NL8302351A - Oil residue removal method waterways - uses suction dredger, with collector screen mounted in front of collecting chamber attached to suction pipe - Google Patents

Abstract

The method for the extraction of oil from water (22) uses a grille (20) to extract oil lumps (24) from below the water surface. The grill is positioned transversely w.r.t. the direction of water flow, to allow collection of the oil lumps on the grill wires. The grill has collecting wires which project in the direction of water flow, adjacent the inlet to a collecting chamber (17). The oil lumps are deposited along the collecting wires.

Description

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Method and device for removing oil from waters.

When removing oil from water, one always tries to skim the oil from the water surface.

The object of the invention is to remove oil from the water which has been therein for quite some time.

The method according to the invention according to claim 1 is used for this purpose. It has been found that after staying in the water for some time, oil floats a considerable depth below the water level. It is precisely this oil which is captured as lumps 10 using the method according to the invention.

The invention also relates to and provides an apparatus for removing oil using the invention. This device is described in claim 8.

The mentioned and other features of the invention 15 will be elucidated in the following description with reference to a drawing.

In the drawing schematically represent: figure 1 a perspective view of a part of a vessel with a device according to the invention during the application of the method according to the invention.

figures 2 and 3 show a top view respectively. a vertical longitudinal section of detail II of figure 1, figure 4 a side view according to arrows IV of figure 1, figure 5 on a smaller scale a top view of the device of figure 1 in combination with extended catch screens, figure 6 a perspective view of another device according to the invention, figures 7 and 9 each show a variant of the device of figure 5, figure 8, a larger-scale perspective view of detail VIII of figure 7, and figures 10 and 11 two variants of detail X of figure 4.

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Figure 1 shows a fraction of a trailing suction hopper dredger 1, which is normally used in dredging soil, and which mainly consists of a vessel 2 with a hold 3, which is preferably provided on both sides with a suction tube 4, which is provided by lifting means 5 and 6 can be lowered from an on-board rest position to an obliquely downward rearward position to next to the vessel 2, wherein a connecting flange 7 connects to one present in the vessel 2, and via a pump 9 to an entrance 11 of over 3 leading pipe 8. The connecting flange 7 is guided in a guide 10 of the ship's skin 13. The suction pipe 4 can pivot in the flange 7 and furthermore has a gimbal hinge 14 around a flexible pipe piece 15. The suction pipe 4 now has a connecting piece 16 which is connected to a collector instead of a draining head (not shown) 15 -mel space 17 of a receptacle 18 which is provided with floating bodies 19. A grating 20 is connected to the collecting space 17, which is permeable to water and which is moved through the water 22 in the direction of movement 21 of the vessel 2, while it is kept under water 22 transversely to this direction of movement 21, preferably completely. and this to a depth ai of more than 1 m., preferably more than 2 m. and most preferably in the order of 5 m. or more, for example a depth of 7 m. The oil-25 floating below the water surface is thereby clumps 24 are guided along grating elements 25 extending obliquely to the direction of movement 21 to an entrance 26 of the collecting space 17.

The grid 20 preferably consists of rod-shaped guide elements which are mutually connected at their rear sides by, for example, cross bars 27 bent away from the plane of the grid elements 25. It is also conceivable that the grid elements 59 according to Figure 11 are gutter-shaped and holes 62 and are then interconnected with straight bars 58.

According to Figure 4, the oil lumps 24 are guided upwardly along the grating elements 25 at an angle. Preferably there is a collection space 17 with a grid 20 on the side of the vessel 2 and preferably on both sides thereof by the water 8302351. -3- 22 moved. The oil lumps 24 are preferably guided along the grid elements 25 completely submerged under water 22, so that the oil lumps are then accompanied with water with certainty, which prevents the adherence of oil. If, according to Figure 1T, the grate elements 59 are trough-shaped, the oil lumps with water therein can be raised above the water level 23, where the grate elements 59 have no holes 62, over an overflow edge 29 of the collection space 17. A plate 30 can at the top of the grid 20 of figures 4 and 10 above the water level 23.

The depth adjustment of the grid 20 is effected by means of the lifting means 6 which are provided with a heave compensator 31.

The oil lumps 24 are transferred with water 22 via the suction tube 4, a pump 9 and a pipe 8 to the entrance 11 of the hold 3. Two large baskets 41 with fine-meshed mesh are suspended in this turbulent entrance 11, while water is drawn from the hold 3 and is pumped overboard. In fact, this water 22 can be siphoned. These baskets 41 move and are automatically cleaned by turbulence flows. The heavy oil 31 settles at the bottom of the hold 3, while the lighter oil 32 collects in the upper part 33 in the hold 3, which is separated by means of a flexible screen 34 from a water overflow zone 35, where water 22 can escape over a level-adjustable overflow tray 36 and via a telescopic discharge tube 37 connected thereto. The flexible screen 34 consists of a cloth, an edge 39 of which is level-adjustable by means of a winch 38, while in the screen 34 there is a metal bar 40 as ballast.

