SK6628Y1 - Device and method to the collection of floating pollutants to surface waters - Google Patents

Abstract

Device for collecting pollution floating on the water containing vacuum pump ( 3 ) , a collection container ( 2 ) and the suction member ( 1 ) comprising a positioning member ( 13 ) , an outlet ( 14 ) and the suction opening ( 11 ), the suction member ( 1 ) has stop faces ( 12 ) , which touches the draft line plane ( H ) intersects the line plane ( H ) , and side stop faces (12 ) with the plane of draft line plane ( H ) above the line plane ( H ) an angle alpha of 95 ø to 180 ø , a pump ( 3 ) is directly or via the connecting element ( 6 ) bondable to the outlet opening ( 14 ) the suction member (1 ) so that the vacuum pump ( 3 ) to the intake element ( 1 ) to create a vacuum , the outlet (14 ) is either above the line plane ( H ) in the section of the suction member (1 ) , where the stop faces (12 ) above the line plane ( H ) , or the stop faces ( 12 ) , the positioning member ( 13 ) to ensure positioning of the suction element ( 1 ) with respect to the water level such that the plane line ( H ) conforming to the surface of the water passed through the dirty air intake ( 11 ) or to draft plane ( H ) in contact with the lower edge of the suction opening ( 11 ) .

Description

Technical field

The technical solution relates to a collection device and a method for collecting pollutants floating on the water surface.

BACKGROUND OF THE INVENTION

Several devices and methods are currently used to separate pollutants floating on the surface of the water which require the polluted water to be transferred or pumped to a device which subsequently separates the pollutants from the water, either chemically or physically.

In cases where spillage or overflowing is difficult or impossible (tank, pool, lake, river, sea) or the pollutant is another liquid, the following methods are used:

Absorbent material of suitable structure, which must be collected mechanically after absorption, must be scattered on the water surface with a layer of pollutant (sieve with mesh size according to the fraction of absorbent substance, shovel, arbitrary container, etc.). Further processing of the absorbed substance is problematic, it is normally disposed of by incineration, which is environmentally unsuitable. Contaminated absorbent is hazardous waste.

A special floating pump (fire-fighting) with a collecting vessel and an adjustable overflow edge is placed on the water surface with the pollutant layer, through which the mixture of water and pollutant flows from the surface to the collecting vessel and from there pumped into the tank. The amount of water (from 50% to more than 90%) also flows through the overflow edge with the pollutant, the ratio depending on the thickness of the pollutant layer and the degree of water level ripple. This device cannot operate in very small layers of water or very thin layers of pollutant, especially if the pollutant is another liquid. The water ratio in such a mixture is high, therefore further separation is required, which usually cannot be carried out on site and therefore large volumes of water need to be transported to the site of further processing, which entails, among other disadvantages, particularly high costs.

A special vessel designed for this purpose only arrives on the water surface with a layer of pollutant. The vessel has a collecting chamber into which a mixture of pollutant and water from the surface flows through the overflow edge in the vessel. The mixture is pumped from the chamber into a separator which is part of the vessel. Separated pollutants and water have separate tanks and can be pumped from the vessel to another tank or tanker and water can be drained from the vessel. The amount of water (from 50% to more than 90%) also flows through the overflow edge with the pollutant, the ratio depending on the thickness of the pollutant layer and the degree of water level ripple. This device cannot operate at depths less than the waterline of the vessel (usually more than 1.5 m) and works very limited on very thin pollutant layers. It is dangerous to work with equipment on the river by the shore. The vessel shall be moved all the way towards the moving level of the pollution and shall be oriented in a straight line against the direction of movement of the pollution.

Large thicknesses of pollutants floating on the water surface are collected by conventional pumping. It is not possible to drain all pollutants by this method. Small water pollutant thicknesses can be pumped out when draining large amounts of water.

