RU2520022C2 - Method of processing of bark-dump and process area for its implementation - Google Patents

Abstract

FIELD: textiles, paper.

SUBSTANCE: invention relates to a method of processing and recycling of bark-dump which is a product of waste at pulp and paper mills. In the formed bark-dump sewage sludge of treatment facilities are injected, containing wt %: humidity 92-96; weight fraction of organic compounds 62-66; weight fraction of total nitrogen 5.6-7.3; weight fraction of total phosphorus (P₂O₅) 4.8-6.5; heavy metals 0.02-2.0; residual oil - 0.015-0.25; pH - 6.8, in the ratio of bark:reagent (sewage purification), 8:2, respectively, followed by aeration of bark-dump with the atmospheric air, at that a diluent for the reagent the drainage waters of bark-dump are used, and for obtaining organic fertiliser the process of flushing the bark-dump body with the reagent and air is repeated several times.

EFFECT: increased efficiency of elimination of bark-dump body and turning its mass into the organic fertiliser.

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Description

The invention relates to a method for the processing and disposal of a skimmer, which is a waste product at pulp and paper mills.

Closest to the technical nature of the proposed is a method of disposal of the contents of the dump truck - hydrolysis lignin and sludge treatment facilities for pulp and paper production [1].

Known joint method of processing solid waste and sewage sludge [3].

In addition, there is a method of composting solid waste from petrochemical production (oil sludge) in combination with other industrial waste in the field [2].

A common way to utilize the contents of dump trucks at present is to burn them. However, the use of this method leads to additional air pollution. And with a long storage time, the use of wood bark as a fuel becomes ineffective due to its low calorie content.

The objective of the invention is the elimination of the body of the skimmer and the conversion of its mass into organic fertilizer.

This is achieved by the fact that the contents of the dump truck are processed and converted into organic fertilizer, which is subject to excavation and transportation to the place of its use.

The problem is solved using the characteristics of the 1st claim that are common with the prototype, such as a method for processing a dump dump using a reagent, and distinctive essential features, such as sewage sludge (WWS) from sewage treatment plants containing, wt. %: humidity 92-96; mass fraction of organic substances 62-66; mass fraction of total nitrogen 5.6-7.3; mass fraction of total phosphorus (P ₂ O ₅ ) 4.8-6.5; heavy metals 0.02-2.0; residual oil 0.015-0.25; pH 6.8, in the ratio of bark: reagent (WWS), respectively, 8: 2 followed by aeration of the dump truck with atmospheric air, while drainage water from the dump truck is used as a diluent for the reagent, and the process of pumping the dump body with reagent and air is repeated repeatedly to obtain organic fertilizer .

The problem is solved using the characteristics of the 2nd claim, such as a technological platform for processing and disposal of a dump truck, which includes the following equipment connected in series and connected by pipelines with shut-off valves: a reagent preparation mixer connected to the reagent diluent tank by the first inlet, and the second entrance - to the tank with WWS, and exit - to the pumping station through the compressor to the system of wells installed in the body of the dump truck, for example, along a rectangular grid on netatelnyh wells, pipes provided with perforations for injecting reagent, and followed by pumping with a compressor body wells korootvala atmospheric air, wherein the base is formed korootvala trench with a protective dam, through the pump conduit connected to the third input of the mixer.

Claim 3 of the claims reflects a structural feature of the perforation tubes, namely, perforated tubes 6 m long and 12.5 mm diameter holes equally spaced from each other at a distance of 30 mm are preferably used.

Clause 4 of the claims provides a feature for placing wells on a dump dump, namely, a grid for accommodating injection wells is made in increments of 6 m.

The above set of essential features allows you to get the following technical result - the ability to process and utilize the dump truck with organic fertilizer directly when processing the body of the dump truck itself, and not during its partial processing.

The invention makes it possible to obtain organic fertilizer in the processing of waste dump trucks, to exclude a constant source of air pollution resulting from spontaneous combustion of the deep layers of the dump body, as well as to clean the territory occupied by the dump body and use it for further economic use.

The invention is illustrated by drawings, where in Fig.1 shows a laboratory installation for processing dump truck; figure 2 - technological platform for implementing the proposed method, and also the following specific examples.

The technological platform (figure 2) for processing and disposal of the dump truck 1 includes the following equipment connected in series and connected by pipelines 2 with shutoff valves (not shown): a mixer 3 for preparation of the reagent, connected by the first inlet to the tank 4 for the reagent diluent, and the second inlet to capacity 5 with WWS, and the output to the pumping station 6 through the compressor 7 to the system of wells 8 installed in the body of the dump body 1, for example, along a rectangular grid of injection wells equipped with perforation pipes 9 for achki reagent and subsequent pumping with a compressor 7, 8 wells atmospheric air korootvala body 1. The base korootvala formed trench with a protective dam 10, connected through a pump conduit 11 to a third input of the mixer 3.

The installation uses perforated pipes with a length of 6 m, a hole diameter of 12.5 mm, equidistant from each other at a distance of 30 mm. The grid for placement of injection wells is made in increments of 6 m.

