WO1990012156A1

WO1990012156A1 - A method of removing oil from the surface of a water/oil mixture gathered in a receiver in an oil collecting vessel and an oil collecting vessel

Info

Publication number: WO1990012156A1
Application number: PCT/FI1989/000661
Authority: WO
Inventors: Kalervo Virtanen
Original assignee: Kalervo Virtanen
Priority date: 1987-12-15
Filing date: 1989-04-03
Publication date: 1990-10-18
Also published as: FI875500L; FR2645558A1; FI875500A0

Abstract

The invention relates to an oil collecting vessel and to a method of removing oil from the surface of a water/oil mixture gathered in a receiver (10) in the oil collecting vessel. The invention comprises, in the receiver (10), a conical container (12) tapering upwards and open at the top. A rotor (15) is provided in the bottom portion of the container (12) for bringing the water/oil mixture into a rotary motion for creating a conical turbulence in the liquid surface, whereby the oil tends to move towards the centre of the turbulence, wherefrom it can be efficiently removed by pumping. A concentric control means (9) positioned above the rotor (15) prevents the flow of the mixture, and that of oil in particular, from the centre of the turbulence directly downwards.

Description

A method of removing oil from the surface of a water/oil mixture gathered in a receiver in an oil collecting vessel and an oil collecting vessel

The invention relates to a method of removing oil from the surface of a water/oil mixture gathered in a receiver in an oil collecting vessel. The in¬ vention is further concerned with an oil collecting vessel applying the method. Oil collecting vessels collecting oil from the surface of open waters, such as the sea, usually gather oil-containing water into a special receiver. The oil-containing water can be transported as such for further processing at some other location. How- ever, the holding capacity of the oil collecting vessel is restricted, wherefore it is desirable to separate water and oil as efficiently as possible, so that the size of the water area to be cleaned can be increased, thus increasing the effective operative time of the oil collecting vessel.

Swedish Patent Applications having the publi¬ cation numbers 375 125 and 401 005 disclose an oil collecting vessel comprising a receiver into which the mixture of oil and water is introduced; pump means for pumping oil from the receiver; a container within the receiver, a layer of surface water of desired thick¬ ness being arranged to flow into the top portion of said container from the receiver; rotor means provided in the bottom portion of the container for bringing the oil/water mixture contained in the container into a rotary motion for creating a conical turbulence in the liquid surface above the container.

By means of this known solution, the water/oil mixture contained in the receiver is brought into a local rotary motion which creates a conical turbulence in the surface of the mixture, so that the oil, being lighter than water and thus on the surface, is gather¬ ed at the centre of the turbulence into a thicker layer wherefrom it can be removed by pumping more ef- ficiently than if it were divided into an even layer throughout the receiver. Known apparatuses, however, are able to treat only a limited amount of oil/water mixture because when the amount of mixture flowing through the turbulence is increased, the oil sep- arating capacity is substantially deteriorated.

The object of the invention is to improve the efficiency of the oil collecting method and vessel of the type described above.

This is achieved by means of a method described in claim 1.

The basic idea of the method according to the invention is to prevent direct flow from the centre of the conical turbulence downwards towards the bottom of the receiver. In this way the oil at the centre of the turbulence is prevented from being drawn under the surface by the downward flow, which improves consider¬ ably "the efficiency of the oil collecting process as compared with previous solutions.

The invention is also concerned with an oil collecting vessel according to claim 4.

In the oil collecting vessel according to the invention, a control means concentric with the turbu¬ lence and the rotor means is disposed in the container above the rotor means. According to the invention the control means prevent the oil from flowing from the centre of the turbulence directly downwards.

The invention will be described in more detail in the following with reference to the attached draw¬ ings, in which Figure 1 is a sectional side view of an oil collecting vessel according to one embodiment of the invention; and

Figure 2 is a partial sectional view of the oil collecting vessel of Figure 1 from the top. Figures 1 and 2 show one specific oil collect¬ ing vessel according to the invention. The vessel com¬ prises a body 1 with a receiver 10 open at the top. Two buoyant oil booms 7 and 8 are positioned in front of the vessel at the forward corners of the receiver 10. The booms project from the vessel obliquely for¬ wards, forming a V-shaped boom structure which tapers towards the receiver 10 so that it leads the oil- containing surface water into the receiver. A drive motor 3 and 4 is attached to each one of the oil booms 7 and 8, respectively, at the end of the draw boom closest to the vessel. The drive motor rotates all the screw-like draw booms of the oil boom at the same rate so that the draw booms 1, 5 and 6 displace surface water towards the receiver 10 of the vessel in the di- rection of the arrow 5 while they rotate.

