FR3007298A1 - DEVICE FOR TREATING AT LEAST ONE LIQUEFIABLE MATERIAL AND PROCESSING METHOD THEREOF - Google Patents

Abstract

The present invention relates to a device for treating (10) at least one liquefiable material (12), said device being provided with a suction assembly (15) comprising: - at least one suction head (16) ) configured to aspirate a fluid in a suction zone (17) when said suction head (16) is positioned on said suction zone (17), said at least one suction head (16) being connected to a storage unit (19), characterized in that the device further comprises a liquefaction unit (25) comprising: - at least one laser (27) with continuous emission capable of emitting a laser beam (28), - means (35) for shaping the laser beam (28) into a substantially planar beam (30), and - means (42) for causing a sweeping of said substantially planar beam (30) into the suction area so as to to liquefy said at least one liquefiable material.

Description

FIELD OF THE INVENTION The present invention relates to the field of liquefiable material processing devices. The present invention also relates to associated methods of treatment. The device can process all known liquefiable materials.

The invention finds a particularly advantageous application for the treatment of solidified or semi-liquid petroleum product. STATE OF THE ART There are many ways to extract solidified petroleum products. Many of these means are mechanical means, such as jack hammer, backhoe, needle heater or pipe. The disadvantages of these means are their slowness and most often their inefficiency in the presence of semi-liquid petroleum products which have extremely high bonding power. These means therefore do not allow to obtain satisfactory extraction rates. In another aspect, there are also many devices using a collimated laser beam to scan a surface. A scan of this laser beam is provided in two perpendicular directions so as to cover the surface. However, the scanning of such a beam has the disadvantage that, whatever the means used (line-by-line scanning, point by point, Lissajous curve scanning, or semi-rotary scanning for example), the beam describes a curve or curves. points on the scanned surface so that some places on this surface do not receive radiation.

This disadvantage is moreover generally amplified by the fact that pulsed lasers are used, so that the aforementioned curves themselves are only a succession of discrete points. As a result, the scanning of the surface is not homogeneous. DISCLOSURE OF THE INVENTION The present invention intends to overcome the drawbacks of the prior art by providing a treatment device capable of liquefying a liquefiable material prior to its aspiration. For this purpose, the present invention relates, in a first aspect, to a device for treating at least one liquefiable material, said device being provided with a suction assembly comprising at least one suction head configured to suck a fluid. in a suction zone when said suction head is positioned on said suction zone, said at least one suction head being connected to a storage unit, the device further comprising a liquefaction unit comprising at least one continuous emission laser capable of emitting a laser beam, means for shaping the laser beam in the form of a substantially plane beam, and means for causing a sweep of said substantially plane beam in the suction zone so as to liquefy the said beam at least one liquefiable material.

