FR2712515A1 - Method of disposal of compacted domestic waste at sea - Google Patents

Abstract

Compacted balls of household waste is carried out to sea then lowered to a depth of at least 1km before release. The waste is dropped in an abyssal skip beneath the pycocline layer of the ocean, below which the water is not warmed by the sun. This depth ensures that, when released, balls of waste continue to descend to the ocean floor (3-5km). 50-70 Tonnes of waste are carried out to sea in the abyssal skip in a barge. The base of the barge can be retracted, allowing the skip to be lowered on cables (7) at a speed of 1m/s to at least 1km. When the skip reaches the required depth the pressure causes its base panels (15) to be released automatically (16), releasing the contents. This is done by water pressure acting on pistons which are normally held across the opening of the base panels by springs. The skip is then raised. The angled opening of the base of the barge helps it enter smoothly. The skip is held slightly above the base of the barge while this is closed then lowered onto the base. The cable used is 2km long with a breaking strain greater than 100 tonnes.

Description

DFSCRIPIsION
It is a process ensuring oceanic immersion to the bottom of the ocean of compacted household waste bales, avoiding or minimizing the need to ballast them.

The context
The problem of urban and household waste is particularly acute in small towns and coastal cities with no hinterland or uninhabited space, allowing conventional treatment (incineration, storage, sorting and recovery, etc.).

Modern presses, with compression chambers, compact the garbage collected by the road services; we thus obtain bales of rimmed garbage, of good mechanical strength for their transport, and whose volume represents only 15 to 25% of the initial volume of bulk garbage. When the storage on land of these compacted bales is difficult to achieve and the ocean is near, their immersion to the deep ocean (several kilometers deep) constitutes an acceptable alternative, provided for by the London Convention (1975) and the Convention of
Noumea (1989). This deep sea discharge solution is part of the realistic approach to "ecological least".

Dumping Balls: The Ballasting Problem
On leaving household waste presses, urban and compacted waste (several tens of bars) and surrounded is in the form of bales weighing approximately 1 ton for a volume of 0.9 to 1.2 m3. The density of the balls is 0.9 + 0.1, depending on the initial composition of the waste, those rich in metal cans and glasses giving the highest densities.

 Balls intended to be immersed and sink into the ocean to the bottom (3 to 4 km) will most often have to be ballasted in order to reach a minimum density of 1.1 (the density of the world ocean going from 1.02 at the surface to 1.04 at the bottom). This means that the mass of each ball must be increased by a ballast which can represent up to 20% of its weight.

 Although the list of usable weights is vast (scrapped machines and household appliances, car wrecks, rubble and various "watches"), they will also need to be "flattened" (with a conventional press) and combined with a mesh to bullets already circled. Since it is not certain (on an annual basis) that local production of ballast is sufficient to dispose of the garbage produced at the same time, the use of expired containers will probably be essential.

 We therefore see that the problem of ballasting constitutes the major potential constraint of the abysmal dumping process of urban waste. It seems that this problem can be solved without the use of "lost containers" thanks to the use of an abyssal grab implemented from a motorized barge.

Statement of the invention
The abyssal skip, in which balls of compacted, encircled garbage of density close to 1 have been deposited is housed inside a self-propelled carrying barge of which it constitutes the removable central structure. Once on the ocean dumping site (guidance and control with a satellite positioning system), the bucket sinks by unwinding a 1.2 km cable. At a depth of 1 km, the bottom of the bucket opens automatically, releasing the load. The balls will have during their descent been subjected to the increase in pressure (+ 10 bars / 100 meters, that is to say 100 bars at 1 km) and to the decrease in temperature (<5 C from 1 km deep).

 These severe ocean conditions guarantee during the first kilometer of descent the expulsion of air pockets and residual gases, the implosion and impregnation of organic and porous parts by cold water; this additional compaction at high pressure will lead to an increase in the density of the bales which, after their release to a depth of 1 km, will continue their descent to the bottom, without the possibility of rising to the surface. The open and empty bucket will then be reassembled by taking up the cable on its winch, then reinstalled within the carrying barge.

 The method according to the invention thus makes it possible to bring balls of garbage to a depth greater than that of the density barrier of the oceans. This barrier, called pycnocline, separates surface water heated by the sun from deep water, temperature below 5 C. The pycnocline is found around 100 to 200 m deep in the oceans of temperate zones and between 200 and 500 m in tropical oceans. The dropping of the balls by 1 km deep, and therefore well below the pycnocline, guarantees that they will not be able to rise to the surface, but that on the contrary they will continue their descent to the abyss. (Underwater volcanic and hydrothermal eruptions are, for this reason, undetectable at the surface when they occur more than 300-500 meters deep).

Technical characteristics
The accompanying drawings illustrate the invention:
Figure 1 shown in section the device according to the invention
Figure 2 shows in aerial view the device according to the invention.

