FI105094B - A method for improving the ecological status of a water basin and its sediment - Google Patents

Description

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METHOD FOR IMPROVING THE ECOLOGICAL STATUS OF THE WATERBATH AND ITS SEEDS

The invention relates to a method for improving the ecological status of a water basin, such as a lake, and its bottom sediment.

In recent years, it has become increasingly evident that the ecological status of a heavily eutrophied or waste-contaminated lake or 10 similar water basins will not change much unless the so-called 'sinkhole' is returned from the bottom sediment. to reduce internal phosphorus load and other organic matter load. Essential for the generation and maintenance of the internal phosphorus load is the anaerobic degradation activity of the surface portions of the sediment 15, which produces decomposition products toxic to aerobic organisms such as e.g. Hydrogen sulphide and also particles in the water flotation gases such as methane and nitrogen, whereby the phosphorus dissolves and migrates with the particles to 20 water. In addition, anaerobic digestion is known to be slower than aerobic digestion, so slower digestion also contributes to the accumulation of excess organic matter in the bottom sediment and thus maintains the "vicious circle" of phosphorus cycling.

25 To improve the ecological status of lakes, for example, dredging and dumping of a contaminated and organic bottom outside the lake. However, this is expensive. One measure has been to cover the bottom sediment with 30 imported materials, but this too is expensive and often ineffective. In addition, many methods of oxidizing lake water kuten have been developed, such as those disclosed in FI patents 52661 and 59777, which attempt to aerobically control the decomposition of organic excess material, whereby the end product is carbon dioxide. All water oxidation methods are characterized by the fact that the transport of oxygen to the sediment remains dependent on diffusion alone, so that the transport is quite slow and thus the rate of improvement of the lake condition is limited by the rate of oxygen transport. On the other hand, also the end or intermediate products of biological decomposition, such as e.g. nitrogen, ammonium and ammoniacal nitrogen, nitrous oxide, hydrogen sulphide and methane, and 5 harmless carbon dioxide do not dissipate into water quickly enough by diffusion alone, which can lead to the concentration of contaminants in the sediment to the detriment of aerobic organisms.

It is an object of the invention to provide a method for improving the quality of the bottom sediment and the ecological status of the entire water basin. In particular, it is an object of the present invention to provide a method for reducing, from the surface portions of a sediment, easily degradable organic matter that maintains excessive microbial activity. It is a further object of the invention to provide a process for removing organic excess material as carbon dioxide and high energy methane from a lake.

The object of the invention is achieved by a process which is characterized by what is claimed.

In the process of the invention, the bottom sediment of an over-lush and bottom sediment anaerobic water basin is mixed in a preservative anaerobic manner below the surface of the bottom sediment to mix its surface and deep layers. By mixing the poor, organic-containing surface sediment into the deeper, oxygen-free, deeper layer than the surface layer, according to the method, a fine fraction of the surface sediment is mixed with the deeper material, resulting in an anaerobic-enriched microbial activity. Under certain conditions, this results in high methane and carbon dioxide production and low secondary microbial biomass production. This in turn results in the rapid release of gases (mainly methane and nitrogen) by bubbling and partly by diffusion into the atmosphere as well as the release of carbon dioxide by diffusion into the atmosphere, 105094 ', which implies further removal of organic carbon and energy bound to eutrophication problems.

One feature of the invention and its applicability is that, in order to prevent excessive depletion of oxygen in the surface water of the basin and to prevent hazards of clouding and to maintain anaerobic sedimentation,

In the application of the method described above, poor organic organic sediment (0 ... 0.1 ra) and surface layer 15 of a denser and more mineral rich intermediate sediment (0.1 ... 0.5 m) are mixed together. Thus, the loose surface layer organic matter is trapped deeper into the sediment and undergoes a rapidly evolving anaerobic state and a methane fermentation process whereby a substantial part of the organic matter carbon is transformed from one hand to the atmosphere into volatile organic methane bubbles and other. The temperature of unmixed bottom sediment on the sediment surface is the same as the water temperature, but going deeper, the temperature of the sediment 25 decreases significantly in summer. The sediment heats up during the summer with mixing, which accelerates the process throughout the mixed sediment and produces strong methane formation. In addition, the surface portion of the sediment mixture is a weaker microbial substrate for organic matter.

30

In a preferred embodiment of the invention, the surface layer is admixed with the layer beneath the surface layer by transferring material from the intermediate or deep layer onto the surface layer without allowing the deep layer to penetrate into the acidic surface water. This is done essentially at the same point on the bottom. According to the invention, the base material is preferably inverted by means of a bucket or the like, whereby a suitable amount is taken from the bottom sediment, e.g. by a bucket, and turned and placed at the place where it was taken. This solution achieves the advantage of, for example, aeration bubbling of the sediment, that the mixing of the sediment with the water-5 mass of the entire basin is significantly reduced.

In a further embodiment of the invention, iron salts are added to the bottom sediment during mixing to promote methane fermentation. Hydrogen sulphide in the bottom sediment usually interferes with 10 methane beds. The hydrogen sulfide is trapped by iron salts to form ferrosulfide, FeS, which is slightly soluble, remains a solid and does not interfere with the methane fermentation process. Naturally, other chemicals can also be added to the bottom sediment.

15 The bottom sediment is mixed with, for example, controlled, mechanically operated equipment. The mixing operation according to the invention may be carried out mechanically in addition to a bucket or the like in a number of alternative ways; e.g., mix-20 rack sediment with one or more propellers or coulters, fixed or swivel blade type rollers, possibly with suction and discharge slit rollers, shovel roller, disc or drum roller coil, sinker-type or deep-sinking depths and depths with a functioning grab dredging and scattering principle.

Em. devices operating on the principles may be supported by a vessel floating on the surface of the lake, wires tuned to certain areas of the lake 30, or the device may also be remotely controlled or pre-programmed to the bottom. ' moving robot device. It can be used to determine its automatic position. satellite positioning. For example, the device may be propelled by a propeller or propeller or propeller type propeller or propeller of the individual vessel.

When moving with a cable drive, the winch or the like can move the device either manually or automatically. 105094 between the limiter and reversers. The device may be powered by an electric motor, internal combustion engine or other power source providing sufficient power. Electricity can be generated by either an internal combustion engine generator, wind power 5 and / or solar power. Electricity can also be transmitted along the cable from the power grid.

The invention is not limited to the embodiments shown, but may vary within the scope of the inventive idea of the claims.

Claims (3)

A method for improving the ecological status of a water basin, such as a lake, and its bottom sediment, characterized in that the bottom sediment of the over-lush and bottom sediment water basin is mixed in an anaerobic preservative manner below the surface of the bottom sediment to mix its surface and deep layers. 2. A method according to claim 1, characterized in that, in order to prevent excessive reduction of the oxygen content of the surface water of the basin and to prevent hazards of clouding and to maintain the anaerobic nature of the bottom sediment, Method according to claim 1 or 2, characterized in that the intermediate or deep layer below the surface layer is mixed with the surface layer by transferring the material in the intermediate or deep layer onto the surface layer without letting the deep layer into the acidic surface water. 105094