NO782003L - OIL FOAM. - Google Patents

Description

The present invention relates to a method

and device for removing oil from a water surface. The invention relates in particular to an improved device and method for the continuous removal and recovery of large quantities of oil from extended water areas.

Contamination of natural waterways and areas, such as harbor basins, rivers, lakes, as well as shorelines and open seas, with oil floating on the surface of the water, is very harmful to the environment. In recent years, there have been increased oil leaks from damage to tankers and barges, from boreholes, tank cleaning or from other sources with accompanying damage to the environment both on land and in the water. Such oil pollution has caused increasing concern, partly because of the clearly inadequate ability to mitigate, let alone solve, the problems of large oil leaks.

Although many aids have been proposed for the removal and collection of oil floating on the surface of the water, before nearby coastal areas are exposed to large-scale pollution, e.g. dispersing, leaching, absorbing, burning and the like, such attempts have as a rule been ineffective, at least when it comes to leaks in large quantities and consequently w.^j over large areas or where there is more than minimal surface turbulence in the -contaminated area .

Previous attempts to construct bilges in the form of vessels that move through an oil slick and collect oil from this have proven to have a very limited effect. An inherent problem in connection with such devices is that they all form a rigid structure, usually in the form of a belt unit with a rigid support, opposite the incoming oil. When such a movable,

rigid construction faces an oil slick, a "top-

wave" in the oil near the structure. At very low relative velocities of the crest wave, this becomes hydrodynamically unstable. It has been shown that relative velocities above about 1.25 knots cause the crest wave to break up and that entrained oil droplets are carried past the construct j onei which approaching.

It has also been shown that this phenomenon occurs, itself

if the construction is provided with a continuous band of oil-collecting material. A serious limitation of previously known devices has thus been that they can only be operated at speeds of approx. 1 knot, if they are to have any significant effect at all.

The present invention can be briefly described as a

improved method and device for removing oil from a water surface and comprises in a preferred embodiment a vessel of the kararan type which has its own propulsion and restricts a long: .. stretched oil collection channel with an inverted U shape, whereby the device has a modular construction. Large areas of oil-collecting material, e.g. polypropylene, in the form of elongated, endless bands or ropes, is freely and loosely supported on the surface of the water to move towards it and is passed through the inverted U-shaped channel in countercurrent to the vessel's direction of travel and preferably at zero speed difference with respect to the surface of the water for maximum oil uptake . The preferred oil absorbing material is polypropylene, formed into thin strips and radially arranged, around a core band or rope. Although oil-absorbing material in a continuous flat, wide band or cloth form can be used in connection with the present invention, a series of independent ropes is preferred, because this provides additional freedom of movement in the lateral direction between the individual bands, when there are obstacles in the form of objects floating on the water or similar.

In connection with the oil-absorbing organs it is

on a deck structure that spans the catamaran hulls an-

arranged means to feed forward the oil-absorbing material in accordance with the movement of the catamaran through the water and to remove the accumulated oil before the material is again fed down into the oil extraction channel.

Among the advantages of the present invention is the arrangement of an oil-absorbing vessel with its own propulsion, which serves to maximize the oil-absorption and separation effect of the oil-absorbing material used, with a view to the amount of oil exposed to influence and the contact time between the material and the oil. Further advantages lie in the oil absorption and separation effect when polypropylene ropes with several strips are used.

Further advantages include the provision of an oil recovery method and device which is effectively operable regardless of the conditions, in terms of surface turbulence and the presence of floating objects on the water. Other advantages are increased oil storage possibilities without harmful limitation of the oil absorption effect and an easy-to-install modular construction, which can be easily transported for quick installation in the area where the device is to be used.

One purpose of the invention is the provision of an improved method and device for collecting oil from the water surface in calm, as well as in relatively rough seas, when this is necessary, and at a relatively high speed.

Other purposes and advantages of the present invention will be apparent from the following description.

To further illustrate the invention, it will be described in the following with reference to the drawing, where like parts are denoted by the same reference number and where: Fig. 1 is a schematic view of an improved oil collection device which is designed according to the invention,

fig. 2 is a schematic side view of the device as shown in fig. 1 and

fig. 3 a vertical section along the line 3-3 on

fig. 1.

