing pressure inside the insulated container.

The inventive utility model is illustrated by the drawing, which shows the technological scheme of the installation for the introduction of anti-turbulent additives in the pipeline.

The installation for introducing an anti-turbulent additive into the pipeline is a storage unit 9 for anti-turbulent additives connected by pipelines with shut-off valves 8 (not shown all) and control and monitoring units (not shown) and equipment for preparing and supplying an anti-turbulent placed in an insulated container (not shown) additives (not shown). The storage unit 9 for an anti-turbulent additive is made in the form of two reservoirs 1 for an anti-turbulent additive connected by pipelines with shut-off valves 8 (not shown all). As tanks 1 for anti-turbulent additives used cargo cubic containers of the type "Eurocube" mounted on a podium (not shown). Also, above-ground tanks of metal or plastic, rectangular or cylindrical, can be used as reservoirs 1 for anti-turbulent additives. The number and volume of tanks 1 for an anti-turbulent additive is determined by preliminary calculation in order to ensure that the required volume of anti-turbulent additive is introduced into the pipeline without stopping the operation of the installation. Thus, the number of reservoirs 1 for anti-turbulent additives can be one, two or more. To control the amount of anti-turbulent additive in the tanks 1 for anti-turbulent additives, electric weighing devices (not shown) are used, which are able to inform about achievement of the set weight parameters by electric signals, in addition, level sensors (not shown) can also be used for this purpose. Equipment for the preparation and supply of anti-turbulent additives includes two parallel-mounted feed pumps 2, connected by inputs to reservoirs 1 for anti-turbulent additives (storage unit 9 for anti-turbulent additives), and outputs - with inputs of two parallel-mounted metering pumps 3. As metering pumps 3 are installed dosing pumps with adjustable flow, allowing to supply a predetermined volume of anti-turbulent additives in the pipeline. A flowmeter 7 is installed at the outlet of the metering pumps 3. In addition, the equipment for the preparation and supply of the anti-turbulent additive includes a recirculation pump 4, the suction and discharge nozzles of which are connected to the tanks 1 for the anti-turbulent additive (storage unit 9 for the anti-turbulent additive). The pipeline sections (not shown) between the reservoirs 1 for anti-turbulent additives (storage unit 9 for anti-turbulent additives) and the wall of the insulated container (not shown) are made of flexible hoses. To connect the metering pumps 3 directly to the pipeline (not shown), a flexible sleeve (not shown) is used. It is advisable to use flexible hoses (not shown) with track heating cable. The insulated container (not shown) is divided by a sealed fire-resistant partition (not shown) into the hardware compartment 6, which houses the control and monitoring units (not shown), and into the technological compartment 5, which houses the equipment for preparing and supplying an anti-turbulent additive (not shown) ) Each of the compartments (technological 5, hardware 6) has its own input (not shown). The technological compartment 5 is equipped with an easy-to-remove structure (not shown), which is an element of the wall of the insulated container (not shown), which can be opened or removed when pressure inside the insulated container increases, for example, in case of explosion, in order to ensure the safety of people and the safety of structures and equipment. In addition, the easy-to-clean design (not shown) can be made in the form of several wall elements of an insulated container, the number and dimensions of which are determined by calculation. The insulated container (not shown) is equipped with heating, ventilation and air conditioning units (not shown). In this case, the technological compartment 5 is equipped with a supply and exhaust ventilation (not shown) that can operate in automatic mode, and the hardware compartment 6 is equipped with a supply ventilation and air conditioning (not shown). The technological compartment 5 and the hardware compartment 6 are heated by electric heaters (not shown). For monitoring the concentration of explosive gases in the technological compartment 5 of the insulated container, gas sensors (not shown) are installed.

Installation for the introduction of anti-turbulent additives in the pipeline works as follows.

The installation for introducing an anti-turbulent additive into the pipeline to the oil pipeline or oil product pipeline (not shown) is connected by means of a flexible sleeve (not shown).

Recirculation pump 4 prepares for the use of anti-turbulent additives by mixing it in tanks 1 for anti-turbulent additives (storage unit 9 for anti-turbulent additives) for a predetermined time. Then the recirculation pump 4 is taken out of operation, and the anti-turbulent additive prepared for use from one (or at the same time two) reservoir 1 for the anti-turbulent additive is fed to the inlet of the metering pump 2 by the feed pump 2. The operations of the preparation and supply of the anti-turbulent additive are preceded by opening-closing corresponding shutoff valves 8 (not all shown).

The metering pump 3 starts, with the required supply set depending on the required amount of anti-turbulent additive, which pumps the anti-turbulent additive through a flexible sleeve (not shown) directly into the oil pipeline or oil product pipeline (not shown). The required supply of anti-turbulent additives is configured and controlled according to the flow meter 7. The on / off pumps are carried out by the corresponding starting elements located in control cabinets that are part of the control and monitoring units (not shown) located in the hardware compartment 6. Process control and monitoring are carried out through control and monitoring nodes (not shown).

To ensure equipment protection in the event of an emergency (for example, explosion), the technological compartment 5, in which the formation of explosive air mixture from the pumped anti-turbulent additive is possible, is equipped with an easy-to-reset design (not shown), which also reduces the risk of damage to the hardware compartment 6. Due to the presence of a sealed fire-resistant partition (not shown), separating the insulated container (not shown), the maintenance personnel of the installation for the introduction of anti-turbulent additives in the pipe water during use for management and control hardware is located in the compartment 6, in which there is no possibility of explosive air mixture. The result is increased safety during operation of the installation for the introduction of anti-turbulent additives in the pipeline.

Claims (10)

1. Installation for introducing an anti-turbulent additive into the pipeline, containing a storage unit for anti-turbulent additives connected by pipelines with shutoff valves and control and monitoring units located in the insulated container, equipment for preparing and supplying an anti-turbulent additive, including two parallel feed pumps connected to the storage inlets block for anti-turbulent additives, and outputs - with inputs of two parallel metering pumps, recirculation A pump, the suction and discharge nozzles of which are connected to a storage unit for an anti-turbulent additive, characterized in that the insulated container is divided by a sealed fire-resistant partition into a hardware compartment in which control and monitoring units are located, and into a technological compartment in which preparation and filing an anti-turbulent additive, while the technological compartment is equipped with an easily resettable design. 2. Installation according to claim 1, characterized in that it is equipped with heating, ventilation and air conditioning units. 3. Installation according to claim 1 or 2, characterized in that the technological compartment is equipped with forced-air and exhaust ventilation, capable of operating in automatic mode, and the hardware compartment is equipped with forced-air ventilation and air conditioning. 4. Installation according to claim 1, characterized in that a flow meter is installed at the outlet of the metering pumps. 5. Installation according to claim 1, characterized in that dosing pumps with adjustable flow are installed as dosing pumps. 6. Installation according to claim 1, characterized in that the sections of pipelines between the storage unit for anti-turbulent additives and the wall of the insulated container are made of flexible hoses. 7. Installation according to claim 1, characterized in that the storage unit for anti-turbulent additives is made in the form of at least one reservoir for anti-turbulent additives. 8. Installation according to claim 7, characterized in that a cubic cargo container of the Eurocube type mounted on the podium is used as a reservoir for the anti-turbulent additive. 9. Installation according to claim 1, characterized in that the technological compartment of the insulated container is equipped with gas detectors. 10. Installation according to claim 1, characterized in that the easy-to-remove structure is made in the form of at least one wall element of the insulated container, capable of being removed outside with increasing pressure inside the insulated container.

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