RU2213180C2 - Gear to collect oil products - Google Patents

Abstract

FIELD: protection of environment. SUBSTANCE: gear includes turbulence chamber with inlet and outlet for collected oil, drive for its rotation, swirler, floats, power frame, tank for accumulation of collected oil, pipe-line and pump. Turbulence chamber has cover in the form of body of revolution fixed on engine shaft along axis, bottom formed to shape and matched to cylindrical skirt of cover. Bottom of turbulence chamber manufactured in the form of truncated, profiled funnel with downward vertex is anchored in cover on radially placed plates as on pylons arranged over skirt edges. Base of funnel and skirt of cover form annular clearance uniform over perimeter of cover which is outlet from turbulence chamber and hole in vertex of funnel is inlet to turbulence chamber. Funnel carries additional swirler coming in the form of profiled flat plates radially anchored outside of funnel, near its vertex. All plates of swirler are located in cap which shear plane is parallel to plane of outlet hole and plane of surface of spilt oil. Internal surfaces of cover and funnel of turbulence chamber are formed to shape and internal surface of profiled funnel is hyperboloid of revolution and carries coat. Power frame is mounted on mobile chassis with engine. Gear to collect oil products is fitted with system automatically maintaining required value of clearance between oil surface and plane of vertex of truncated, profiled funnel. Rotation of shaft of swirler drive forms air annular vortex flow with decreased atmospheric pressure along axis of turbulence chamber. Due to fall of pressure water surface bulges in zone of inlet hole of turbulence chamber and sucks oil spilt on surface into space of turbulence chamber. Hitting internal surface of funnel oil rises to base of funnel thanks to action of centrifugal and cohesive forces and is drawn off into tank for accumulation of oil through annular clearance. Formation of eddy flows in air atmosphere both in turbulence chamber proper and above surface of oil in zone of inlet hole to turbulence chamber makes it feasible to reduce energetics of gear and to raise quality of oil separation from water. Apart from this gear can be utilized to collect spilt oil from solid surface. EFFECT: reduced energetics of gear and raised quality of oil separation from water. 3 cl, 1 dwg

Description

 The invention relates to devices designed to collect liquid contaminants from the surface, and can be used in various industries, for example, in the elimination of emergency oil and oil product spills, including from natural and artificial reservoirs.

 Known devices for removing oil using a rotating cone-shaped body, lowered by the apex into the water [1, 2]. During the rotation of the cone, liquid contaminants located on the surface of the reservoir rise along the surface of the cone from the top to its base due to the combined action of centrifugal forces and adhesion forces. However, the efficiency of such devices is insufficient, since the adhesive adhesion for different pairs of materials in contact is different. Therefore, various materials will be removed from the surface of the water with different efficiencies.

 To increase the efficiency of oil intake (pollution) in devices for collecting oil products, swirlers are often used to create a funnel in the liquid in which oil is collected and from where it is easier to pick up [3, 4].

 The closest in technical essence to the proposed device is a device for collecting oil and oil products from the surface of the water as. USSR 1516578 [5]. The device according to [5] consists of floats, on which a conical funnel is mounted, in the cavity of which water with oil accumulates and which is actually a vortex chamber, since the vortex flows created in the funnel’s liquid located in the funnel are installed.

 The main disadvantage of this device is the low efficiency of the collection and separation of oil and oil products from water, low productivity of the device.

 The aim of the invention is to increase the efficiency of collection and separation of oil and oil products from water, increasing the productivity of the device.

 The drawing shows a schematic diagram (section) of the device.

 The device consists of a power frame 1 mounted on the floats 2. On the power plate 3, mounted on the frame 1 with the possibility of its movement along the height of the frame, an engine 4. A swirl chamber is formed on the shaft 5 of the engine, formed by a cover 6 with a profiled inner surface, which is a surface of revolution smoothly interfaced with a cylindrical skirt 7 and a profiled conical funnel 9 with a truncated top down. Moreover, both parts of the vortex chamber are connected to each other on the periphery by pylon plates 8, radially mounted relative to the axes of both the cover 6 and the shaped conical funnel 9. The base of the funnel forms an annular gap with the inner surface of the skirt 7. Near the top of the shaped funnel on the outer surface, a swirler is installed, consisting of a casing-cap 10, in the cavity of which, on the outer surface of the funnel 9, the blades 11 profiled in the plane are radially fixed The storage tank 12, mounted on the floats, in which an annular gap is made, into which part of the skirt 7 enters with a gap and through which the collected oil is drained, serves as an oil reservoir. Thus, the entrance to the vortex chamber is the hole at the top of the funnel, and the exit from the vortex chamber is the annular gap (annular gap) through which the collected oil is drained.

 Since structurally the volume of the tank 12 intended for the accumulation of collected oil products is limited, it is necessary to constantly divert the collected oil from this tank to tanks (drives) of a much larger volume, to stationary drives. The exhaust system of the collected petroleum products (oil) and stationary drives are not shown in the drawing. Thus, the tank 12 is actually an intermediate tank for the accumulation of collected oil.

 Calculations show that the efficiency of collecting spilled oil (oil products) using the proposed device mainly depends on the kinematic characteristics and positioning of the vortex chamber relative to the surface of the spilled oil products, i.e. on the angular velocity of rotation of the vortex chamber and the size of the gap between the oil mirror and the plane of the inlet to the funnel 9. The optimal values of these parameters depend on the physicochemical parameters of the spilled oil product, on the state of the surface onto which the oil product is spilled, on weather conditions, etc. The optimal values of the speed of rotation of the vortex chamber and the gap between the mirror of the collected oil and the plane of the hole at the top of the funnel 9 must be selected experimentally for each specific case during the setup of the device. The system for the longitudinal movement of the power drive of the vortex chamber along the axis of the drive shaft is not shown in the drawing.

