RO133786A0 - Peristaltic conveyor belt and artificial oil lift installation - Google Patents

Abstract

The invention relates to a peristaltic conveyor belt and to an installation for artificial oil lift from deep wells. According to the invention, the conveyor belt has a toothed part for actuation and the other part is provided with a middle channel (CM) accommodating several detachable peristaltic hoses (FP) for charging the oil, the end-closed hoses (FP) having mounted some transversely-arranged one-way valves and inlet valve (SA) and a discharge valve (SR), respectively, and some transverse orifices (O) inside the teeth accommodating and protecting the valves (SA and SR), and the hoses (FP) are fixed on a conveyor belt (BTP) by means of some transverse elastic tapes (BE).

Description

PERISTALTIC CONVEYOR BELT AND ARTIFICIAL ARTIFICIAL LIFTING INSTALLATION

The invention relates to a peristaltic conveyor belt operated by an installation for the artificial lifting of crude oil from deep wells.

The technical field to which the invention refers is that of the extraction of crude oil or other applications of artificial lifting of liquids from deep wells.

Several installations are known for the artificial lifting of crude oil from wells, of which, in patent RO 125468B, there is presented a crude oil extraction plant using a continuous oleophilic tape.

The disadvantages of this solution are:

- The oil loading capacity of the oleophilic strip is reduced with the decrease of the oil density, the efficiency of the installation decreasing in the case of the extraction of light or ultra-light oil

The low adhesion capacity of the water to the oleophilic band causes extraction problems, the water remaining in the well

- The fragility of textile tape and seams

The complicated training of the textile belt by means of a double toothed belt requires high values of the weight of the ballast in order to avoid slipping the belt, with implications in its deformation and transport capacity.

Also known are the peristaltic pumps that use hoses with special construction, which have the property of returning to their original shape after being deformed elastic by a shoe or roller in motion. Depending on the applications, the inner diameter of the hoses and the speed of rotation of the rollers, high values of the pumped liquid flows can be obtained. Also, in peristaltic pumps, the fluid circulating inside the hose can be corrosive or abrasive, this composition determining the material from which the hose is made. The disadvantage of these pumps is that they cannot be used to be able to extract liquids from large depths.

Adrian's Bogdan ^ 019 00507

08/21/2019

The technical problem is the realization of a peristaltic conveyor belt operated by a special oil extraction plant, whose production capacity is independent of the density of the extracted crude oil and the concentration of water in the crude crude oil, to be constructed from materials resistant to physical and chemical wear. , to use a lighter weight. The invention solves the technical problem by presenting a peristaltic BTP conveyor belt, operated by a special crude oil extraction facility, consisting of a US surface unit with a role of the tape drive and the collection of crude oil, a UA depth unit provided. with ballast L, where the oil loading takes place and a UMC unit of measurement and control that monitors and regulates the production level.

The peristaltic conveyor belt and the oil lifting plant have the following advantages:

The artificial lifting of the crude oil is carried out by means of a peristaltic conveyor belt, introduced in the operating column to the extraction depth below the dynamic level of the well, which due to the physical properties of the component hoses has a capacity of loading / unloading with crude oil independent of density and the viscosity of the crude oil or its water content

- The band is robust, from materials resistant to physical and chemical wear

- The extraction flow rate of the installation is configured according to the production level of the well, by choosing the inner diameters of the peristaltic hoses.

The installation allows the measurement of the extraction flow, which will be correlated with the transfer flow to the accumulation zones, ensuring a continuous operation of the system. Extraction can be done even if the dynamic level of the well is low and requires only a minimum column of crude oil above the depth roller.

The installation has no problems in running empty, when the oil level reaches below the depth roller, the hoses being practically self-priming due to the peristaltic effect. The hoses are detachable and can be replaced in case of deterioration or during maintenance operations.

The weight of the ballast is smaller than in other installations, because the banding is easier due to the toothed part and the tension in the tape required for loading / discharging the oil is not very high.

