NL1015965C2 - Method for bulk storage of minerals, coal, secondary building material and similar involves materials held under water until required to be removed for delivery - Google Patents

Abstract

The method for bulk storage of minerals, coal, secondary building material (5) and similar involves the materials being held under water until required to be removed for delivery. Before committing the material to the storage location (20), the bottom of the location is provided with a screen layer which can be formed by a primary layer of the materials or a layer of geo-textile. Prior to placing the materials in store, they are divided into fine and coarse fractions, the coarse fractions being placed in store and the fine fraction transferred to a dry location. Before delivery from store the materials are drained. In the storage location, fresh water is used.

Description

Title: Method for storing bulk material under water, and using storage for that method.

The present invention relates to a method for storing bulk material, such as ores, coal or secondary building materials and the like, wherein the bulk material is supplied to a landfill, the bulk material is kept in storage at the landfill and the bulk material is subsequently stored. from the landfill. The invention furthermore relates to a storage to be used for that method.

For the sake of clarity, it is noted that the term "bulk goods" in the present text refers to the following products: ores, such as, for example, iron ore, coal such as coal, iron pellets and scrap, granulates and secondary building materials such as demolition waste, quarry stone and gravel.

In the state of the art, it is customary to dump bulk material into a storage facility in the open air. The bulk material is usually kept in storage in mountains. With a suitable means of transport such as a ship or a train, the bulk material is supplied to the storage. These means of transport are, for example, unloaded with the aid of cranes. Transport means may be present on the storage site, such as for instance stackers, reclaimers and conveyor belts for distributing the bulk material from the unloading location over a larger storage area.

Storing bulk material in the open air has a few important disadvantages. In the first place, the storage of bulk materials usually causes a lot of dust. The dust can be spread under the influence of the wind. That means not only material loss but also inconvenience for surrounding sites and personnel.

Under the influence of the rain, substances, including environmentally harmful substances, can wash out of the bulk material and end up in the groundwater.

In addition, heating can occur in bulk material during storage in the open air. The scalding 30 can lead to fire or even explosions. This not only brings danger, but also causes a loss of quality of the bulk material.

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It is the object of the present invention to provide a method of the type mentioned in the preamble, wherein the drawbacks of the method according to the prior art are avoided as much as possible. That goal is achieved by keeping the bulk material in water at the dump.

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By storing the bulk material in water, the aforementioned problems, such as dust formation and scalding, which are associated with the storage of bulk material in the open air, are prevented. Moreover, it is prevented that substances can leach out of the bulk material. Possible oxidation reactions in the bulk material will also proceed much slower.

Moreover, with the aid of the underwater storage according to the present invention, it is achieved that the noise nuisance associated with the storage of coal is lower than usual.

According to the invention, the bulk material can be dumped into an existing basin under water. This basin can for instance be a part of a harbor. A collection basin can also be built up for pouring the bulk material, for example with the help of dam walls.

For the sake of clarity, it is noted that a basin in the present text means any cavity opening or container that is suitable for receiving a certain amount of bulk material. Such a basin can be created by excavating soil, by casting off a space above or below water, or in any other desired manner.

When the landfill for storing bulk material in water is divided into several compartments, it can be achieved that the space for storing the bulk material is utilized more effectively, and that the possibility is obtained of storing different types of bulk material in separate compartments without mixing. .

The landfill site preferably has a flat bottom so that the space is used optimally.

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According to the invention, it is possible for the soil at the site of the landfill to be provided with a protective layer for dumping the bulk material. This measure ensures that the bulk material cannot mix with the bottom material of the landfill. The moment the bulk material is removed again, the bulk material can be removed up to the protective layer, without running the risk that the bottom material underneath the bulk material is also taken along.

According to the invention, it is possible for the protective layer to be built up from a primary layer of bulk material, to which a secondary layer of bulk material is applied.

When, for example, coal is dumped at the landfill, it is possible that a layer of coal is first poured onto the bottom that is intended to remain on the bottom. The rest of the coal is then deposited on this primary layer of coal. When the coal is removed again, digging is done so far that the primary layer of coal remains on the bottom. In this way an inexpensive and highly effective shielding of the soil is achieved.

Alternatively, it is possible that the screen layer is built up from a layer of geotextile.

This layer of geotextile can be fixed to the bottom with the aid of, for example, concrete blocks. It is clear that also other separating layers consisting of, for example, stone paving, asphalt or any other suitable material are possible for providing a suitable protection of the soil at the location of a landfill.