Unlike conventional devices, the invention makes it possible to liquefy a liquefiable material prior to its aspiration by means of at least one laser. In addition, the radiation of the at least one laser is distributed over the suction zone thus causing homogeneous liquefaction. According to one embodiment, said means for causing a scan comprise a mirror mounted on a stepping motor or a vibrating mirror. This embodiment is particularly simple to implement and achieves the goal of the invention, that is to say to scan the suction zone by the at least one laser beam. According to one embodiment, the at least one laser is a semiconductor laser. This embodiment makes it possible to obtain the aim sought by the invention, that is to say to obtain a laser whose beam is divergent so as to liquefy a surface in a homogeneous manner. According to one embodiment, the at least one laser is an infrared laser. This embodiment makes it possible to obtain the aim sought by the invention, that is to say to efficiently liquefy a liquefiable material such as solidified petroleum products. According to one embodiment, said suction assembly comprises a pipe connecting said at least one suction head and said storage unit and the device comprises means for heating said pipe. This embodiment makes it possible to maintain the liquefiable material in liquid form during the transport of said liquefiable material between the suction head and the storage unit. According to one embodiment, the device comprises means for heating said storage unit. This embodiment makes it possible to maintain the liquid-formable material in liquid form in the storage unit. According to one embodiment, the suction head is attached to the liquefaction unit. This embodiment makes it possible to guide the suction head with great precision in order to effect the suction of a liquefiable material on several suction zones consecutively and thus to keep a constant distance between the suction head and the means for conform the laser beam. According to a second aspect, the invention relates to a process for treating at least one liquefiable material by means of the treatment device of the invention, the process comprising the following steps: liquefaction in a suction zone of said liquefiable material up to at a temperature at least equal to the liquefaction temperature of said at least one liquefiable material, and suction of said liquefiable material contained in the suction zone. This implementation makes it possible to facilitate the aspiration of the liquefiable material by means of a prior liquefaction of said liquefiable material. According to one embodiment, said liquefaction temperature is between eighty and one hundred and twenty degrees Celsius. This implementation makes it possible to obtain the object sought by the invention, that is to say effectively liquefy a liquefiable material such as solidified or semi-liquid petroleum products. BRIEF DESCRIPTION OF THE DRAWINGS The invention will be better understood by means of the description, given below for purely explanatory purposes, of the embodiments of the invention, with reference to the figures in which: FIG. device for treating a liquefiable material in a front view according to a first embodiment; Figure 2 illustrates the device of Figure 1 in a perspective view; - Figure 3 illustrates a device for treating a liquefiable material in a front view according to a second embodiment; and - Figure 4 illustrates the device of Figure 3 in a perspective view. DETAILED DESCRIPTION OF THE EMBODIMENTS OF THE INVENTION FIGS. 1 and 2 illustrate a device for treating a liquefiable material 12. Preferably, the liquefiable material corresponds to solidified or semi-liquid petroleum products. The treatment device 10 comprises a suction assembly 15 and a liquefiable material liquefaction unit 12. The liquefaction unit 25 comprises a laser 27 emitting a laser beam 28, means 35 for shaping the laser beam 28 The shape of a substantially planar beam 30 and means for causing the scanning of the substantially plane laser beam 30 to a suction zone 17. The laser 27 is a continuous emission laser. Preferably, this laser 27 emits a power of between 50 and 70 Watts, for example 60 Watts, and the laser 27 emits an infrared laser beam 28 whose wavelength is between 750 and 850 nm, for example 808 nm. Preferably, the laser 27 has a random polarity. Alternatively, the laser 27 could have different characteristics without changing the invention. The means 35 for shaping the laser beam 28 in the form of a substantially planar beam 30 comprise two lenses 36, 37. In the example of FIGS. 1 and 2, the area of the laser beam 28 at the output of the laser 27 is 10 length 1 cm and width 1 mm, the divergence along the length of the laser beam 28 is 15 degrees, the divergence across the width is 40 degrees. The first lens 36 reduces the divergence along the width of 40 degrees to 0.5 degrees. The laser beam 29 at the output of the first lens 36 may therefore be related to a line. The laser beam 29 is then collimated by the second lens 37 which reduces the angle of divergence along the length from 15 degrees to 8 degrees. This angle of divergence along the length depends on the size of the suction zone 17 of the treatment device 10. The means 35 for shaping the laser beam make it possible to obtain a substantially planar laser beam whose divergence along the length is adapted. The means for causing scanning 42 of the substantially planar laser beam 30 consists of a stepping motor 40 on which is mounted a mirror 41 arranged to vibrate in rotation about an axis 39. parallel to the plane of the substantially plane beam 30. The means for causing the scan 42 are held by the means 35 to form the laser beam 28 via an arm 43. The mirror 41 is arranged in such a way that it intercepts and reflects the substantially planar beam 30 by creating a liquefaction beam 31. The liquefaction beam 31 thus reflected is directed onto the surface to be liquefied, on which it forms a line 32 as shown 2. When the mirror 41 vibrates, it follows that the line 32 moves in a reciprocating movement represented by the arrow F1 thus scanning the suction zone 17. The laser 27 emitting continuously and the sweeping of the suction zone 17 by the liquefaction beam 31 is also continuous, it is found that each point of this zone is reached by the radiation causing a homogeneous liquefaction of the liquefiable material 12 disposed in the zone d The suction assembly comprises a suction head 16 for sucking liquefiable material 12 into the suction zone 17. The suction surface of the suction head 16 is adapted to the zone Suction plate 17, for example in Figures 1 to 4, the suction zone 17 is rectangular and the suction head has a rectangular suction surface, each side for suction. The suction head 16 is connected to a storage unit 19 of the liquefied material 12 via a pipe 20. The suction force is generated in the pipe 20 by a suction motor 22. In FIG. Alternatively, the pipe 20 and / or the storage unit may be provided with heating means for maintaining the liquefiable material 12 in a liquid state. The suction head 16 is fixed by an arm 45 to the liquefaction unit 25. Various modifications and modifications can be made to the example of FIGS. 1 and 2 without modifying the invention. The height of the liquefying beam 31 relative to the liquefiable material 12 is fixed by the arm 45, thus determining the suction zone 17. FIGS. 3 and 4 show a variant according to which the treatment device 10 comprises two lasers 27a, 27b emitting two laser beams 28a, 28b. Each laser beam 28a, 28b is shaped as a substantially plane beam 30a, 30b by two lenses 36, 37 and an intermediate beam 29a, 29b as previously. The two substantially plane beams 30a, 30b are redirected by two mirrors 41a, 41b into two liquefaction beams 31a, 31b so as to liquefy two parts of the suction zone 17 simultaneously. The two mirrors 41a, 41b are mounted on two axes 39a, 39b controlled by two stepper motors 40a, 40b.