The drawing shows a catamaran vessel formed by a pair of elongated hulls 10, 12 which are arranged at a distance from each other and above which a deck 14 is arranged, which is advantageously, at least partially constructed of metal grid or similar, and supported by a number of crossbeams which is removably attached to the hulls 10, 12. The hulls 10, 12 and the overlying deck unit generally limit an inverted, generally U-shaped oil collection channel 16, which extends over the entire length of the vessel with the water surface located between the hulls. The hulls 10, 12 and the overlying deck can be prefabricated in easily assembled module sections, e.g. in easily transportable lengths of approx. 6 m and can be assembled demountably, e.g. as at 18, to form the assembled structure. Hulls 10, 12 are further divided into several rooms. Certain rooms can be filled with a liquid foam substance, while others can be used for storing collected oil.

As will be apparent from the following and seen in fig. 2, the oil-absorbing material is slack and loose when the vessel is at rest and thus floats loosely on the surface of the water and allows considerable movement under the influence of the water. Therefore, a particular draft of the catamaran's hull is not a decisive or critical operating parameter. At the same time, the loose, absorbing materials enable operation of the vessel at higher speeds, as discussed in more detail below.

In the aft part of each hull 10, 12, an inboard engine 20 is mounted, which, both in terms of speed and rudder response, is controlled from a control desk 22, which is mounted on the deck 14. Although it is preferred that the vessel has its own propulsion, it is of course also possible to utilize the basic principles according to the invention with a vessel that is towed or moved in another way. A protective railing 24 is arranged around the deck 14.

The oil-absorbing material used according to the invention can be selected from among several materials. It can e.g. a sponge in cloth form or another continuous band form is used for absorption by suction. However, the preferred material for use in connection with the invention is polypropylene, formed in a structure as set forth in U.S. Pat. patent document 3,668,118. Such structures essentially consist of an elongated core strip with several thin, narrow polypropylene strips running essentially radially from the core, so that they form a relatively loose mass of individual strips which together form a distinctly extended surface area where oil is attracted and adheres. As will be apparent from the aforementioned patent document, the composite structure is both easy to handle and effective when it comes to removing adhering oil material from the oleophilic material before it is again exposed to oil. Such material is hereinafter called "elongated oleophilic rope member" or "elongated oleophilic rope material".

On the deck's 14 bow sections, a pair of drive units for oleophilic rope members and for oil separation 30 and 30 respectively are mounted. 32. As most clearly shown in fig. 2, each unit comprises a pair of rollers 34, 36 in pressure engagement and adapted to feed forward a unit of a number of elongated oleophilic rope members, e.g. three members in the form of endless bands 38a, 38b'. and 38c,

which is fed in the direction indicated by the arrow 40. A number of guide rollers 44 are arranged in connection with the units

and 46 which controls the path of movement of the elongated, oleophilic rope members from the drive rollers 34, 36, down to loosely floating placement on the surface of the water between the catamaran hulls 10 and 12 near the vessel's bow. As shown in fig. 2, the lower bow guide roller 46 is arranged substantially above the waterline "W.L." (e.g.

about. 0.9 m above the waterline in a design example where the vessel is approx. 12 m long), where the ropes have several feet of extra slack, so that the slack oil-absorbing material 38 can come into contact with and float freely or loosely on the surface of the water with considerable freedom of movement, so that it (see 38') can easily be moved longitudinally or vertically in response to wave or other water action, while being able to move to the sides. Preferably, there are no further guide rollers or other bodies which limit longitudinal or vertical movement along the length of the material 38, when this is in or close to the water. The rope members 38 thus float freely on the surface of the water without tension or stiffness and without any stiffening influence which prevents contact with the surface of the water and its movements.

Appropriate spacers, such as vertically arranged bars 42, which are mounted at each end to a housing 54, are preferably provided to maintain the elongate, oleophilic rope members, e.g., 38a, 38b and 38c at a desired distance during their movement through the drive units 30 and 32.

Aft on the deck 14 and preferably a good distance above the waterline, a guide roller unit 50 is mounted, adapted to raise the oil-saturated oleophilic rope members from contact with the water surface and guide them towards an elongated collecting trough 52, where they are supported during the feed by means of the drive rollers 34, 36. Suitable bodies, such as radially extending plates or flanges, are included in the guide roller unit 50 to keep the oil ropes at a distance from each other in the lateral direction. The collection trough 52 is drained towards the drive and separation units 30, 32. Each drive and oil separation unit 30, 32 comprises a housing 54 and an oil sump, from which collected oil is led through the schematically indicated line 58 and the pump 60, which is also used for - routing of collected oil from rooms 62 to other storage vessels.