Adrian's Bogdan ^ 019 00507

08/21/2019

An example of a practical implementation of the peristaltic conveyor belt and the oil lifting plant in relation to the figures is given:

Fig. 1 - Peristaltic conveyor belt installed in an artificial oil lifting plant

Fig. 2A, FIG. 2B, FIG. 2C, FIG. 2D, FIG. 2E - Details - Peristaltic conveyor belt

Fig. 3A, FIG. 3B - Isometric images of the peristaltic conveyor belt

Fig. 4 - Depth roller hose loading scheme

Fig. 5 A, FIG. 5B, FIG. 5C - Details - Depth and exhaust rollers

Fig. 6 - Oil hose evacuation scheme at the exhaust roller hose

Fig. 7A, Fig. 7B, Fig. 7C - Details - Guide rollers

Fig. 8 - Detail - Peristaltic hose with valves

Fig. 9 - Unit of measurement and control

The BTP band peristaltic conveyor used in the artificial lifting of crude oil is a continuous band, made of materials resistant to physical and chemical wear, being toothed on one side - the teeth can be configured in different profiles - and on the other side is provided with a medium CM channel. which houses several removable peristaltic FP hoses for oil loading and unloading. The median CM channel has a dual role, both for hosting the FP hoses and also for keeping the band centered when passing over the rolls 2 and 4. The peristaltic FP hoses are closed at the ends, each having two unidirectional valves arranged transversely: the valve SA inlet and SR relief valve. Near the ends of these FP hoses, the peristaltic BTP conveyor belt is provided with transverse O-holes inside the teeth, which house and protect the SA, SR valves. The FP hoses are fixed by the conveyor BTP belt through transverse elastic BE bands.

The US surface unit of the artificial lift installation is mounted on the mouth of the probe and is composed of housing C in which the welcome roll 3, the exit roll 4, the guide rollers 5, 6, 7, 8 and the roll 1 motors are positioned. The welcome roll 3 is a toothed free roll, having the role of taking over the BTP tape at the entrance to the US surface unit and guiding it to the exit roll 4.

Exhaust roller 4 is similar to the depth roller 2 being provided medially with a pressure IP ring having the role of exerting pressure on the FP hoses so that the discharge valve SR is activated and the oil is evacuated.

Bogdan Adrian xy. , a ^ 019 00507

08/21/2019

Guide rollers 5, 6, 7, 8 direct the BTP band on its path to the roller 1 motors and are provided with a central DC channel to protect the FP hoses from unnecessary mechanical stress. The roller 1 motor is toothed and has the role of actuating the BTP band by coupling it with its toothed part and is connected by a shaft to an electric motor.

The US surface unit is formed at the bottom in an accumulator CA where the crude oil that is provided with an O-hole through which the crude oil flows to the UMC measuring and control unit.

The unit of depth UA is lowered in the well at the level of production and is composed of a metal frame on which come a handle with double role: to be used in the operations of introducing the unit of depth in the well and recovery of the well in the case BTP tape breakage, depth roller 2 and L. depth roller 2, through the pressure IP ring, has the role of elasticly deforming the peristaltic FP hoses, resulting in their loading with crude oil through the inlet valve SA. The role of the L balloon is to extend and center the conveyor BTP belt to enable the kinematic action of the system and to ensure the tension in the BTP band required for loading and discharging the crude oil. Depending on the different applications or types of probes and the crude oil, the weight of the L ball will be modified accordingly.

The configuration of the rollers 2 and 4 allows the sides of the BTP band to run on their sides, having a dual role: to limit the pressure ring of the IP pressure ring on the FP hose thus avoiding its premature deterioration and to ensure the centered displacement flow of the BTP band around vibration-free rollers, whether or not they go through a FP hose.