The embodiment of FIGS. 3 and 4 allows, when the mirrors 41a, 41b vibrate, to cover the suction zone 17 by two reciprocating movements represented by the arrows F2 and F3 around the lines 32a, 32b relating to the two liquefaction beams. 31a, 31b. The liquefaction of the suction zone 17 is thus faster than in the embodiment of FIGS. 1 and 2. In a variant, the invention may comprise several suction heads 16 for sucking the liquefied material 12 from the zone of FIG. As a variant, the treatment device 10 may comprise about ten lasers. The invention thus makes it possible to treat a liquefiable material 12. To do this, the suction zone 17 is firstly liquefied by the liquefaction beam 31 to a temperature at least equal to the liquefaction temperature of the liquefiable material 12. preferably the liquefaction temperature is between 80 ° and 120 ° Celsius. Then, the liquefied material 12 contained in the suction zone 17 is sucked by the suction head 16 and stored in the storage unit 19. The invention thus makes it possible to effectively treat a liquefiable material 12 such as petroleum products. solidified or semi-liquid. When the treatment device 10 of the invention is used to extract a liquefiable material 12 such as bitumen, it may include a plurality of lasers 27 to facilitate the liquefaction process. The invention thus allows the extraction of several cubic meters of bitumen per hour.

Claims (9)

REVENDICATIONS1. Treatment device (10) for at least one liquefiable material (12), said device being provided with a suction assembly (15) comprising: - at least one suction head (16) configured to suck a fluid in a suction zone (17) when said suction head (16) is positioned on said suction zone (17), said at least one suction head (16) being connected to a storage unit (19) , characterized in that the device further comprises a liquefaction assembly (25) comprising: - at least one laser (27) with continuous emission capable of emitting a laser beam (28), - means (35) for shaping the beam laser (28) in the form of a substantially planar beam (30), and - means (42) for causing a sweep of said substantially planar beam (30) into the suction zone (17) so as to liquefy said less a liquefiable material (12). 2. Processing device according to claim 1, characterized in that said means (42) for causing a scan comprise a mirror (41) mounted on a stepper motor (40) or a vibrating mirror. 3. Treatment device according to one of claims 1 to 2, characterized in that the at least one laser (27) is a semiconductor laser. 4. Treatment device according to one of claims 1 to 3, characterized in that the at least one laser (27) is an infrared laser. 5. Treatment device according to one of claims 1 to 4, characterized in that said suction assembly (15) comprises a pipe (20) connecting said at least one suction head (16) and said storage unit (19) and that it comprises means for heating said pipe (20). 300 72 98 9 6. Treatment device according to one of claims 1 to 5, characterized in that it comprises means for heating said storage unit (19). 7. Treatment device according to one of claims 1 to 6, characterized in that the suction head (16) is fixed by an arm (45) to the liquefaction unit (25). 8. Process for treating at least one liquefiable material (12) by means of the treatment device (10) according to one of claims 1 to 7, characterized in that the process comprises the following steps: liquefaction in a suction zone (17) of said liquefiable material (12) to a temperature at least equal to the liquefaction temperature of said at least one liquefiable material (12), and - suction of said liquefiable material (12) contained in the suction zone (17). 9. The method of claim 8, characterized in that said liquefaction temperature is between eighty (80 °) and one hundred twenty degrees (120 °) Celsius. 20