The disassembled module components are adapted for air transport or other rapid transport to the place where they are to be used and where they are assembled. The main modules can e.g. comprise the illustrated two catamaran hulls, the deck grates, the units for operating the oleophilic rope means and for oil separation, the control desk units and the like, or they may comprise further sub-units. At or near the place where the device is to be used, the easily transportable modules can be easily assembled to form a construction as shown in the drawing. The assembled structure is then towed or driven by its own machine to the leakage area.

The illustrated vessel is adapted to be driven through the oil slick at a specific speed. As an explanation, this forward speed can be expressed as the movement of the water from bow to stern with a speed of V Wknop. At the same time, the units 30, 32 are regulated for operation of the oleophilic rope members and for oil separation so that they induce a. displacement of the parts of the endless oleophilic rope elements which float on the water within the oil collection channel between the catamaran's hull 10, 12 in the direction from bow to stern at a certain speed, e.g. a speed of V^knot. As most clearly shown in fig. 1, each unit 30, 32 drives several separate endless, elongated oleophilic rope elements, so that the combined transverse extent of the rope elements substantially fills the distance between the hulls 10, 12. If the displacement speed V^ of the elongated oleophilic rope members is substantially equal to or somewhat greater than rapid -the V w, optimal conditions will be achieved with regard to residence time for oleophilic absorption of oil on the strips of the rope material. If the cross-section of the channel formed between the hulls is substantially filled with the liquid oleophilic pick-up material and the velocity ratio between the material and the water surface is kept to a minimum or zero as discussed above, optimum conditions can be established and maintained, which are effectively independent of the state of the water surface or the presence of floating objects, so that a quantitative improvement is achieved

oil intake.

As will be seen, each set of elongated oleophilic rope elements, e.g. 38a, 38b, 38c selectively and primarily drag oil with it from the surface of the water and will, when it passes up and over the guide roller unit 50, effectively separate significant quantities of oil from the surface of the water. The guide roller assembly 50 guides the elongate oleophilic rope members 38 over the surface of the trough 52, which abuts them as they are fed to the nip of the compressed drive rollers 34 and 36. The drive rollers 34 and 36, which preferably have a surface of elastically deformable material, both serve to feeding the endless bands of elongated, oleophilic rope material in the manner described and to squeeze out or otherwise displace most of the accompanying oil from the surface of the elongated, oleophilic rope members as these are fed forward. The separated oil is collected in the sumps from which it is removed and stored in the tank sections 62 in the catamaran hull 10 or 12. It will thus be obvious that the draft of the catamaran hulls 10, 12 is not critical, as all collection activity takes place on the surface of the water in the channel which is limited by the hulls. The fact that the absorbing material such as the elongated, oleophilic rope members 38 floats loosely on the surface of the water will not only bring about the same contact with the liquid oil, but also makes the device effective independent of floating objects, e.g. ice, in the water and within certain limits of turbulence in the water surface, as the free-flowing oleophilic material will travel over and around floating objects and will generally follow the contour of the water surface.

The enabled control of the speed difference between the floating, elongated, oleophilic rope members and the vessel enables a very efficient utilization of the rope members' oleophilic properties and thus a large volume and a very effective separation of oil from the water surface in a vessel with great mobility and under highly varying operating conditions.

A vessel that was at least generally identical to the vessel mentioned above was successfully tested for efficient oil recovery at speeds of up to five knots.

The above particulars and examples are intended exclusively to illustrate the invention and allow for extensive variations within the scope of the invention. The vessel and its oil-absorbing material may thus have a size and shape that differ from those shown. It can e.g. include a single hull, where the oil-absorbing material hangs down from the side, as well as multi-hull forms with centrally limited channels.

Although the basic new features of the invention have been shown and described, various replacements, modifications and variations can thus occur without leaving the scope of the invention.