 The device operates as follows.

 Before starting the engine 4, it is set by moving the power plate 3 relative to the frame 4, the required gap between the oil mirror and the cut plane of the top of the funnel 9. After starting the engine 4, the swirl blades 11 creates an annular air vortex above the oil surface. Static atmospheric pressure decreases along the axis of this vortex, and the water surface in this zone bulges out, simultaneously raising the layer of oil. The vortex flows created in the vortex chamber by pylon plates 8 will also contribute to an increase in the level of oil rise at the top of the funnel (in the area of the intake opening), since such flows additionally reduce the static pressure along the axis of the vortex chamber. When water is bulging in the area of the intake opening of the vortex chamber, the oil film, spilled over the surface of the water, accordingly rises. When the oil film comes into contact with the inner surface of the funnel 9, it sticks to the surface.

 When the funnel 9 rotates, due to the adhesion of the oil film to the surface of the funnel and centrifugal inertia forces, the oil rises along the funnel wall to its base. Through the gap existing between the base of the conical funnel 9 and the skirt 7, the oil is discharged into the storage tank 12, from where it can be pumped out using a pump not shown in the drawing, through pipelines not shown in the drawing, to larger storage tanks.

 Since the movement of fluid along the funnel wall is film, only a small amount of water can enter the storage tank 12 together with the oil film. Moreover, water entering the surface of the funnel is only possible if a part of the funnel is wetted with water. However, by selecting the gap between the surface (mirror) of the oil and the plane of the inlet into the vortex chamber, the likelihood of such wetting can be significantly reduced. Using different adhesion ability of liquids of different nature (oil-water) to the same surface, it is possible to select such material of the funnel surface that only oil will rise on it. Such material can be applied in the form of a coating on a part of the surface of the funnel near its top. Calculations show that when performing the profile of the funnel for hyperbole, it is possible to reduce the flow of water into tank 12 to zero.

 Thus, the proposed oil gathering device, in comparison with the known technical solutions, has the feature that it does not require immersion of the oil collector in water and provides high-quality separation of oil from water without additional mechanisms. In this case, a vortex flow is created in the device not in an aqueous medium, as is the case for all analogues, but in an air environment. Moreover, such an air vortex is double — one in the vortex chamber, the other in the zone of the inlet to the vortex chamber. As a result of this, the efficiency of oil absorption into the inlet of the vortex chamber is increased, which ensures high collection efficiency of spilled oil, and the energy consumption for creating vortex flows is reduced.

 Tests of the model of the proposed device with a skirt diameter of 7 in 600 mm showed its productivity of 10 tons of collected oil per hour. Moreover, the small overall dimensions of the device make it possible to effectively collect oil even with waves of 7-8 points.

 The proposed device can also be used to collect spilled oil products from solid soil, but in this case, the device itself must be installed on a movable chassis so that the device can be moved in accordance with the relief of the area for collecting spilled oil products. But it is precisely the difficult terrain, as a rule, that requires the constancy of the gap between the mirror of the spilled oil and the plane of the inlet into the vortex chamber. To this end, the proposed device must be equipped with a system for automatically maintaining the required gap between the mirror of spilled oil products and the plane of the inlet (top plane) of the truncated profiled funnel 9. This system is not shown in the drawing.

Sources of information
1. Copyright certificate of the USSR 730930, cl. E 02 B 15/04, publ. 04/30/80, Bull. 6.

 2. Copyright certificate of the USSR 1133343, cl. E 02 B 15/04, publ. 1/7/.85, Bull. 1.

 3. USSR copyright certificate 472907, cl. E 02 B 15/04, 1973.

 4. Copyright certificate of the USSR 709003, cl. E 02 V 15/04, 63 V 35/32, publ. 01/05/80, Bull. 1.

 5. Copyright certificate of the USSR 1516578, cl. E 02 B 15/04, publ. 10/23/89, Bull. 39.

Claims (4)

 1. A device for collecting oil products, in particular from the surface of the water, including a vortex chamber with an inlet and an outlet for the collected oil, a drive for its rotation, a swirl, floats, a power frame, a tank for accumulating collected oil, a pipeline, a pump, characterized in that the vortex chamber consists of a cover, which is a body of revolution, axially fixed to the motor shaft, and the bottom of the cover is profiled and mated with a cylindrical skirt of the cover, while on the plates radially mounted in the cover along its periphery, as on a saw On the other hand, the bottom of the vortex chamber is fixed, made in the form of a truncated funnel-shaped top downwards, the base of the funnel forming an annular uniform perimeter gap with the skirt of the lid, which is the exit from the vortex chamber, and the entrance to the vortex chamber is an opening at the top of the funnel, an additional swirl is installed in the funnel, made in the form of profiled flat plates radially fixed outside the funnel near its top, and all the swirl plates are located in the cap, flat be cut is parallel to the inlet plane and the mirror plane of spilled oil.  2. The device according to claim 1, characterized in that the inner surface of the lid and funnel of the vortex chamber is profiled so as to minimize gas-dynamic losses and improve the quality of separation of water and oil, while the inner surface of the profiled funnel is a hyperboloid of rotation and is coated on it.  3. The device according to any one of paragraphs. 1 and 2, characterized in that the drive on the power frame is mounted with the possibility of its movement along the axis of the drive shaft to regulate the gap between the oil mirror and the plane of the top of the truncated profiled funnel.  4. The device according to any one of paragraphs. 1-3, characterized in that the power frame of the device with tanks for collecting oil is mounted on a movable chassis with an engine, and the device itself is equipped with a system to automatically maintain the required gap between the oil mirror and the plane of the top of the truncated profiled funnel.