The essence of the technical solution

These deficiencies and limitations are eliminated by the proposed technical solution, the device for collecting pollutants floating on the water surface and the method of collecting pollutants floating on the water surface. The pollutant collection device comprises a vacuum pump, a collection tank, and a suction element comprising a positioning element, an outlet opening and a suction opening. The suction element further comprises a lead-in surface that touches or intersects the draft plane, either inside the suction element or outside the interior of the suction element. The inlet side of the lead-in surface shall have an angle α of 95 ° to 180 ° with the draft plane above the draft plane. The vacuum pump can be connected directly or by means of a connecting element to the suction element outlet opening so that the vacuum pump can create a vacuum in the suction element. The outlet opening is either above the draft plane in that part of the suction element where the lead-in surface is above the draft plane or is below the lead-in surface. The positioning element ensures that the suction element is capable of positioning against the water level so that the draft plane coinciding with the contaminated water level passes through the suction port or that the draft plane touches the lower edge of the suction port.

With such an arrangement, the vacuum pump of conventional construction generates in the suction element an air pressure which is necessary to achieve intensive air flow through the suction element over the water level. When the suction element is placed on the water contaminated by the floating substances, the vacuum in the suction element causes air to flow through the suction opening over the pollutants at the water level, which, due to aerodynamic forces, move along the water surface onto the suction surface of the suction element.

SK 6628 Υ1

It is preferred that the leading surface passes through the lower edge of the suction opening or starts at the lower edge of the suction opening, and / or the leading surface passes through the lower edge of the discharge opening or ends at the lower edge of the discharge opening.

It is also advantageous if the connecting element comprises a collecting tank which is connected to the suction element outlet opening and to the pump inlet opening.

In a most preferred embodiment, the lead side of the lead-in surface has an angle α of 145 ° to 170 ° with the plane of draft above the plane of draft.

The positioning element of the suction element against the water surface may be floats attached to the suction element or floats that are part of the suction element, or a mechanical connection to another floating element or vessel, or a mechanical connection to a solid object whose position against the contaminated water level is permanent, or a handle for grip by a human operator, or a stand laid on the bottom below a contaminated surface on which the suction element is positioned.

Multiple suction elements may be connected in parallel to the pump or collection tank.

Preferably, the suction opening comprises at least one aerodynamic element located at the upper edge of the suction opening extending the suction opening above the contaminated water level.

The intersection of the suction port of the suction element with the plane of draft may be in the form of a line, any open curve or any closed curve.

Advantageously, an inlet of an air-liquid separator is connected to the outlet of the suction element, the fluid outlet of which is connected to the collecting tank and the second, air outlet is connected to the pump.

A separator separating water from contaminants sucked in with water having two outlets can be placed on the liquid outlet of such a separator. One water outlet is connected to a water collection tank and the other outlet is connected to a collection tank for pollutants collected at the water surface. In a preferred embodiment, the suction element, the collecting tanks, the air-liquid separator, the separator separating water from the pollutants and the vacuum pump are one unit floating at the surface of the water.

The method of collecting pollutants floating on the water surface utilizes the described pollutant collecting device, which is positionable against the water surface so that the draft plane coinciding with the contaminated water level passes through the suction port or the plane of draft touches the lower edge of the intake port and / or .

The proposed technical solution has several advantages and some features unattainable by using the state of the art solutions.

Pollutants floating on the surface of the water can be collected without the use of additives, with a minimum proportion of water in the collected liquid (0 to 50% - depending on the layer thickness at the surface and degree of ripple), even from very shallow water (several mm) in the case of a single molecule layer of liquid at the water surface.

Equipment operating using the proposed technical solution does not require any other equipment except for the collection of the pollutant collected. Their activity can be largely automated and they are able to work continuously and automatically, only with supervision. For these reasons, the costs and time required to carry out the activity in question are minimized.

The device according to the present invention can be used on running water using only one wall, since suction of the pollutant floating on the surface of the water near the wall prevents the underflow of the pollutant collected from the bottom wall, which is common in the prior art, and therefore it is necessary to build multiple walls downstream of the water stream. It can also be used on the undulating water surface when the suction element is floating, without substantially increasing the proportion of water in the withdrawn liquid. By using a system of floating suction elements, it is possible to carry out the activity on a rough sea level.

The use of the device according to this invention is technically possible in a wide range of capacities, expressing the quantity of liquid separated and withdrawn from the water surface, from several liters / hour. up to thousands of m ³ / h, with a very favorable ratio between the power input required for the operation of the equipment and its output, approximately 0.5 kW of power input for a working output of 1 m ³ / h, that is 0.5 kWh / m ³ taken liquid spilled on the water surface.