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According to the invention, when bulk material is stored in water, the bulk material will be wet when the bulk material is removed from the landfill site. For various materials, the presence of water in the bulk material, for example due to the water adhering to the bulk material, is not disadvantageous. For other materials, such as coal, for example, a high percentage of water in the material is not acceptable. This means that one must try to keep the percentage of water in the bulk material as low as possible when removing it. To achieve this, it is advantageous to separate the bulk material into a fine and a coarse fraction prior to dumping at the landfill, after which the coarse fraction is dumped at the landfill and the fine fraction is stored in a dry storage. 30

In particular, the fine fraction of the bulk material, also called the fines, will contain a relatively high percentage of water when it is removed from the wet storage. By attaching water to the outside of the fines, the percentage of water in the fines can rise to 50% or 1015969 more. By removing the fines from the bulk material before pouring the bulk material, it can be achieved that these parts are stored dry, without the risk of the water adhering to the fines.

According to the invention, it is furthermore possible that when removing the bulk material from the landfill, the fine fraction is added from the dry storage to the discharge flow. This measure ensures that no material loss occurs when separating the coarse and fine fraction from the bulk material.

Furthermore, according to the invention, it is possible for the bulk material to be dewatered during its removal.

According to the invention, the aim is to keep the bulk material in storage in fresh water.

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According to the method according to the invention, it is furthermore possible to maintain a water level at the site of the landfill that is higher than the local groundwater level.

This measure ensures that the landfill can also be separated by means of a water-permeable soil protection. In order to prevent this non-water-permeable soil separation from bursting open under high water pressure, it is necessary to keep the water level in the basin higher from the rise height of the groundwater.

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In addition to the method described above, the present invention also provides a storage for holding bulk material, such as ores, coal, secondary building materials and the like, which storage is provided with: - means, such as cranes, for supplying the bulk material to the storage - a landfill for receiving the bulk material, and - means for discharging the bulk material from storage.

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The storage according to the invention is characterized in that the landfill comprises at least one basin, suitable for holding water, for storing bulk material in the basin.

For the sake of clarity, it is noted that a basin in the present text refers to any cavity opening or container suitable for receiving a certain amount of bulk material. Such a basin can be created by excavating soil, by casting off a space above or below water, or in any other desired manner.

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According to the invention, it is possible that the basin is provided on the underside with a bottom shield for separating bulk material present in the basin and the bottom material. In addition, it is possible that the bottom shielding comprises a primary layer of bulk material. Furthermore, it is possible that the soil protection comprises stone dumping, asphalt, geo-textile and / or concrete blocks.

According to the invention it is possible that the storage comprises means, such as mooring posts, for mooring ships. It is possible that the means for supplying the bulk material to the storage comprise floating cranes.

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Bulk goods, such as ores and coal, are usually supplied by sea-going vessels. These ships are unloaded with cranes that place the bulk material on a storage next to the quay. The unloading of sea-going vessels and the storage of bulk material right next to the quay places high demands on the infrastructure in a port. The equipment required for unloading the ships is without exception heavy. This means that it must be possible to reinforce the quay walls and storage areas in such a way that they can withstand the heavy load of the required equipment. Investments made in, for example, the construction or renovation of ports to make them suitable for storing bulk materials are generally so high that long depreciation periods, of 30 years for example, are necessary.

The storage according to the present invention is particularly suitable for providing temporary storage of bulk goods. If one wishes to make a port 1015965 6 suitable for storing bulk goods, for example for a period of 10 years, one can form a basin in the port by means of surrounding sheet piling. In addition to this basin, a mooring facility for ships is provided, for example by placing mooring posts. Floating cranes can be placed between this mooring facility and the 5 jaws. With the help of these floating cranes the ships can be unloaded and the bulk material can be left in the basin. Investments required for providing such storage are relatively low. Moreover, when they become superfluous, the cranes can be shipped to another place of use. The sheet piles that are necessary for the construction of a basin are reusable or recyclable.

In order to make the storage according to the invention suitable for different materials, it is possible for the means for supplying the bulk material to the storage to comprise separating means, for removing a fine fraction from the bulk material.

Furthermore, it is possible that the means for discharging the bulk material from the storage comprise conveyor belts and means for transporting the bulk material from the storage to the conveyor belts. It is possible here for the means for discharging the bulk material to comprise means, such as screen bends, for dewatering the bulk material to be discharged.

