BE1026011B1 - DEVICE FOR PREVENTION AND / OR ELIMINATION OF SEDIMENTATION AND CORROSION IN BORING HOLE TUBES AND METHOD TO WHICH SUCH DEVICE IS APPLIED - Google Patents

Abstract

Device for preventing and / or eliminating sediment (4) in borehole tubes (1) or distribution tubes, characterized in that ultrasonic waves are generated in the fluid (10) that flows through the borehole tube (1) or distribution tube by means of at least one ultrasonic transducer (9).

Description

Device for the prevention and / or elimination of sedimentation and corrosion in borehole pipes and method in which such device is used.

The present invention relates to a device for the prevention and / or elimination of sedimentation and corrosion in borehole pipes and to a method in which such a device is used.

More specifically, the invention is intended for the prevention and elimination of sedimentation and corrosion on the inner wall of borehole tubes, but also, for example, on the inner wall of distribution tubes of pumped-up water, for example. The invention is also applicable in geothermal pumping installations.

The formation of sedimentation and corrosion can be described in three phases. In a first phase, planktonic or free-floating bacteria develop by using dissolved salts and minerals in the pumped water as substrate and converting them into sediment that is deposited on the inner wall of the borehole tube or distribution tube.

In a second phase, planktonic bacteria are released from the sediment, which can be carried along with the flow of the water to another location in the borehole pipe or the network of distribution pipes, where the cycle is repeated with the formation of even more sediment.

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An undesirable effect of the action of aerobic sulfate-reducing bacteria is production and metal pipes that they attack sulfuric acid tanks and reservoirs with corrosion as a result.

In a third phase, corrosion occurs at the interface between sedimentation and the inner wall of the tube due to the reaction products of the bacteria such as sulfuric acid.

Dissolved metal salts of iron, manganese, calcium and other minerals can be oxidized or reduced by the bacteria causing sediments to deposit on the inner wall of the borehole tubes and distribution tubes.

A first drawback of such a sediment on the inner surface of the tube is that the sediments formed impede the flow of the liquid flowing through it and limit the flow rate of the borehole tube in question.

A further drawback of the sediments formed is that they initiate corrosion processes on the contact surface between the sediments and the metal borehole tube, whereby the borehole tube itself is damaged and weakened.

The corrosion processes continue as long as new nutrients are supplied in the pumped fluid in the form of dissolved salts and minerals that act as a substrate for the bacteria that live on them.

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Various methods are used to treat pipes contaminated by sedimentation such as mechanical or chemical cleaning agents.

The present invention has for its object to provide a solution to the aforementioned and other disadvantages in that it provides a device which prevents the formation of sediment and corrosion in a borehole tube or distribution tube.

To this end, the invention relates to a device for the prevention of sedimentation and corrosion in borehole tubes or distribution tubes, wherein ultrasonic waves are generated in the fluid flowing through the borehole tube or distribution tube by means of at least one ultrasonic transducer.

The fluid can be water or an aqueous solution, but can also be petroleum or mineral oil.

The one or more transducers can continuously dissipate ultrasonic waves or dissipate pulsed ultrasonic waves. To this end, the transducer is coupled to a control box with a control with which the frequency of the one or more transducers can be varied continuously or in phases.

An advantage associated with these ultrasonic waves is that they are able to prevent the formation of sediment because they prevent the production of sediment by bacteria on the inner wall of the tubes. .

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The at least one transducer in contact with each fluid in which ultrasonic waves are generated each has a power of 6 to 100 watts and a frequency of 20 kHz to 120 kHz, so that the generated ultrasonic vibrations in the fluid cause the formation of sediment on the prevent the inner wall of the tubes or remove sediment formed.

The ultrasonic waves can be sent to great depths of several hundred meters in a borehole tube from a surface transducer or from a transducer located on an immersion pump at the bottom of the borehole.

