DE3347988C2 - Conveying apparatus for removing crude oil and crude-oil fractions from water - Google Patents

Abstract

Published without abstract.

Description

The invention relates to a circulating and partially immersed in the water conveyor for removal of petroleum and petroleum fractions from water.

Such a conveyor device is from DE-AS 12 25 117 known. According to this, the conveyor belt is inclined arranges and driven in such a way that the lower run of the För derbandes coming into the dirt layer from above dives and the direction of pull of the lower run when cleaning a flowing water whose flow direction is approximately the same is aimed. When cleaning a standing water arranged by means of a floating vehicle neten conveyor belt, the vehicle is advanced in such a way that that dipping into the dirt layer from above Lower strand of the conveyor belt, based on the direction of motion direction of the vehicle, foremost in the direction of movement comes to rest.

In this known version but are for the removal of oil or Ver only cleaning the transport effects of the conveyor belt crucial, which is at most made of oil-adhesive material, mainly made of plastic, and can be used for discharge scraper combs are arranged. This well-known version does not work very effectively, on the one hand because it is just a kind the scooping is made and on the other hand esp special petroleum or layers of fat on the conveyor belt or the conveyor belt device can slide so that he hoped that the purpose is insufficiently fulfilled.

A conveyor device for receiving a powdery Ge previously applied to the water surface mix of absorbent binder and magnetizable material mean specific gravity than water, under its ascending section Having magnets in a magnet arrangement is already in the older one, not Pre-published patent application P 31 46 847.0-43 (DE-OS 31 46 847) been proposed. Thereby be the conveyor is pending in the special version  a circulating one submerged under the water surface Conveyor belt, its obtuse angle from the water surface the magnet arrangement is assigned to the ascending strand. At least one foreign is mentioned in this context excitable bar magnet with axis direction parallel to För dervorrichtung, also the use of several such mag net arrangements one behind the other or side by side, in particular also in a comb-like design. Be involved in this alternating magnetic fields or magnetically fluctuating fields who in various training over the length of the Trans port distance, also for the magnet arrangement also externally excited magnets are provided.

In connection with the conveyor device according to DE-OS 31 41 847 can be a natural mate as an absorbent binder rial, in particular fibrous structure, are used and a certain mixture between binder and magne tisizable material can be provided for optimal results to achieve nits. Furthermore, as a binder or absorbent material peat garbage proposed, with Hin looking at the volume ratio a loosened up state is provided. There are additional advantages with fibrous structure of the binder as a grid for the Particles made of magnetizable material, especially un round iron filings.

The invention has for its object a funding device according to the waiter Concept of claim 1 to design so that a more effective Drainage of petroleum and petroleum fractions is achieved.

This task is performed in a generic conveyor by the characterizing Features of claim 1 solved.

That with magnetized bar material provided mixture is according to the invention already in an expanded Be rich contracted in front of the conveyor and to Removal already compressed. That increases the lei endurance.

In an advantageous embodiment, the other Magnet assembly as a solenoid with it funnel with increasing distance from the conveyor shaped widening turns. This makes it practical created a collecting funnel. From that point of view provides an appropriate execution that for the another magnet arrangement like a flattened cone netisable material is provided, which is an additional Magnetic winding carries and its larger mouth at that of the  Conveyor device is opposite end of the cone, and that the longer cross-sectional axis of the flattened cone runs parallel to the water surface. Through this flat pressed cone also results in a mecha African influence for the merging of the material, where also the narrower mouth in relation to the conveyor device tion is carried out that run away water run off can. Is included that a conveyor belt is conveniently in the engages narrower mouth.

According to another advantageous embodiment is for the further mag netanordnung a at the immersed end of the conveyor via a winding externally excitable magnetic body is provided, the extension of the conveyor with a beak-like Polan order is connected. This practically becomes a magnet shovel out the field lines between the beak-like Pole arrangements created, which are also due to their Concentrate the arrangement in the area of the water level acts to bring together impurities.

If in itself a revolving conveyor ge is named, then the invention relates in preferred Ausge events two embodiments. One of these is designed as a conveyor belt that slants into a water surface extends and with the upper run out of the water surface is running out, and that by two Deflection rollers moved, at least one of which is used as a drive roller is designed with a drive motor. The other one before partial embodiment has egg as a conveyor NEN cylinder inside which the magnet arrangement is provided hen is, the magnetic poles the course of the conveyor device adapted are provided. Both versions are with  a magnet arrangement under the ascending section either the conveyor belt or the cylinder. The Magnet arrangement can consist of permanent magnets or consist of externally excited magnets. It is included that the magnet arrangement in each case in an area under water begins and in an area of the upper deflection point Conveyor ends.

According to a further advantageous embodiment, the execution of the conveyor as a conveyor belt additional Lich to the described magnet arrangements another Magnet winding wrapped around the conveyor belt and so excited that the generated field lines at the top of the conveyor band run parallel to the transport direction of the same. This is intended to support the effect of the conveyor belt.

The invention is described below with reference to exemplary embodiments play explained, which are shown in the drawing. In the drawing shows

Fig. 1 is a schematic side view of an embodiment;

Fig. 2a is a schematic representation of an additional embodiment of the Fördervor direction as a conveyor belt to improve the efficiency;

Fig. 2b is a presen- tation of another embodiment corresponding to Fig. 2a;

Fig. 2c is a view of Figure 2b from the right.