The UMC measuring and control unit is an accumulation and discharge tank to the PT oil transfer pump, equipped with a floating level magnetic SM sensor. Using the data provided by the SM sensor, which is connected to the PLC in the automation box and through the computer systems, the oil extraction / inlet flow rate is determined and the operating parameters of the central motor and the PT transfer pump are controlled, as well as and different operating scenarios of the system. Upon leaving the UMC unit of measurement and control, the PT transfer pump is mounted, which transfers the oil to the accumulation areas.

The installation with BTP peristaltic conveyor belt can also be used in other applications of artificial lifting of liquids from deep wells.

Bogdan Adrian's> 2019 00507

08/21/2019

Operation of the BTP peristaltic conveyor belt and the artificial oil lifting plant

The operation is based on the peristaltic effect, of returning to the initial form of the hoses with special construction when they are deformed elastic by passing a shoe or roller over them. If in the peristaltic pump the hose is static and the shoes or rollers move causing the pumping of the liquid, in the case of the BTP band the rollers are fixed and the band moves, causing the succession of peristaltic hoses to load and unload with crude oil. The BTP peristaltic conveyor belt is driven through the teeth by the roller 1 motors which is driven by the electric motor, printing a downward movement through the operating column to the depth roller 2. Due to the rotational movement of the deep roller 2, its pressure IP ring acts on the FP hoses, deforming them elastic. Thus, upon entering roll 2, the pressure exerted on the FP hoses causes the air / gas remaining inside the FP hose to be discharged through the discharge valve SR. When exiting from the deep roller 2, the peristaltic FP hoses return to their original shape and create a pressure difference that allows the oil to be loaded through the inlet valve SA. The BTP band continues the upward movement to the surface by being taken to the level of the US surface unit by the welcome roll 3 and guided to the evacuation roll 4. At the inlet on the outlet roll 4, the pressure IP ring acts on the FP hoses by deforming them elastic and creates a pressure inside them which causes the opening of the discharge SR valve and the discharge of the crude oil into the storage tank AC. At the exit of the collection roll 4 the BTP strip is taken by the guide rolls 5, 6, 7, 8 to be driven to the roll 1 motors.

Bogdan Adrian

Claims (3)

1. Peristaltic conveyor belt, characterized in that it consists of a continuous belt (BTP), made of materials resistant to physical and chemical wear, which has a toothed part for actuation and the other part is provided with a channel (CM) median which houses several detachable peristaltic hoses (FP) for loading and unloading of crude oil, hoses (FP) closed at the ends, each having two unidirectional valves placed transversely, the inlet valve (SA) and the discharge (SR) or discharge valve (SR) O) transversal inside the teeth, which house and protect the valves (SA), (SR), the hoses (FP) being fixed by the conveyor belt (BTP) by means of transverse elastic bands (BE). 2. Artificial oil lifting plant, characterized in that it is formed by a unit (US) of surface composed of the housing (C) in which the welcome roll (3) is positioned, the exit roll (4) provided medially with a pressure ring (IP) exerting pressure on the hoses (FP) so that the discharge valve (SR) is activated and the oil is evacuated, the rollers (5), (6), (7), (8) by guide, which directs the tape (BTP) on its path to the roller (1) motors and is provided with a central channel (DC) to protect the hoses (FP) from unnecessary mechanical stress, a roller (1) roller gears tape drive (BTP), a unit (AU) of depth composed of a metal frame on which a handle comes assembled, a roller (2) of depth provided with a pressure ring (IP) which has the role of exerting pressure on the peristaltic hoses (FP), resulting in their loading through the valves (SA) and a ballast and a unit of measurement and control (UMC) The measurement and control unit according to claim 2, characterized in that it is formed by an accumulation and discharge tank (R) to the oil transfer pump (PT), provided with a level magnetic sensor (SM), with float, connected to the PLC from the automation box and which through the computer systems allows to determine the extraction / inlet flow rate of the crude oil as well as the control of the operating parameters of the central motor and the transfer pump and of the different operating scenarios.