The invention will be explained below with reference to the accompanying figures, in which: Figure 1 shows a top view of a storage for bulk materials according to the prior art.

Figure 2 shows a side view of the storage according to Figure 1 along the section line II-II.

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Figure 3 shows a top view of a storage according to the invention.

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Figure 4 shows a side view of the storage according to Figure 3, via the line IV-IV.

Figure 5 represents a detail of a portion of the storage according to Figures 3 and 4, 5 on the water side.

Figure 6 shows a possible embodiment of a dewatering device according to the invention.

Figure 1 shows an above-ground storage 1 for the storage of bulk materials, according to the prior art. The storage 1 comprises a quay 2 from which ships, such as sea-going vessels 3, can moor. The sea-going vessels are unloaded with the aid of fixed cranes 4. The cranes 4 apply bulk material 5 to a first landfill 6. On the storage 1, several conveyor belts 7 are placed which are used to distribute the bulk material 5 over the entire storage. These conveyor belts 7 work together with stackers / reclaimers 8. These machines are suitable for transporting bulk material from a conveyor belt to a storage 6 and for taking bulk material 5 away from the dump 6 again in order to place it on a conveyor belt 7 again. At the end of storage 1, means 10 are present for supplying bulk material 5 to transport means such as, for example, inland vessels or trucks for further discharge of the bulk material 5 to, for example, an end user.

Figure 2 shows a cross-section of the storage 1 according to figure 1 along the intersection line II-II in figure 1. In figure 2 it can be seen that the ship is unloaded with the aid of a crane 4. Between the crane 4 and the means 10 for supplying bulk material 5 * to transport means for discharging the bulk material, different mountains of bulk material 5 can be seen.

From the above-described storage 1 according to the state of the art, it appears that the infrastructure required for storing bulk material 5 in such a manner requires relatively high investment costs. The quay 2 of storage 1 must be of heavy construction. The cranes 4 that are mounted on the quay 2 are without exception heavy. With the help of the stackers / reclaimers 8, it must be possible to supply the material from the * 615965 8 conveyor belts 7 to the different landfills 6 and to pick up the material from these landfills 6 again and deliver it to the conveyor belts. This means that these machines are equipped with, for example, a heavy digging wheel for picking up the bulk material from the landfill 6. This makes the equipment heavy and relatively expensive.

As described in the introduction, the dumping of bulk material in the open air has various disadvantages. Bulk goods are regularly the cause of dust nuisance. Relatively much space is required for dumping the bulk material. Substances in the bulk material can wash out of the mountains of bulk material and end up in the groundwater and, moreover, it is possible that the bulk material causes scalding, as a result of which a fire can occur and as a result of which material loss will occur in the bulk material.

The storage according to figures 1 and 2 requires relatively much space. After all, when bulk material is dumped above the ground on a flat bottom, a certain amount of space is left free between the two adjacent mountains of material, in order to prevent the material from mixing.

The slope of the mountain of bulk material that is formed is determined by the internal friction of the material. The smaller this internal friction is, the more space is required for forming a relatively high pile of bulk material.

Figure 3 shows a storage 20 according to the invention. In the case shown in Figure 3, a basin or storage 20 enclosed by sheet pile walls is built in the water and connected on one side to a quay 2. The storage 20 comprises mooring posts 21 to which ships 3 can moor. With the aid of walls 22, such as, for example, partition or partitioning walls, compartments 23 can be separated in the water. These sheet piles 23 can be connected at the top with the aid of a concrete beam. These concrete bridges can be used for carrying transport means such as, for example, cranes 24. Floating cranes 26 are located between the sea side 25 of the storage 20 and the mooring posts 21. A vessel 3 can be unloaded with the aid of these floating cranes 26. The bulk material is poured into the basins 23 by means of the floating cranes. If it is desired to remove bulk material 5 from the storage 20, this can be excavated 1015965 9 with, for example, the overhead cranes 27 and discharged with the aid of conveyor belts 7. The structure of the storage 20 according to the invention is relatively simple and therefore inexpensive. The parts used, such as the sheet pile walls 32, are either reusable or recyclable. Moreover, the capital-intensive cranes 26 can be sailed to another location if desired. This means that a storage 20 according to Figure 3 can be set up for a relatively short period and yet can work cost-effectively. Until now it has been customary in the state of the art that a storage for bulk material is arranged for a minimum period of use of 30 years. The storage 20 according to Figure 3 can be operated cost-effectively, even when the storage 20 is used for a much shorter period.