Fig. 3 is a top view of a conveyor belt with a magnet arrangement in a further embodiment.

According to Fig. 1, in particular a ship, a conveying device 2 is mounted on a floating body 1, shown as a circulating conveyor belt which ge over two deflection rollers 3, 4 is leads that are Gert gela on the ship. The ship has, for example, a recess 6 extending below the water surface 5 on the bow side, so that the transport device 2 with its lower end lies in the region of the deflection roller 3 under the water surface 5 .

It goes without saying that a floating body 1 , possibly a ship, can also be designed such that the deflection roller 3 is held on lateral struts or supporting devices outside the half of the hull, as is known from the statements relating to the prior art.

On the deflection roller 4 , a drive motor 7 is arranged, which drives the conveyor belt 8 in the direction of arrow 9 so that the upper section from the water surface 5 is moved out leading. In the area of the upper deflection point at 10 in the area of the deflection roller 4 , auxiliary devices 11 , such as wipers, can be arranged, since entrained material, ie impurities or oil, is thrown into a tank 12 of the floating body 1 .

A magnet arrangement 13 is provided under the ascending run of the conveyor belt. The magnet arrangement 13 dips below the water level 5 . The magnet arrangement 13 is only a formally shown, but connected by a connec tion 101 connected excitation voltage source 102 assigned when the magnets of this magnet arrangement with He excitation winding and externally excited.

Figs. 2 and 3 show an embodiment with a more advanced white and also additional magnet arrangement. In these figures, the conveyor belt 8 can be seen in plan view, to which the magnet arrangement 13 is assigned.

According to Fig. 2a of the conveyor belt 8 is at the lower end 104 of plunging practically as further regulatory MagneTan a solenoid 105 arranged, the coil 106 is arranged on not shown carriers, in particular of non-magnetic material, in extension. The winding 106 is connected to a source 107 He, in such a way that the field lines 108 are directed inside the conveyor belt 8 .

The solenoid 105 practically forms a forward-widening collector for the mixture to be taken up, the lower part of the solenoid being in the water, while the upper part can run just above the water surface.

In Fig. 2b and c, a of the winding 106 is disposed corresponding winding on an existing instance of iron flattened cone 109th This cone continues the lower end of the conveyor belt 8 according to the above information to the front, ie also in the direction of travel, when taking up the mixture. The further, ie larger, mouth 110 has turned away from the conveyor belt 8 , which ends at the narrower mouth 111 . It is also possible to insert the lower end of the conveyor belt 8 somewhat into the narrower mouth 111 . The longer cross-sectional axis 112 of the flattened cone 109 is parallel to the water surface.

According to FIG. 3 of the transport belt is arranged 8, a further magnet assembly 113 in the area of the lower end. This consists of a magnet body 114 which can be externally excited by a winding and is beak-shaped in front of the conveyor belt in the region of the water surface or slightly below this expanding poles 115, 116 . The field lines running between these, apart from the mechanical merging of the mixture, form an additional supply aid to the conveyor belt or a differently configured conveying device. The winding of the magnetic body 114 is also connected to an excitation current source, such as 107 in FIG. 2.

In all of these versions with a conveyor belt and the corresponding configurations with the magnet arrangement 13 , it is included that an additional magnet arrangement 117 is arranged around the conveyor belt as a corresponding winding, optionally also on a tubular core in particular. This winding is connected to an excitation source 118 so that the field lines ent running along the top of the conveyor belt are directed in the transport direction and thus support the extraction of the mixture.

Claims (5)

1. Circulating and partially immersed in the water conveyor for removing petroleum and petroleum fractions from water, characterized in that for receiving a previously applied to the water surface powdery mixture of absorbent binder and magnetizable material lower average specific weight than water little least under the ascending section of the conveying device magnets are seen in a magnet arrangement and that at the immersing end of the conveying device a further magnet arrangement is provided which is arranged against the conveying device of the conveying device emerging into the water and whose magnetic field ( 108 ) in front of the conveying device as Collector of the mixture is provided with magnetizable material. 2. Device according to claim 1, characterized in that the further magnet arrangement as a solenoid ( 105 ) with increasing distance from the conveyor ( 8 ) funnel-shaped windings ( 106 ) is formed. 3. Apparatus according to claim 1, characterized in that for the further magnet arrangement a flattened cone ( 109 ) made of magnetizable material is provided, which carries an additional magnet winding ( 106 ) and the larger mouth ( 110 ) on the device of the conveyor ( 8th ) opposite end of the cone ( 109 ), and that the longer cross-sectional axis ( 112 ) of the flattened cone runs parallel to the water surface ver. 4. The device according to claim 1, characterized in that for the further magnet arrangement at the immersion at the end ( 104 ) of the conveying device via a winding development externally excitable magnetic body ( 114 ) is provided, which in extension of the conveying device with a beak-like pole arrangement ( 115, 116 ) connected is. 5. Device according to one of claims 1-4, with a belt-shaped conveyor, characterized in that as an additional magnet arrangement ( 117 ) a magnetic winding around the conveyor belt ( 8 ) and is excited so that the generated field lines on the top of the conveyor belt ( 8 ) run parallel to the direction of transport.