RU2703780C1 - Method of recycling household and other biological wastes - Google Patents

Abstract

FIELD: waste processing and disposal.

SUBSTANCE: invention relates to recycling household waste. Method consists in removal of household wastes to a landfill/dump and their storage in a solid massif. Household wastes together with local organic wastes from poultry farms, pig-breeding complexes, as well as sewage sludge residues are ground and stabilized by mixing with a neutral mineral component. Neutral mineral component used is local soil, as well as mineral wastes to be dumped.

EFFECT: ensuring formation of a uniform and stable mixture, simultaneous formation of a polygon profile which does not require subsequent recultivation, uniformity of subsidence, alienation of a smaller area.

3 cl

Description

A method is proposed (according to claim 1) for the disposal of household and other biological wastes by removal to a landfill (landfill) and storing them in a continuous array, characterized in that the wastes are subjected to grinding and stabilization beforehand, for which they are mixed with a neutral component in a certain proportion. In our country, the most common way of disposing of household waste is direct storage in specially designated territories near settlements. At the same time, unstable, fire and environmentally hazardous formations are formed, requiring constant maintenance costs for a long time and causing serious concern to the local population.

Uneven in composition, the debris sags as it decomposes, new portions of waste are laid on the encircled area, the landfill surface must be constantly leveled and compacted with bulldozers, otherwise spontaneous combustion occurs. As a result, a large surface of rotting waste is in contact with the atmosphere at the same time, which causes additional air pollution. According to the proposed method, the waste coming to the landfill is pre-crushed and mixed with a neutral component - soil, construction waste or other inorganic waste. The resulting mixture has a greater specific gravity, has predictable water and gas permeability, and is suitable for single and final laying in a massif of large thickness. At the same time, only a small percentage of waste is in contact with air, and most of it immediately gets into anaerobic conditions, where it undergoes a slow and uniform decomposition. The landfill profile is formed at a time, evenly sags, does not require subsequent reclamation and, accordingly, alienates a smaller area.

The next difference (according to claim 2) of the proposed method is that local soil is partially used as a neutral component. To form a uniform and stable mixture, a significant amount (for example, from 30 to 50 percent) of a neutral rotting substance must be added to the crushed organic waste. Waste from nearby industrial production and construction, ash and slag waste, as well as any contaminated local soil - sand, loam, clay can be used as a filler. When there is not enough local inorganic waste, it is necessary to use local soil, which is partially taken from the place of the future location of the formed landfill array, and partially from the adjacent foundation pit.

The next difference (according to p. 3, 4) of the proposed method is that the soil used to stabilize the mixture is taken from a foundation pit located in the immediate vicinity of the landfill, which can be used as a reservoir - sedimentation tank that performs damping, drainage and fire fighting functions. If the amount of annual precipitation in the territory of the created landfill exceeds the known minimum, then the excess of moisture through the natural or artificial drainage system leaves the region in the nearest rivers and water bodies. In this case, in order to be able to control these effluents in terms of environmental safety, it is necessary to have an intermediate damping pond of a sufficiently large volume located below the groundwater level, in which it is convenient to carry out activities to monitor the situation and to purposefully neutralize harmful substances. Soil taken from the pit as the landfill grows, accordingly increases the volume of the reservoir. The location of the reservoir should take into account the peculiarities of drainage of local soils and the direction of runoff from precipitation, filtered through the created waste mass.

The next difference (according to p. 5) of the proposed method is that along with household waste, local organic waste from poultry farms, pig-breeding complexes, as well as sewage and sludge residues that are mixed in a balanced manner with household waste, are simultaneously disposed of. Currently, waste of these categories is not accepted at landfills due to the fact that their sludge-like liquid consistency, as well as increased biological activity does not allow for technological reasons to include them in the general stream of household waste. Sludge sewage sludges have to be dried and burned, sewage sludge is buried in separate landfills, and liquid waste from poultry farms, pig-breeding complexes is supposedly used to fertilize the soil, but in reality it is drained near these enterprises, undermining the environment and alienating significant territories from economic turnover. The problem is solved if, according to the proposed method, this waste is mixed with a neutral component and ground household waste and, along with other household waste, immediately put into a deep pile for eternal storage.

It is interesting to look at how the problem of disposing of household waste in other countries of the world is being solved. Here, the best experience is the technology of incineration and deep processing of household waste. With a high population density, incineration is the only way to radically reduce waste. This technology requires the use of complex high-temperature furnaces with exhaust gas treatment devices. Burning plastic at a low temperature is unacceptable - harmful hydroxyl, peroxide, carbonyl and ether groups are formed, but at a high temperature dangerous inorganic impurities appear - nitric oxide, hydrogen chloride and carbon monoxide, which have to be chemically neutralized at the outlet of the furnace. In this case, in any case, all carbon goes into dioxide, a greenhouse gas, which, when it enters the atmosphere, adversely affects the environment.