 The self-propelled barge (1) supporting the abyssal skip (2) is shown diagrammatically in Figures 1 to 7. For an abyssal skip with a capacity of around 50 to 70 tonnes and 6 to 8 meters in length, the barge must have a length of the order of fifteen meters. It will be powered by a diesel engine (3) which will also power a winch (4). This winch, of the pelagic towing winch type, will be fitted with a cable (5) of 2 to 3 cm in diameter, with a breaking load greater than 100 tonnes. The length of the cable should not be less than 2 km. This cable will pass through the pulley (6) struck in the middle of the central gantry (7) equipping the barge. It will be connected to the removable abyssal grab by an anti-torsion swivel (8). The pulley will itself be supported by a wave damper (9) which can spread hollows from 3 to 5 meters.

 The grab is housed in the central part of the barge which constitutes a well (10) open onto the ocean. The bucket rests on removable bars (11) constituting a removable "floor" and located at the waterline. These removable bars are connected together by a chain (12) actuated by a shutter: they can slide along 2 grooves dug on the inner sides of the barge and assemble in a chamber (13) thus completely freeing the well. located under the grab: it can then be lowered into the ocean. The number of removable bars is to be determined according to the length (and capacity) of the bucket: 5 bars for a bucket 7 to 8 meters long, 6 for a 10 meters bucket etc ...

The removable abyss bucket (2)
It can have characteristics close to those of large maritime containers. A capacity of 50 to 70 tonnes of compacted bales implies a useful volume of the order of 60 m3, for example L = 7 m, 1 = 3 and h = 3 m. Unladen weight of around 5 tonnes, which can be brought to 10 tonnes by sealing or strengthening the thickness of the steel walls. The bucket is closed on top by a folding grid (14), made of steel, with days of a few cm2. The bottom of the bucket consists of 2 panels (15) which can be locked and unlocked and can be opened lengthwise. The opening of these panels is ensured by a device (16) moved by pressure and set at 100 bars, ie 1 km deep.

Load shedding operations at sea (Fig. 3, 4 and 5)
At the port, the bucket is filled with compacted bales of garbage, to which weights, wrecks and various rubble can be added. The grid is folded down and locked. The barge is heading at 10 knots in the drop zone, helped by a satellite positioning system (Ground Positioning System, precision + 20 meters). Stop on the drop zone. The winch is activated and tightens the cable (5) making it possible to slide and retract the removable bars (11) constituting the floor of the bucket. The winch rotation is reversed, the bucket crosses the central well, and sinks into the ocean at a speed of 1 m / second. Oceanic water freely enters the bucket through the grid, gradually increasing the density of the balls. After 20 minutes of descent and 1.2 km of cable unwound, the 1 km depth is reached or even exceeded, and the bottom panels (15) are unlocked by an automatic system (16) set at 100 bars.

 This automatic opening system (16) is made up of 2 parts, one located on the female panel (17), the other on the male panel (18): Fig. 4. The female part consists of a piston (19) which, moved by the external pressure, pushes back a rod (20) originating from the male panel. This rod rests on a spring (21) calibrated to 100 kg. In the closed position, the rod (20) has completely pushed the piston (19), ensuring the closing / locking of the panels. During the descent, the pressure pushes the piston (19) to the right, causing the displacement of the rod (20) which crushes the calibrated spring (21). At a depth of 1 km (100 bars), the rod is completely pushed back and the panels open wide, releasing the balls (22) which will continue their descent (Fig. 5). The locking / unlocking systems can be installed on the upper part of the bottom panels, as in FIG. 4, or on their lower part; [plan 3 to 5 locations depending on the length and capacity of the bucket].

Ascent (Fig. 5 to 7)
The winch begins the ascent of the bucket (2): a blood pressure monitor makes it possible to check that the bucket is empty and open, thereby offering low resistance to ascent traction. Otherwise (bucket not yet open) several hundred meters of additional cable can be unwound until the panels are unlocked. Ocean currents greater than 2 knots, which is unusual, or a very strong drift of the barge on the surface may eventually require spinning up to 1.5 km of cable. The ascent (Fig. 6) takes place at a speed equivalent to that of the descent, ie 1 m / s.

 The re-entry of the bucket is facilitated by the conical section of the opening of the well (10) of the barge (walls at 45C over 1 m thick). The bucket is hoisted in the high position, out of the water, open bottom panels (17 and 18). Fig. 7. The removable bars (11) are put back in place, by actuating the two-way chain (12) and the bucket is slowly lowered: the bottom panels abut on the bars, and close while sliding. The locking rods (20) of the male panel (18) then penetrate into the opposite sections of the female panel (17), push the pistons (19) to open and close, thereby ensuring the automatic re-arming of the locking system / unlocking set at 100 bars (free from spring tension).

 The barge leaves for port; the total duration of the operation in the drop zone is around 1 hour. A good verticality of the cable will require that the barge can spread the surface drift (wind + current) thanks to its variable pitch propeller (23).