The oil floating on the surface of the water in the receiver 10 is pumped into a proper recovery tank 2 at the back of the vessel. A buoyant part 23 posi¬ tioned at the orifice of or below a suction pipe 11 positioned in the receiver 10 comprises an interface detector for detecting the interface between water and oil and for controlling a suction pump (not shown) .

With the purpose of making the pumping of the oil from the surface of water more efficient, the thickness of the oil layer should be greater around the buoyant part 23. This is achieved by bringing the water/oil mixture contained in the receiver into a lo¬ cal rotary motion which creates a downwardly tapering conical turbulence in the surface, whereby the oil which is lighter and thus floats on the surface, tends to move towards the buoyant part 23 positioned at the centre of the turbulence and an oil suction opening provided therein. The interface detector switches off the pump if the oil layer on the surface is too thin or if there is no such layer at all, which prevents the pumping of water into the recovery tank 2.

For achieving the conical turbulence described above, a container 12 is positioned within the re- ceiver 10. As viewed from the side, the container has the shape of an upwardly tapering cone while it is round as viewed from the top. In the example of Figure 1, the bottom of the container protrudes below the bottom of the receiver 10. The conical container 12 is open at the top so that the upper edges of the side wall 12b of the conical container 12 remain below the surface of the liquid contained in the receiver. Alternatively, the conical container 12 may extend above the surface of the liquid contained in the re- ceiver 10, in which case its sides comprise flow open¬ ings which pass therethrough a surface layer of suit¬ able thickness into the conical container. A discharge pipe 13 or the like is preferably provided at the bot¬ tom of the conical container for removing water from the conical container back to the receiver.

The recirculation of water into the receiver enables the water to be retreated if it still contains oil. The discharge pipe preferably terminates close to the surface. The bottom construction of the receiver 10 may be considerably more open than that shown in the figure in order to make it easier for the surplus water in the bottom portion of the receiver to flow out under the booms and the sides of the receiver 10. The oil-containing surface water, instead, is retained in the receiver 10. A rotor 15 comprising several blades 16 extend¬ ing radially from the middle of the conical container towards its side walls is provided in the bottom por¬ tion of the conical container 12. When the rotor 15 is caused to rotate around the vertical axis thereof, it brings the water into a rotary motion, thus pushing the water out through the discharge opening or pipe 13. The rotary motion of the water (as well as the suction of the water being discharged) creates the above-described turbulence effect on the surface of the receiver 10, since the side wall 12b of the coni¬ cal container 12 extends close to the surface, pre¬ venting the water in the bottom portion of the re¬ ceiver 10 from flowing into the conical container 12, so that only the oil-containing surface water can enter the turbulence. The light oil on the surface tends to move towards the centre of the turbulence in the direction of the arrows of Figure 4, wherefrom it is sucked away through the buoyant part. The rate of rotation of the rotor 15 and the amount of water pass¬ ing through the conical container 12 are determined by the desired strength of the turbulence.

In this way, oil is separated from water in ac¬ cordance with the centrifugal principle, which in- creases the efficiency of the pumping process and de¬ creases the amount of the water passed into the re¬ covery tank. In other wards, the collection of oil takes place more rapidly and with an improved effi¬ ciency. The turbulence created on the surface also de¬ creases the effect of waves at the pumping site.

A control means, preferably a control plate 9, is provided in the conical container 12 below the buoyant part 23. The diameter of the control plate is smaller, preferably 20 % smaller than the diameter of the conical container 12 at the height where the control plate is located. The control plate prevents flow from the centre of the turbulence directly to the bottom of the container 12, thus decreasing the amount of oil to be sucked into the container 12. The control plate 9 need not rotate, so it can be supported e.g. to the sides 12b of the container 12 or to a vertical bar 22 which centres the buoyant part 2 in the middle of the turbulence. The control plate 9 is preferably round while its diameter and the height at which it is positioned in the container 12 are determined accord¬ ing to requirements in each particular case.