An advantage of attaching an ultrasonic transducer to an immersion pump is that the transducer can keep the immediate environment around the immersion pump free of sediment, and thus ensures a higher flow rate of the pumped up fluid.

In the case that the fluid consists of petroleum and mineral oil, the at least one transducer can pulverize larger particles in the petroleum or mineral oil into smaller particles, which increases the fluidity of the pumped up oil and promotes flow.

The invention also relates to a method for applying a device described in claim 1, characterized in that it comprises the following steps:

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- mounting an ultrasonic sound source in the form of one or more transducers on a borehole tube, distribution tube or immersion pump so that the transducer makes contact with the flowing fluid;

- connecting the one or more transducers to a control box for switching the transducer on and off and for controlling the power and frequency of the one or more transducers;

- driving ultrasonic waves through the one or more transducers through the fluid that flows or is pumped through the borehole tube or distribution tube;

- if necessary, starting the drilling pump which pumps the liquid through the borehole tube;

- stopping the drill pump after inflating a desired amount of fluid;

- stopping the transmission of ultrasonic waves by means of the one or more transducers by means of its control box.

With the insight to better demonstrate the features of the invention, a preferred embodiment of a device for the prevention of sedimentation and corrosion according to the invention is described below as an example without any limiting character, with reference to the accompanying drawings, in which:

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figure 1 the formation of displays; figure 2 in side view prevention from sediment displays;

Figure 3 is a sectional view

F3-F3 in Figure 2;

Figure 4 is a side view of a sediment in a tube, a device for the tube according to the invention, a line along the line connector with transducer mounted on a distribution tube.

Figure 1 schematically shows the formation of a sediment in a borehole tube or distribution tube 1 through which water flows. The formation goes through two phases, in which in a first phase (Ά) planktonic bacteria 2, which occur free floating in the water, develop because they use dissolved salts and minerals 3 in the pumped-up water as substrate and convert it to sediment 4 that is deposited. on the inner wall 5 of the borehole tube or distribution tube.

In a second phase (B) planktonic bacteria 2 are released from the sediment 4, which can be carried along with the flow of the water to another location 5 'in the borehole tube or the network of distribution tubes 6, with the formation of even more sediment 4.

In a third phase (C), corrosion 7 occurs at the interface between sedimentation and the inner wall of the tube, due to the reaction products of the bacteria, such as sulfuric acid.

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Figure 2 shows a device 8 for preventing sediment 4 according to the invention, consisting of at least one ultrasonic transducer 9 that generates ultrasonic waves in the fluid 10 that flows through the borehole tube or distribution tube 1. In this case the ultrasonic transducer 9 is arranged at an oblique angle a with the longitudinal direction 10 of the borehole tube, in a direction opposite to the flow direction of the fluid 10, in this case water, but this can also be done at a right angle, for provided that the transducer 9 contacts the fluid flowing past in the borehole tube 1. The ultrasonic transducer 9 is connected to a control box 11 for controlling the characteristics of the generated ultrasonic waves.

Figure 3 shows a cross-section of the borehole tube 1 in Figure

2, perpendicular to the longitudinal direction 10 of the borehole tube

1. The cross-section shows a deposit of sediment 4 on the inner wall 3 of the borehole tube caused by bacteria 2 that convert dissolved salts and minerals.

Figure 4 shows a cross-section 14 of a distribution tube 15 of a passing fluid 10 on which an ultrasonic transducer 9 is arranged in a supply tube 16 at an angle perpendicular to the longitudinal axis of the distribution tube 15, the supply tube 16 being closable by a valve 17 that in the open state allows contact between the fluid 10 and the ultrasonic transducer 9. The ultrasonic waves spread in both directions upstream and downstream in the distribution tube 15.

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The operation of the device 8 is very simple and as follows.

After drilling a water source, for example, a borehole tube 1 is left in the borehole, for pumping up water in this case, after which the water can be conducted further via distribution tubes to a collection point or a reservoir.