Claims (14)

1. Vessels that are suitable for the removal and collection of oil floating on a water surface, characterized by the fact that it includes a) an elongate hull, which at least partially limits an oil collection area and is equipped with means for propelling the hull through the water and b) support means in connection with said hull, for abutting at least one movable band of compliant oil-absorbing material which can float loosely on the water surface in the oil collection area to absorb oil floating on the water surface, whereby the material's original water surface contact area is freely movable vertically and longitudinally under the influence of the water movements. 2. Device as specified in claim 1, characterized in that the device further comprises drive means in connection with the hull to move the oil-absorbing material longitudinally through the oil collection area and that the drive means comprise control means for controlling the forward speed of said material through the oil collection channel. 3- Device as stated in claim 2, characterized in that the drive means also act as separation means for separating the oil from the oil-collecting material after the latter material has been moved from the water surface and that the drive and separation means comprise at least one pair of rollers in compression engagement. 4. Device as stated in claim 1, characterized in that it includes storage means in connection with the hull for storing the separated oil on the vessel. 5- Device as stated in claim 1, characterized in that the oil-absorbing material comprises several thin strips of oleophilic material which are suitably arranged on the band, so that the oil-coated water surface comes into contact with a fibrous mass. 6. Device as specified in claim 1, characterized in that the band is endless and comprises a continuous rope-like construction of said oil-absorbing material. 7- Device as stated in claim 6, characterized in that the rope-like construction of oil-absorbing material comprises several thin strips of oleophilic material which are arranged essentially radially around a central, rope-like band. 8. Device as stated in claim 5 or 7, characterized in that the oleophilic material comprises polypropylene. 9. Device as stated in claim 6, characterized in that the support body comprises bodies for repelling a number of such bands which are arranged in parallel in the oil collection area. 10. Vessel for removing and collecting oil floating on the surface of the water, characterized in that it comprises a) a pair of elongated hulls at a lateral distance from each other, which limit an elongated oil channel between them, b) a deck that spans the two hulls and extends over said oil collection channel between the hulls, c) means for propelling the vessel at a fixed speed through water where oil is floating on the surface, d) a number of endless bands of a compliant, liquid, oleophilic material arranged parallel to each other, each with a portion arranged in said oil collection channel essentially parallel to its longitudinal axis, whereby the oleophilic material in each band is adapted to float loosely and freely on the water surface in the oil collection channel in order to pick up oil floating on the water surface and maintain the oil in an adherent interface condition, e) a guide roller unit arranged in the stern of the vessel, f) drive means in connection with the hulls for feeding the endless bands of oleophilic material through the oil collection channel in such a direction that the part of the endless band which is arranged in the channel is fed forward against the direction of the vessel through the water and for further feeding of the endless bands of oleophilic material over the guide roller unit, whereby the oleophilic material is raised from contact with the surface of the water and g) means for separating the oil from the oleophilic material before the oleophilic material is again led down into the oil collection channel. 11. Device as specified in claim 9 ■ >characterized in that the drive means include means for controlling the speed of the oleophilic material through the oil collection channel. 12. Device as stated in claim 9> characterized in that the drive and separation means comprise at least one pair of pressure contact rollers. 13- Device as stated in claim 9, characterized by a collection trough arranged between the oleophilic material and the tire to repel the oleophilic material when this is fed forward from the guide roller unit to the drive members. 14. Procedure for removing oil from a water surface, characterized by the following steps: a) propulsion of a pair of catamaran hulls that have a lateral distance between them and limit an elongated oil collection channel between them, through oil-coated water at a first, fixed speed, b) simultaneous advance of a elongate, yielding bands of oil-absorbing material that have been laid on the channel surface in countercurrent to the hulls' progress through the water at a second fixed speed and c) control of the hulls' progress speed and the feed of the material so that the speed difference is essentially zero. 15- Method as specified in claim 14, characterized by a) introduction of the oil-absorbing material on the water surface somewhere before in said collection channel, b) removal of the material from the water surface on. somewhere aft in the collection channel and c) removal of the collected oil from the material. l6. Method as set out in claim 15, characterized in that the belt is endless and that it further comprises i) feeding the belt when there is slack floating on the water surface in the collection channel area when the vessel is moved through the water x_opposite direction to the vessel's direction of movement and ii) control of the relative speeds of the vessel and the floating belt portion so that the speed difference is essentially zero. 17- The invention as stated in claim 1, 5S 9 or 15, characterized in that the band part in the oil collection channel runs longitudinally along the surface of the water in contact with it, over a stretch of several feet.