The receiver 10 further comprises a partition wall or baffle plate 14 which extends obliquely from one side of the receiver 10 near to the turbulent point, so that it prevents the water/oil mixture entering the vessel and flowing towards the turbulence from making contact with the turbulence on that side of the turbulence where the flow caused by the turbu- lence is towards the front portion of the receiver 10, being opposite to the incoming flow. If these flows should strike against each other, oil and water would be mixed which is a drawback. The partition wall 14 leads the incoming flow into the turbulence in such a manner that the flows are substantially parallel and no disadvantageous mixing occurs.

Alternatively, the conical container 12 may be formed wholly within the receiver 10 solely by means of the partition walls 12b. The rotation and support of the rotor 15 can be arranged in various ways obvious to one skilled in the art.

In order to lift possible ice blocks out of the receiver 10 and to clean these, the vessel may comprise a lifting ramp formed by an endless mat 17 moving around two rolls 21. Ice blocks 18 moving on the mat 17 are washed by means of water jets 20 applied downwards from nozzles 19 positioned above the mat 17. At the upper end of the lifting ramp, the cleaned ice blocks fall back into the water along the downwardly slanting upper walls of the recovery tank 2. The lifting ramp prevents efficiently the entrance of ice blocks into the back portion of the receiver 10 and into the turbulence, where they would disturb the pumping process and might even damage the rotor 15.

The figures and the description related thereto are only intended to illustrate the invention. In its details, the present invention may vary within the scope of the attached claims. The method according to the invention may thus also be applied in oil collect¬ ing vessels of some other type than that described above. The vessel can also be used as an auxiliary unit to be attached to other vessels.

Claims

Claims :

1. A method of removing oil from the surface of a water/oil mixture gathered in a receiver (10) in an oil collecting vessel, wherein the water/oil mixture in the receiver (10) is brought into a local rotatory movement which creates a conical turbulence in the surface of the water/oil mixture, whereby the oil, being lighter and thus on the surface, tends to move towards the centre of the turbulence, wherefrom it is removed by pumping, c h a r a c t e r i z e d by the step of preventing direct flow from the centre of the conical turbulence downwards towards the bottom of the receiver.

2. A method according to claim 1, c h a r a c¬ t e r i z e d in that the water/oil mixture entering the receiver (10) is controlled so that it flows into the turbulence so that when the incoming flow and the turbulence meet each other, their directions of flow are substantially parallel.

3. A method according to claim 1 or 2, c h a r- a c t- e r i z e d by the step of observing the inter¬ face between oil and water while pumping oil from the centre of the turbulence and interrupting the pumping as soon as the thickness of the oil layer on the sur¬ face of the water drops below a predetermined limit value.

4. An oil collecting vessel for removing oil from the surface of water, comprising a receiver (10) into which the mixture of oil and water is introduced; pump means for pumping oil from the receiver (10); a preferably upwardly tapering container (12) within the receiver, a layer of surface water of desired thick¬ ness being arranged to flow into the top portion of said container from the receiver (10); rotor means (15) provided in the bottom portion of the container (12) for bringing the oil/water mixture contained in the container (12) into a rotary motion for creating a conical turbulence in the liquid surface above the container (12), c h a r a c t e r i z e d in that a concentric control means (9) is positioned in the container (12) above the rotor means, the diameter of the control means (9) being smaller than that of the container (12), whereby the flow of water to the rotor means takes place from between the control means (9) and the wall of the container (12).

5. An oil collecting vessel according to claim 4, c h a r a c t e r i z e d in that it comprises a buoyant part (23) positioned at the turbulent point and supporting the orifice of an oil suction pipe, the buoyant part being provided with an interface de¬ tector for detecting the interface between water and oil and for controlling a suction pump.

6. An oil collecting vessel according to claim 4 or 5, c h a r a c t e r i z e d in that the re¬ ceiver (10) comprises at least one partition wall (14) for guiding the water/oil mixture into the turbulence so that when the incoming flow and the turbulence meet each other, their directions of flow are substantially parallel.

7. An oil collecting vessel according to claim 4, 5 or 6, c h a r a c t e r i z e d in that the bot¬ tom portion of the container (12) protrudes below the bottom of the vessel, and that the container (12) com- prises a discharge opening through which water is dis¬ charged under the vessel.

8. An oil collecting vessel according to claim 4, -5 or 6, c h a r a c t e r i z e d in that the dis¬ charge opening of the conical container (12) opens in a discharge pipe (13) through which the water is dis¬ charged back into the receiver (10).