Figure 4 shows a side view of the storage according to Figure 3, and according to the section IV-IV. It can be seen again in Figure 4 that a vessel 3 can be unloaded with the aid of a floating crane 26. This figure 4 clearly shows the bridges 28 that are placed on the top of the walls 22. Figure 4 also shows that a relatively large amount of bulk material can be stored in the reservoirs. The height of a quantity of bulk material 5 is no longer dependent on the internal friction of the material, since the bulk material 5 can be crashed against the walls 22 or 32. This means that the bulk material can be stored 5 space-effectively.

The construction of, inter alia, the mooring side of the storage 20 is further discussed in detail with reference to figure 5. Figure 5 shows a part of the storage 20 according to figures 3 and 4. Figure 5 shows a number of supports 30 which serve to support a bridge 38, for example of concrete, for the support of a conveyor belt and cranes 24. The quay according to figure 4 is laid in the water. The combination wall consists of a sheet pile wall 32 and tubular pile 31, behind which rows, for example two rows of prefab concrete piles 30, are driven. A steel HE profile 30 37 is laid over the concrete piles and the combination wall 31.32. Concrete slabs are laid over this, onto which a pressure layer is poured.

In order to absorb the horizontal load exerted on the combination wall, struts 39 are driven behind the combination wall.

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As a possible exemplary embodiment, use can be made of the following materials. A combination wall can be constructed from a tube: 711.2 * 9 with a length of 34 meters. The prefab concrete piles can consist of 320 * 320 mm2, with a length of 18 meters. HE-550B profiles can be used for the HE profiles. The concrete deck can have a thickness of 300 mm.

The bulk material 5 rests against this combination wall 31.32. On the left-hand side of this combination wall, ground 33 rests which forms a slope 34 which, for example, makes an angle of inclination with a ratio of 1: 3. A shield 35 is provided on the underside of this slope 34. To prevent mixing of the bulk material 5 with the underlying soil in the basin, a shield is provided, for example a non-woven construction 36.

By using the storage 20 according to the present invention, the bulk material 5 will become wet in storage. Especially with coal, it is important that the final moisture content in the coal must remain limited. It is possible to dump coal in its entirety in the storage 20. However, it is also possible that the coal is separated into a coarse and a fine fraction at the time of delivery. This fine fraction is also referred to as "fines". The coal can be separated, for example, by means of a wind sifter. The coarse fraction is then stored in the storage 20, and is therefore stored wet. The fines are stored dry. When the bulk material 5 is discharged, the wet coarse fraction is first dried. The fines are then fed back to the dried coal and then the whole of dried coal and fines is discharged in the direction of a means of transport, such as for example an inland vessel.

A wind sifter consists of a large, relatively simple casing, which is supplemented with large fans. These fans can blow away the finest parts (the percentage depends on the grain distribution) from a falling bulk stream. The air stream is passed through large cyclones in which the fine fraction is separated from the air stream. The fines or dust coal that is removed in this way from bulk material, such as coal, can be stored dry in a long flat shed. In such a shed there is room for the separate storage of various qualities. Storing this fine fraction of coal can be handled with simple equipment such as payloaders and movable belt conveyors. The removal of this coal from the flat shed can also take place with this equipment.

During the drying of the coarse fraction, a quantity of fines will again arise as a result of the pumping of the coal-water mixture. Moreover, due to imperfections during the wind sifting process, a percentage of fines is still present in the wet coal fraction. During drying, the wet fraction will therefore be separated into a relatively coarse fraction that is dried and discharged in the direction of a means of transport, such as for example an inland vessel, and a part of wet fines. These wet fines are dewatered with the aid of a centrifuge and / or a sieve belt press before they are discharged in the direction of the transport means. The dewatering of the wet coal fraction is shown in Figure 6. With the aid of a gripper 40, wet bulk material, such as coal 5, is placed on a conveyor belt 41. With the aid of this conveyor belt 41, the wet bulk material 5 is supplied to a drainage silo 42. On the one hand, dry bulk material 5 is discharged with the aid of a second conveyor belt 43. Water, with fines therein, is discharged in the direction via a transport line 44 on the other hand. of a separate fines basin 45. Via a conveyor line 46, water with fines therein is again supplied to the drain silo in order to be able to leak out there and to be discharged with the remaining dry bulk material by means of the conveyor belt 43.