BRIEF DESCRIPTION OF THE DRAWINGS

Fig. 1 shows a block diagram of a device for collecting pollutants floating on the surface of a water comprising a vacuum pump 3, a collecting tank 2 and a suction element 1 comprising a positioning element 13, an outlet opening 14, a suction opening 11 and a run-in surface 12 intersecting the water plane H inside the suction element 1, the vacuum pump 3 is connected by means of a connecting element 6 to the outlet opening 14 of the suction element 1 and the outlet opening M is above the plane of draft H in that part of the suction element 1 where the leading surface 12 is above the plane of draft H.

SK 6628 Υ1

Fig. 2 shows a block diagram of an apparatus according to an exemplary embodiment 1.

Fig. 3 shows a block diagram of an apparatus according to an exemplary embodiment 2.

Fig. 4 shows a block diagram of an apparatus according to an exemplary embodiment 3.

Fig. 5 shows a block diagram of an apparatus according to an exemplary embodiment 4.

Fig. 6 shows a block diagram of an apparatus according to an exemplary embodiment 5.

Fig. 7 shows a block diagram of the device according to the embodiment 5 of the suction opening 11 of the suction element 1 with the plane of draft H.

Fig. 8 shows a block diagram of the device according to the embodiment 6 of the suction opening 11 of the suction element 1 with the plane of draft H.

Fig. 9 shows a block diagram of a device according to an embodiment of the suction opening 11 of the suction element 1 with the plane of draft H.

Fig. 10 shows a block diagram of an apparatus according to an exemplary embodiment 8.

and intersection detail and intersection detail and intersection detail

EXAMPLES

Example 1

An apparatus for collecting pollutants floating on the surface of the water according to the present invention was designed for the disposal of local contamination of water by liquids of less specific weight than water, mainly by petroleum products.

The device consists of two separate assemblies, a suction element 1 and a machine room. The machine room comprises a collecting tank 2 with a safety fill switch and an electrically driven vacuum pump 3 resistant to aggressive liquids. The vacuum pump 3 is connectable by means of a connecting element 6 to the outlet opening 14 of the suction element L The connecting element 6 is a hose with quick couplings.

The suction element 1 is provided with a positioning element 13 - a handle for gripping by the human operator. The human operator, by means of the handle, ensures that the suction element 1 is capable of positioning against the water surface such that the draft plane H coincident with the contaminated water level passes through the suction port 11 or the draft plane H touches the lower edge of the suction port H. The upper and lower boundaries of the possible draft plane H are marked on the suction element 1. The intersection of the suction opening of the suction element 1 with the plane of draft H has a line shape.

The suction element 1 comprises a leading surface 12 which intersects the plane of draft H inside the suction element 1 and the guide side of the leading surface 12 of the animal with the plane of draft H above the plane of draft H at an angle of 165 °. The lead-in surface 12 passes through the lower edge of the intake port H. The lowest point of the lead-in surface 12 is 3 mm below the waterline H and the highest point of the lead-in surface 12 is 22 mm above the waterline H. The air inlet 11 is provided with an aerodynamic element 15 located on the upper edge of the opening 11 to increase efficiency.

The outlet 14 has a horizontal axis. The outlet opening 14 is above the plane of draft H in that part of the suction element 1 where the leading surface 12 is above the plane of draft H.

If the amount of dirt collected exceeds the volume of the recovery tank 2, after the suction has been switched off, the recovery tank 2 can be emptied through the drain valve and the contamination collection can continue. With the suction element 1, it is possible to manually collect impurities from any water surface, available to human operators, or by placing them on the bottom to collect contamination from a very low water depth of 3 mm.

Operation of the device requires connection to the mains or portable generator. Design of the device is possible to arbitrary voltage and frequency according to the country of use. Technological output of the device is 2,000 lit./hours. pollution collected from water level. Installed power is 0.8 kW. The device is intended for transport to a place of contamination in a common vehicle of the combi, pick up, van, offroad etc. type.