The deep processing of household waste also creates many problems. The process of complex processing is poorly automated, the use of manual labor in this not prestigious and harmful work is ineffective, processing products, with the exception of metals, are not of sufficient value. Attempts at complete thermal destruction of the organic component of household waste up to carbon with the isolation and integrated use of the resulting organic products have not yet gone beyond the scope of experiments.

According to the proposed method, manual sorting is completely excluded from the technological process, - after grinding the waste, the non-ferrous and ferrous metals are automatically separated, and the remaining mass is mixed with the neutral component and put into a pile at the place of constant burial. It is assumed that plastic, wood pulp and paper do not represent value justifying the cost of sorting. The processing technology maintains a constant ratio between the organic and neutral components of the mixture, which contributes to the slow and uniform decomposition of garbage under anaerobic conditions created in the massif to be laid. At the same time, the mixture must be sufficiently permeable so that precipitation seeps through the thickness of the artificial formation and does not erode the formed geological structure. A significant content of the inorganic component, as well as the difficult access of oxygen to the mixture mass, exclude the possibility of ignition and allow the formation of significantly more powerful dumps (50-100 m) than is now accepted.

Since the proportion of plastic in modern materials and products is constantly growing, and its operating time is insignificant, this material inevitably ends up in a landfill, in fact this is the main waste of modern civilization. Compared to household organic waste, plastic disintegrates very slowly, so under the influence of time and pressure, anthropogenic rock similar to shale forms in the landfill site and preserves the potential greenhouse gas in the form of relatively relatively stable carbon compounds. Harmful chemical elements such as chlorine or fluorine will be gradually excluded from the composition of plastics as the technology of their manufacture improves, because nature manages to create much more valuable biopolymers such as cotton, cellulose or wool without such aggressive elements.

The mineral substances necessary for stabilization of the utilized organic matter, in turn, may consist of local industrial production and construction wastes that were previously contaminated and disposed of for the purpose of soil remediation, for example, old ash and slag dumps. At the same time, soil taken from the landfill is used for this purpose. Partially removed the soil layer under the base of the future dump, partly from the foundation pit located along the dump pile. The resulting body of water is located below the groundwater level, all local effluents, before leaving the region, fall into this body of water. It is easy to carry out constant monitoring of the maximum concentrations of harmful substances in it and, if necessary, carry out their decontamination, for example, aerate the pool when the level of oxygen in the water drops due to increased biological activity. In addition, the reserve water supply can be used for fire prevention in particularly dry years.

When preparing garbage for storage, an important and difficult technological operation is its crushing. The incoming waste varies greatly in nature, consistency and size - you will have to apply different methods of influencing the material, such as crushing, loosening, tearing, cutting, sieving, magnetic and induction separation of metals. This will require appropriate mechanisms and flexible production lines, but there is no doubt that the process lends itself to complete automation and the elimination of manual waste sorting.

Another costly component is excavation for the extraction and delivery of local soil to the mixing point. It is important to avoid double overloading of the land mass, - soil removed from the pit should be immediately used. In a region rich in precipitation, where a reservoir at one time is formed - a sump, earthwork is carried out by the method of hydraulic washing, and the rock is fed to the mixing place through pipes in the form of pulp. In “dry” regions there is no need for a reservoir, and the soil removed from the pit is immediately replaced by the mixture prepared for burial.

A rough estimate of a landfill receiving one million cubic meters of organic waste per year gives such parameters. For 25 years, the size of the landfill with a mix laying thickness of 50 m will be 500 per 1000 m, while only a growing frontal zone of 500 m wide is “active”, the “old” sections are closed with soil taken from the upper layer of the quarry being developed as it sags. For every three cubic meters of compressed waste brought for recycling, one cubic meter of soil will have to be removed. If there is a reservoir, its width will be about 300 over the entire length of the landfill at a depth of 10 m. The depth of the pit and, accordingly, the laying of garbage depends on the volume of mineral waste brought for utilization, as well as on the volume of soil removed from the pit if the developed layer contains useful materials such as sand, clay. In this case, the landfill can be partially used as a raw material quarry, which will lead to a deeper laying of the shoulder, and also favorably affects the economic performance of the enterprise.

Claims (3)

1. A method of disposing of household waste by transporting it to a landfill / landfill and storing it in a continuous array, characterized in that household waste together with local organic waste from poultry farms, pig-breeding complexes, as well as sewage sludge residues is subjected to grinding and stabilization, for which they are mixed with neutral mineral component, which is used as local soil, as well as mineral waste taken to landfill. 2. The method according to claim 1, characterized in that the soil used to stabilize the mixture is taken from a pit located in the immediate vicinity of the landfill. 3. The method according to claim 2, characterized in that the resulting and continuously increasing pit is used as a settling pond that performs damping, drainage and fire fighting functions.