Sieve bends can also be used for dewatering wet bulk material, such as dewatering coal. These can optionally be supplemented with sieves and / or dewatering tires. Sieve bends are simple inclined sieve plates through which the water can flow freely and the bulk material, such as the coal, shifts to a conveyor. Coals with a fraction of up to about 1 mm can be well-drained with the mentioned techniques. The fraction up to 0.125 mm is an addition thereto for dewatering using a centrifuge. The fines that are still found in the leakage water of the sieve bends are treated in a centrifuge or a sieve belt press.

In order to be able to remove the bulk material 5 again from the storage 20 according to the invention, use can be made of cutter suction dredgers, hydraulic cranes and bucket dredging mills. The dredging material can be equipped with an accurate positioning system to be able to remove large batches of coal from the underwater storage with great accuracy. Research by the applicant shows that with the aid of a cutter technique the highest cost-effectiveness is available. There is a direct relationship between the type of soil protection and the dredging technique to be used. A hard covering (consisting of block mats) combined with the requirement that the entire batch of coal must be removed from the underwater storage requires specialist dredging material. By making adjustments to a worm gear piston (which has been developed for, among other things, a spoil depot in Lake Ketelmeer), an accurate dredging technique is available. A "flapperhead" can also be envisaged. Such a head was specially developed during the Oosterschelde works for cleaning up zinc pieces.

It is noted that the method according to the present invention and the storage according to the present invention are particularly suitable for temporarily realizing an increase in the capacity for storing bulk material. Moreover, with the aid of the storage according to the invention, it is possible to make a port that has fallen into disrepair operational at relatively low investment costs.

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Claims (18)

1. Method for storing bulk material, such as ore and coal, secondary building materials and the like, wherein the bulk material is supplied to a landfill, the bulk material is kept in storage at the landfill for a certain time interval, and the bulk material is subsequently stored dump the dump, characterized in that the bulk is kept in water at the dump. 2. Method as claimed in claim 1, characterized in that for pouring the bulk material, the bottom at the location of the landfill is provided with a protective layer. Method according to claim 2, characterized in that the protective layer is built up from a primary layer of bulk material, to which a secondary layer of bulk material is applied. Method according to claim 2, characterized in that the protective layer is built up from a layer of geo-textile. 5. Method as claimed in any of the foregoing claims, characterized in that the bulk material for dumping at the landfill is separated into a fine and a coarse fraction, after which the coarse fraction is poured onto the landfill and the fine fraction is stored in dry storage. 6. Method as claimed in claim 5, characterized in that when the bulk material is discharged from the landfill, the fine fraction from the dry storage is added to the discharge flow. Method according to one of the preceding claims, characterized in that the bulk material is dewatered during removal thereof. Method according to one of the preceding claims, characterized in that the bulk material is stored in fresh water. * 015965 Method according to one of the preceding claims, characterized in that a water level is maintained at the site of the landfill that is higher than the local groundwater level. 10. Storage for holding bulk material, such as ores, coal, secondary building materials and the like, which storage is provided with: - means, such as cranes, for supplying the bulk material to the storage, - a dump for receiving the bulk material, and - means for discharging the bulk material from the storage, characterized in that the dumping site comprises at least one basin suitable for holding water, for storing bulk material in the basin. 11. Storage as claimed in claim 10, characterized in that the basin is provided on the underside with a bottom shield for separating bulk material present in the basin and the bottom material. 12. Storage as claimed in claim 11, characterized in that the bottom shielding comprises a primary layer of bulk material. 13. Storage as claimed in claim 11, characterized in that the bottom protection comprises stone dumping, asphalt, geo-textile and / or concrete blocks. Storage according to any of claims 10-13, characterized in that the storage comprises means, such as mooring posts, for mooring ships. 25 Storage as claimed in any of the claims 10-14, characterized in that the means for supplying the bulk material to the storage comprise floating cranes. 16. Storage as claimed in any of the claims 10-15, characterized in that the means 30 for supplying the bulk material to the storage comprise separating means for removing a fine fraction from the bulk material. f015965 17. Storage as claimed in any of the claims 10-16, characterized in that the means for discharging the bulk material from the storage comprise conveyor belts and means for transporting the bulk material from the storage to the conveyor belts. 5 18. Storage as claimed in any of the claims 10-17, characterized in that the means for discharging the bulk material comprise means, such as screen bends, for dewatering the bulk material to be discharged. 1015965