Example 2

An apparatus for collecting pollutants floating on the water surface according to Example 1 was constructed. The lead-in surface 12 of the suction element 1 starts at the lower edge of the suction opening 11. The lead-in surface touches the plane of draft H and H angle α 180 °. The discharge opening 14 has a horizontal axis and the leading surface 12 ends at the lower edge of the discharge opening 14. The connecting element 6 comprises a collecting tank 2 which is connected to the exhaust opening 14 of the suction element 1 and to the pump inlet opening 3.

SK 6628 Υ1

Example 3

An apparatus for collecting pollutants floating on the water surface according to Example 1 was constructed. The vacuum pump 3 is directly connected to the outlet opening 14 of the suction element 1. The vacuum pump 3 is connected to the collecting tank 2 by a hose.

Example 4

An apparatus for collecting pollutants floating on the water surface according to Example 1 has been constructed. The leading surface 12 of the suction element 1 passes through the lower edge of the suction opening 11 and intersects the draft plane H outside the interior of the suction element 1 before entering the leading surface into the suction element 1. 11 is not equipped with an aerodynamic element 15.

Example 5

An outlet for collecting pollutants floating on the surface of the water according to Example 1 has been constructed. The outlet 14 has a vertical axis and is above the leading surface 12, in part above the plane of draft H, the end of the leading surface 12 not connected to the outlet 14. 13, the stand is placed on the bottom below a contaminated surface on which the suction element 1, the vacuum pump 3 and the recovery tank 2 are fixed.

Example 6

A device for collecting pollutants floating on the water surface according to this technical solution was designed for liquidation of oil accidents on medium-sized water bodies and watercourses.

The device consists of a floating suction element 1 and a machine room as a superstructure of a truck. The suction element 1 has floats used as the positioning element 13. The intersection of the suction opening 11 of the suction element 1 with the plane of draft H has a quadrilateral shape. The suction element 1 comprises a lead-in surface 12 which intersects the plane of draft H within the suction element 1 at a height of 20 cm above the lowest point of the lead-in surface 12 and the lead side of the lead-in surface 12. The suction port 11 is provided with an aerodynamic element 15 located at the upper edge of the suction port 11.

The outlet opening 14 has an axis parallel to the waterline H and the lead-in surface 12 touches the lower edge of the outlet opening 14 at the top above the waterline H at a height of 20 cm above the waterline H. The outlet opening 14 of the suction element 1 is provided with a quick coupling suction hose. The suction element 1 is designed for a quiet surface or a slight wave up to 20 cm.

The engine room is one assembly that automatically leveles regardless of the position of the vehicle, which is necessary for the operation of the separator 5. The engine room contains an air-liquid separator 4 which has a quick coupling at the inlet for connection with the connecting element 6 - suction hose. a suction element 1, a motor-driven vacuum pump 3, the inlet of which is connected to the air outlet of the separator 4 and the outlet is discharged through the louver into the air, a separator 5 separating water from the pollutants collected. At the liquid outlet of the separator 4 is a separator 5 separating the water from the contaminants sucked in with the water, having two outlets, one outlet for water is connected to the water collecting tank 21 and the other outlet is connected to the collecting tank 22.

The collecting tanks 21 and 22 are part of the engine room and are equipped with pumps for continuous pumping into external tanks so that the equipment can operate continuously even if the volume of the contaminated collection is greater than the volume of the collecting tank 22.

The engine room is a superstructure for a truck intended for difficult off-road conditions, it is autonomous, powered by a 50 kW diesel engine. Technological output of the device is 100 000 lit./hours. oil products separated and collected on the water surface. The combustion engine of the superstructure is directly driven by the clutch pump 3 and the alternator 24 V DC. The electrical system of the superstructure is designed for leveling the superstructure and the control system of the technology. Technological process is automatic, controlled by PLC system with sensors of operating states and values.

The operation of the whole technology is automatic and requires no operator. The workforce is required before starting work to position the suction element 1 at a suitable location on the water surface, to connect the suction element 1 to the separator inlet 4 with hoses and to connect the discharge hoses to the collecting tanks 21 and 22. after work on loading the suction nozzle, suction and discharge hoses onto the vehicle. The use of silent walls is suitable for large streams.

Example 7

An apparatus for collecting pollutants floating on the surface of the water according to Example 6 has been constructed, wherein the intake element 1 and the engine room comprising the collecting tanks 21 and 22, the separator 4, the separator 5 and the vacuum pump 3 are

SK 6628 Υ1 one unit floating on the surface of the water, which unit is equipped with a common positioning element 13, namely floats.