30 The hold. 3 is large, has a volume of, for example, 3. .

image 3000 to 4000 m, and a cross passage of, for example, 2 image 100m with an effective passage of + 50 m. The flow of oil and water that is pumped into the hold, for example, is 1800 m / h.

The oil can be pumped ashore by means of the pumps 9 and these pumps 9 with the empty suction channels 60 connecting the hold 3 and by means of pressure pipes 61 from the hold 3 (as dredge) at the required position of valves 63.

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When valves 63 are adjusted, it is also possible to suck up the oil from the hold 3 and to return it back there, if this is necessary for keeping the oil liquid.

According to Figure 5, the concentration of oil clumps 24 in front of the grate 20 can be increased by pulling a screen 42 on either side of the vessel 2 with an auxiliary vessel 43. This screen 42 preferably consists of a floating hose, to which a net hanged that is weighted at 10 on its underside. The oil lumps 24 then move according to arrows 44 towards the vessel 2, while water 22 passes through the net according to arrows 45. In the vessel 2, each screen 42 is open, so that the oil lumps 24 can leave the screen 42 there.

According to figure 6, grids 47 can stand vertically and then guide oil lumps 24 in a horizontal oblique backward direction to the entrance 48 of a collection space 49. This collection space 49 is also suspended with grids 47 from the vessel 2 on its side.

According to figure 7, each grid 52 is preferably attached to the vessel 2 at the location of the guide T0, because the vessel 2 can absorb considerable forces there. There, as shown in Figure 8, the collection space 17 is also attached to the connecting flange 7 with a bend 50. The grid 52 is designed as a net and functions as oil lumps 24 catching grid. In order to clean the grate 52 from time to time, it is supported and guided by a rotor 53 provided with cleaning knobs 54, which, when the grate is moved according to arrow 55, for example by means of an auxiliary boat 56, removes the oil lumps 24 from the push grille away.

As shown in figure 9, the grid 57 can be designed as an endless net, which can then be moved relative to the rotor each time when it is hooked onto an auxiliary boat 56.

é 8302351

Claims (14)

Method for removing oil from water (22), characterized in that oil lumps (24) floating below the water level (23) are caught by means of a grating 5 (8) which extends under the water level (23). 20) which is moved through the water in a direction of movement, while it is held transversely to the direction of movement (21), the lumps of oil (24) screened from the water (22) extending obliquely relative to the direction of movement (21) (25) are led to an entrance of a collection space (17). Method according to claim 1, characterized in that the oil lumps (24) are guided obliquely upwards along the grating elements (25). Method according to claim 1 or 2, characterized in that the collection space (17) with the grid (20) is moved through the water (22) on the side of a vessel (2). Method according to one of the preceding claims, characterized in that the oil lumps (24) are guided along the grate elements (25) completely submerged under water (22). Method according to one of the preceding claims, characterized in that the grating (20) to a depth a of more than 1 m, preferably more than 2 m, and most preferably in the order of 5 m or more below the water level (23). Method according to one of the preceding claims, characterized in that the oil lumps (24) are guided into the collection space (17) with water (22). Method according to one of the preceding claims, characterized in that the oil is transferred from the collection space 30 (17) to a hold (3) of a trailing suction hopper dredger (1) via a suction tube (4) thereof. Device for removing oil lumps (24) from water, characterized by a water (22) permeable grating (20) extending below the water surface (23), a vessel 35 (2) for passing in a direction of movement (21) by moving the water (22) 8302351 -6- 3 4 from the grid (20) and connecting means (4,5,6) for connecting to the vessel (2) such that the grid (20) is transverse to the direction of movement (21 ) and which grating extending obliquely to the direction of movement (21) comprises oil in the direction towards the entrance (26) of a collection space (17) conducting grating elements (25). 9. Device (1) according to claim 8, characterized in that it essentially comprises a trailing suction dredger (1), of which at least one off-board piece of a suction tube (4) communicates with a collecting space (17) on which the grill (20). Device (1) according to claim 8 or 9, characterized by at least one grating extending over a considerable width, which occupies a diverging position seen in the direction of movement (21) of the vessel (2) and preferably by an auxiliary vessel (43) can be maintained in that position. Device (1) according to claim 10, characterized in that the grid (52, 57) is movable in its longitudinal direction relative to the vessel (2) for cleaning. Device (1) according to any one of claims 8-11, characterized by at least one flexible screen (34) adjustable in a hold (3) that has a water overflow zone (35) of this hold (3). separates an oil collection space (33) from this hold (3). Device (1) according to any one of claims 8-12, characterized by a hold (3) provided with a water extraction basket (41), which is preferably arranged in a supply zone (11) in which a mixture of water (22) and oil lumps (24) are supplied. Device (1) according to any one of the preceding claims, characterized in that a collection space (17) and a subsequent grid (20) are suspended from lifting means (5,6) for lifting a length of suction pipe ( 4) from a suction dredger (1). 8302351