 This combination of self-propelled barge and abyssal bucket with automatic opening / closing at mid-depth (1 km) constitutes an original concept: the basic equipment involved is robust, simple to use, and does not have the disadvantages of a bucket having to reach the bottom. oceanic (no risk of blockage in the bottom sediment, shorter length of the cable to be unwound and time savings); the barge equipped with its abyssal skip guarantees a definitive immersion of bales of rubbish compacted by a series of simple and / or automatic operations, without requiring conductive cables, or energy source on the skip, nor tracking system immersion of the bucket or electrical or electronic triggering of the opening of its bottom panels. The use of the abyssal dump barge should make it possible to bring an ecologically satisfactory solution to the problem of urban waste, in particular in the small islands and cities of the intertropical belt bathed by a deep ocean. (Case of Tahiti, Polynesian cities, Mauritius or Reunion etc ...).

Example of use
The daily household waste of a city of 30,000 inhabitants, or around fifty tonnes, is compacted in the form of bales of 1 m3, weighing 0.9 + 0.1 tonnes. They are loaded into the abyssal bucket fitted to the barge, which leaves the port and reaches the discharge area in a few hours. The dropping operation is done, as indicated, and the barge rejoins the port; the garbage collected in the early morning can thus end up in the abyssal zone at the end of the afternoon and reach the ocean floor during the night. Due to their compactness and their strapping, the balls will have a very low disintegration rate during their descent. Knowing that the sea currents of the great abyssal plains are generally less than 1 cm / s, and of fairly constant direction, the discharge zone will have, on the oceanic scale, a restricted surface. For a depth of 4 km, this area will be of the order of a few tens of km2, thus facilitating scientific and ecological monitoring of abyssal marine dumping grounds. This process should make it possible to relieve from increasing pollution the islands and tropical cities bathed by a deep ocean. Thus for Tahiti, the abyssal dumping ground would be chosen 2 hours by barge drive and would receive 100 to 200 tonnes of compacted waste every day. In this case, you will have the choice between making several daily rotations with a 50-ton bucket or putting into service a larger barge, which can accommodate a 200-ton bucket. Nothing in principle of the invention prevents the use of skips of several hundred, even several thousand tonnes, nor obviously to modify (more or less) the opening depth of the panels and therefore the release of the bales .

Claims (8)

Claims  1) Method for immersing household waste bales (22) previously compacted by a household waste press, characterized in that it consists in bringing them to 1 km deep under the ocean density barrier (pycnocline), to drop them, guaranteeing that they will continue their descent to the bottom of the ocean (3 to 5 km), by using an abyssal grab.  2) Method according to claim 1, characterized in that the bucket, of capacity 50 to 70 tonnes, having been loaded with bales of compacted garbage and metallic and miscellaneous waste, is lowered to 1 m / s to a depth d '' at least 1 km from which the bottom panels (15) open thanks to the automatic release system (16): bales of garbage and metallic waste and various dropped 1 km deep, will then have a density sufficient to continue to flow to the bottom of the ocean, without the possibility of going up to the surface and / or of crossing the oceanic density barrier (pycnocline).  3) Method according to claim 2, characterized in that the bucket is raised open, at a speed similar to that of the descent (1 m / s, or 1.2 km in 20 minutes), and this by recovering the cable on the pelagic winch; re-entry of the bucket into the barge is facilitated by the conical structure of the walls of the well (10) (45 "angle over 1 m thick). The bucket is then hoisted in the high position, out of water and the removable bars (11) (floor) are replaced by actuating the reciprocating chain (12).  4) Method according to claim 3, characterized in that the bucket is slowly lowered which allows the bottom panels (15) to close automatically by sliding on the bars repositioned according to the preceding point.  5) Device for implementing the method according to any one of the preceding claims, characterized by the use of a self-propelled barge (1), within which is an abyssal bucket (2), which can be lowered and then raised by a carrying cable (5), and equipped with an automatic opening system (16) for the release of its load from 1 km deep.  6) Device according to claim 4, characterized in that the metal bars (11) supporting the bucket (2) can be removed by actuating a reciprocating chain (12), releasing the central well (10) of the barge , through which the abyssal bucket can be lowered; the barge is equipped with a pelagic type winch (4), operating in both directions, receiving a 2 km cable (5) with breaking load greater than 100 tonnes, and a gantry (7) with shock absorber swells (9).  7) Device according to claim 4 or 5, characterized in that the bottom panels (15) of the bucket are locked with a system (16) opening automatically from an external pressure of 100 bars (or 1 km depth). To do this, the oceanic pressure moves a piston (19) installed in the "female" panel (17) which pushes the locking rod (20) originating from the "male" panel (18), until it is crushed. complete with spring (21) calibrated to 100 kg.  8) Device according to claim 7 characterized in that the locking rods (20) fitted to the "male" panel (18) penetrate into the opposite section of the "female" panel (17), repel the pistons (19) of the automatic system release (16) and thereby ensure the closing / locking of the bottom panels (15) and the rearming of said system, by the tension of the springs (21) set to 100 kg.