Example 8

A device for collecting pollutants floating on the surface of the water was designed for liquidation of large oil spills away from the shore, on large bodies of water with low waves up to 10 cm and a minimum depth of 30 cm. The device is the same as in Example 6 with a different suction element L

The suction element 1 has floats used as the positioning element 13. The intersection of the suction opening 11 of the suction element 1 with the plane of draft H has a circular shape. The side of the lead-in surface 12 of the animal with the plane of draft H above the plane of draft H angle α 165 ° and intersects at a height of 10 cm above the lowest point and 10 cm below the highest point of the lead. The outlet opening 14 continues with a shaped pipe connection, ending with a horizontal axis at the level of immersion level H and a quick coupling for connection with the suction hose. The suction element 1 is provided with suspension eyelets by which the suction element 1 can be moved by the operator of the device from the shore or the lifeboat (i.e., the positioning elements 13 are a mechanical connection to a solid object or other floating element (vessel) and floats).

Example 9

A device for collecting pollutants floating on the water surface according to this technical solution was designed for liquidation of oil accidents at sea and ocean up to wave height of 6 m.

The device comprises a machine room and six floating suction elements 1 connected in parallel by means of connecting elements 6 to the machine room. Each of the six suction elements 1 is structurally built into a separate modified ISO 1C floating container such that the container itself is also the positioning element 13 of the suction element 1 and has a built-in hydromechanical position stabilizer maintaining the immersion level H against the contaminated water level.

The suction element 1 has a suction opening 11 whose intersection with the plane of draft H has the shape of a segment of the length of the container. The suction element 1 comprises a leading surface 12 which intersects the plane of draft H inside the suction element 1, wherein the lower edge of the leading surface 12 is 0.75 m below the plane of draft H and the upper edge of the leading surface 12 is 0.75 m above the plane of draft H. the side of the lead-in surface 12 with the plane of draft H above the plane of draft H angle α 145 °. The outlet opening 14 has a horizontal axis in the center of the rear wall of the container, opposite the suction opening 11, at the level of the draft plane H, and is provided with a quick coupling for connecting the suction hose.

The suction element 1 has on both sides of the suction opening 11 at the level of the water plane H the lifting eyes for fastening the silo wall and / or the tow rope for moving the suction devices 1 on the sea level by tugs or winches.

The machine room comprises a separator 4 to which six suction elements 1 are connected in parallel and a pump

3. The air outlet of the separator 4 is directly connected to the pump inlet 3 and the pump outlet 3 is led through labyrinth blinds to the outside. The liquid outlet of separator 4 is equipped with a hose quick coupler for connection to separator inlet 5. The engine room also includes an internal combustion engine which directly drives the pump 3 through the coupling and generators of 3 x 400 V AC and 24 V DC electrical systems. devices. The engine room is installed in an ISO 1AA container and has an external fuel tank in an ISO 1C container with a capacity of 27,000 liters. fuel. The separator 5 has five separate separation chambers connected in series, each being embedded in a separate ISO 1AA container. The inlets and outlets of the separator chambers 5 are equipped with hose couplings. The inlet of the first chamber of the separator 5 is connected by a hose to the liquid outlet of the separator 4 and the two outlets of the last chamber of the separator 5 are connected to two separate inlets of the collecting container. The collection container comprises collection tanks 21 and 22 together with pumps for emptying the collection tank 21 to the sea level and the collection tank 22 to the rescue tanker.

The device is constructed as a kit of containers ISO 1AA and ISO 1C, intended to be stowed and fixed on board a rescue ship and for intervention from the deck of a rescue ship. The technological output of the plant is 2,000 m ³ / hour. oil products separated and harvested on the water surface. The installed capacity is 2,000 kW. Technological process is automatic, controlled by PLC system with sensors of operating states and values. The operator is required before starting work on positioning the suction elements 1 against the water level, their connection by means of walls, their connection by ropes with auxiliary tugs or winches, connection of the suction elements 1 with separator entrances 4 by hoses. each other and connecting the last one to the collecting container inlets with the collecting tanks 21 and 22, connecting the discharge hoses to the collecting tanks 21 and 22, during work on shifting the suction devices 1 over the water surface and supervising the operator, to the rescue craft.