A device 8 according to the invention is provided on the borehole tube 1, consisting of one or more ultrasonic transducers 9 which make contact with the flowing water and which are located on a borehole tube, and / or on a distribution tube and / or on an immersion pump.

The one or more transducers 9 are connected to a control box 11, for switching the one or more transducers 9 on and off and for controlling the power and frequency of the one or more transducers 9.

The control box 11 has a computer program with which the frequency of the one or more transducers 9 is varied continuously or in phases by the control box 11.

The power of the one or more transducers 9 is also controlled depending on the dimensions and the diameter of the borehole tube or distribution tube 1 on which the transducer 9 is mounted. .

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A transducer 9 on the surface can direct its ultrasonic waves to a depth of 10 meters in a borehole tube 1.

A transducer mounted on an immersion pump can descend with the immersion pump into the borehole to a depth of several hundred meters and send locally active ultrasonic waves through the pumped up water.

The ultrasonic waves prevent the formation of sediment 4 on the inner wall 5 of the borehole tube 1 or distribution tubes, by preventing the conversion of dissolved

salts and obstruct minerals 3 by floating bacteria 2 The current invention is by no means limited till the as example described and in the figures displayed embodiment, but a device for the appearance from

the following sediment according to the invention can be realized in all shapes and sizes without departing from the scope of the invention as defined in the claims.

Claims (11)

Conclusions. Device for preventing and / or eliminating sediment (4) in borehole tubes (1) or distribution tubes, characterized in that ultrasonic waves are generated in the fluid (10) flowing through the borehole tube (1) or distribution tube by means of at least one ultrasonic transducer (9). Device according to claim 1, characterized in that the fluid (10) is water or is an aqueous solution. Device according to claim 1, characterized in that the fluid (10) is petroleum or is a mineral oil. Device according to claim 2 or 3, characterized in that the transducer (9) continuously dissipates ultrasonic waves or dissipates pulsed ultrasonic waves. Device according to claim 2 or 3, characterized in that the transducer (9) is coupled to a control box (11). Device according to claim 2 or 3, characterized in that the transducer (9) is in contact with the fluid (10) in which ultrasonic waves are generated. BE2018 / 5089 7. - Design according to claim 2 or 3 thereby characterized that the one or more transducers (9) each one ability from 6 to 100 watts. 8. - Design according to claim 2 or 3 thereby characterized that the one or more transducers (9) each one have a frequency from 20 kHz to 120 kHz. Device according to claim 8, characterized in that the frequency of the one or more transducers (9) is varied continuously or in phases by a control of a control box (11). Device according to claim 8 or 9, characterized in that the ultrasonic waves can be controlled to a depth of 10 meters in a borehole tube (1) from a transducer (9) on the surface. Device according to claim 8 or 9, characterized in that the ultrasonic waves can be controlled up to a distance of 10 meters in a borehole tube (1) from a transducer (9) located on a immersion pump in depth at a depth of 0 to several hundred meters. Device according to claim 3, characterized in that the at least one transducer (9) larger particles in the petroleum or mineral oil (10) are sonicated to smaller particles. BE2018 / 5089 Method for applying a device (8) according to the invention described in claim 1, characterized in that it comprises the following steps: - mounting an ultrasonic sound source in the form of one or more transducers (9) on a borehole tube (1), distribution tube or immersion pump so that the transducer (9) makes contact with the flowing fluid (10); - connecting the one or more transducers (9) to a control box (11) for switching the transducer (9) on and off and for controlling the power and frequency of the one or more transducers (9); - driving ultrasonic waves through the one or more transducers (9) through the fluid (10) that flows or is pumped through the borehole tube (1) or distribution tube; - if necessary, starting a drilling pump which pumps the liquid (10) through the borehole tube (1); - stopping the drill pump after inflating a desired amount of fluid; - stopping the transmission of ultrasonic waves by means of the one or more transducers (9) by means of its control box (11).