SK 6628 Υ1

Industrial usability

The proposed technical solution is applicable for elimination of ecological accidents on water surfaces caused by any substance, especially liquid incompatible with water and with lower density than water, or for other processes, where similar separation of two liquids is necessary, it is not necessary that one of the liquids was water.

Claims (12)

PROTECTION REQUIREMENTS An apparatus for collecting pollutants floating on the surface of a water, comprising a vacuum pump (3), a collection tank (2), and a suction element (1) comprising a positioning element (13), an outlet opening (14) and a suction opening (11); characterized in that the suction element (1) comprises a lead-in surface (12) which touches or intersects the plane of draft (H) and the guide side of the lead-in surface (12) of the animal with the plane of draft (H) above the plane draft (H) angle α from 95 ° to 180 °; the vacuum pump (3) can be connected directly or by means of a connecting element (6) to the outlet opening (14) of the suction element (1) so that the vacuum pump (3) can create a vacuum in the suction element (1); the outlet opening (14) is either above the plane of draft (H) in that part of the suction element (1) where the leading surface (12) is above the plane of draft (H) or is below the leading surface (12); and wherein the positioning element (13) ensures that the suction element (1) is capable of positioning against the water surface such that the draft plane (H) coincident with the contaminated water level passes through the suction port (11) or touches the draft plane (H) the lower edge of the suction port (11). Pollutant collection device according to claim 1, characterized in that the leading surface (12) passes through the lower edge of the suction port (11) or starts at the lower edge of the suction port (11) and / or the leading surface (12) passes through the lower edge the outlet opening (14) or terminating at the lower edge of the outlet opening (14). Pollutant collection device according to claim 1 or 2, characterized in that the connecting element (6) comprises a collecting tank (2) which is connected to the outlet opening (14) of the suction element (1) and to the pump inlet opening (14). 3). The pollutant collection device according to any one of claims 1 to 3, characterized in that the contact side of the lead-in surface (12) has an angle α of from 145 ° to 170 ° with the plane of draft (H) above the plane of draft (H). . A device for collecting pollutants according to any one of claims 1 to 4, characterized in that the positioning element (13) of the suction element (1) against the water level is floats secured to the suction element (1) or the floats which are part of the a suction element (1), or a mechanical joint with another floating element or vessel, or a mechanical joint with a fixed object, whose position against the contaminated water is steady, or a hand grip for human operator, or a stand laid underneath the contaminated surface the suction element (1) is positioned. A device for collecting pollutants according to any one of claims 1 to 5, characterized in that a plurality of suction elements (1) are connected in parallel to the pump (2). The pollutant collection device according to any one of claims 1 to 6, characterized in that the suction port (11) comprises at least one aerodynamic element (15) located at the upper edge of the suction port (11) extending the suction port (11). ) above the polluted water level. The pollutant collection device according to any one of claims 1 to 7, characterized in that the intersection of the suction port (11) of the suction element (1) with the plane of draft (H) is in the form of a line, arbitrary open curve or arbitrary closed curve. . A device for collecting pollutants according to any one of claims 1 to 8, characterized in that the inlet of the air-liquid separator (4) is connected to the outlet of the suction element (1), the liquid outlet of which is connected to the collecting tank (2). ) and a second air outlet is connected to the vacuum pump (3). The pollutant collection device according to claim 9, characterized in that a separator (5) separating water from the contaminants sucked in with water is provided at the liquid outlet of the separator (4), having two outlets, one outlet for the water outlet. into the water collection tank (21) and the second outlet is connected to the pollutant collection tank (22). The pollutant collection device according to claim 9 or 10, characterized in that the suction element (1), the collecting tanks (21) and (22), the separator (4), the separator (5) and the vacuum pump (3) are one. the whole floating on the surface of the water. SK 6628 Υ1 Method for collecting pollutants floating on the water surface, characterized in that the pollutant collecting device according to any one of the preceding claims is positioned against the water surface so that the draft plane (H) coincides with the contaminated water level passing through the suction port (11) or that the plane of draft (H) touches the lower edge of the intake port (11) and / or the run-in surface 5 (12).