A fragment of the laboratory setup, shown in figure 1, contains a reactor 12 with a perforation tube 13 installed through it, through which the WWS reagent is supplied. A bark 14 is laid in the reactor, which is soaked with reagent, the resulting pulp fertilizer is fed through a pipe 15 to a reservoir (not shown), and the sediment of drainage water is discharged from the reactor through a pipe 16 into a tank for subsequent supply to the reactor. Through a tube 13, the contents of the reactor are periodically blown with atmospheric air using a compressor (not shown).

General conditions of the processing process.

The sewage sludge (WWS) of the treatment facilities used as a reagent for treating bark contains, wt.%: Humidity 92-96; mass fraction of organic substances 62-66; mass fraction of total nitrogen 5.6-7.3; mass fraction of total phosphorus (P ₂ O ₅ ) 4.8-6.5; heavy metals 0.02-2.0; residual oil 0.015-0.25; pH 6.8.

Disposal of waste dump is achieved by activating the anaerobic process of co-digestion by forcing sewage sludge (WWS) or activated sludge from sewage treatment plants into the body of the dump car.

As a result of the above process, the formation of organic fertilizer occurs, which can be used in household plots and agriculture.

The introduction of organic matter into the body of the dump truck is carried out by pumping into drilled perforated injection wells.

The injection wells were made of perforated pipes with an external diameter of 15 cm. The diameter of the perforations was 12.5 mm, which were 30 mm equidistant from each other. The upper part of the pipe was not perforated and protruded 1.0 m from the body of the dump truck. Drilling was carried out according to a rectangular grid of 6.0 × 6.0 m, at the nodes of which were injection wells of Fig. 2). The depth of the injection wells was 6.0 m.

Before the construction of injection wells with a bulldozer, the area on which the drilling sites were marked out was leveled on the surface of the dump truck.

WWS was injected with a water content of 93-96% using an injection screw pump.

To activate the microbiological processes of the joint fermentation of core and organic residues in the body of the dump truck, injection wells were pumped with atmospheric air at a speed of 80 m ³ / h for 2-3 hours every three days.

In order to capture drainage waters containing a high content of organic substances, phosphorus nitrogen and formed after OSGZ filtration processes at the base of the dump truck, a receiving trench with a protective dam was equipped. The liquid accumulated as a result of filtration processes was used to dilute WWS.

With the introduction of WWS into the wells, the water cut significantly increases, which prevented the processes of spontaneous combustion of the dump truck.

Thanks to the composting of the bark together with organic waste, it is possible to obtain organic fertilizers, to utilize WWS, and also to eliminate a permanent burning area

The period of joint composting to obtain organic fertilizer is 0.5 years.

The technical result is achieved due to the joint fermentation of core and organic residues, while obtaining organic fertilizer and eliminating a constant burning focus.

Example 1

The operation to eliminate the dump was carried out in laboratory conditions at the installation of figure 1. According to the invention, the bark was periodically pumped with a reagent and air was purged. The experiment lasted for 6 months, the results of which are shown in table 1.

As a reagent used wastewater sludge containing, wt.%: Humidity up to 100; mass fraction of organic substances 62; mass fraction of total nitrogen 5.6; mass fraction of total phosphorus (P ₂ O ₅ ) 4.8; heavy metals 0.02; residual oil 0.015; pH 6.8. The ratio of core: reagent (WWS) 8: 2.

Blowing with atmospheric air at a speed of 80 m ³ / h for 2-3 hours.

Example 2

Disposal of the dump truck was carried out at the technological site, for which a model of the dump truck was artificially created. Its processing corresponded to the procedure described in example 1. According to the invention, periodic reagent pumping and air purging of the cortex were carried out.

The results are shown in table.2.

As a reagent used wastewater sludge containing, wt.%: Humidity up to 100; mass fraction of organic substances 66; mass fraction of total nitrogen 7.3; mass fraction of total phosphorus (P ₂ O ₅ ) 6.5; heavy metals 2.0; residual oil 0.25; pH 6.8. The ratio of core: reagent (WWS) 8: 2.

Blowing with atmospheric air at a speed of 80 m ³ / h for 2-3 hours.

Example 3

Joint reclamation of sludge from petrochemical production, oil-contaminated soil and activated sludge from sewage treatment plants was also carried out at the technological site while maintaining the procedure described in the previous two examples. According to the invention, periodic reagent pumping and air purging of the cortex were carried out.

Table 3 shows the results of the work. As a reagent used wastewater sludge containing, wt.%: Humidity up to 100; mass fraction of organic substances 64; mass fraction of total nitrogen 6.45; mass fraction of total phosphorus (P ₂ O ₅ ) 5.65; heavy metals 1.01; residual oil 0.13; pH 6.8. The ratio of core: reagent (WWS) 8: 2.

Blowing with atmospheric air at a speed of 80 m ³ / h for 2-3 hours.

Thus, in the proposed method, the neutralization of sludge from petrochemical production containing toxic organic waste and heavy metals, as well as the reduction of residual oil in oil-contaminated soil, occurs due to a synergistic effect when they are mixed with activated sludge from treatment facilities. Example 3 confirms the following technical result - a decrease in the content of petroleum products and a decrease in the concentration of heavy metals in the sludge sludge not exceeding the MPC.

The decrease in the concentration of heavy metals in the WWS occurs due to its dilution by mixing with a skimmer and the conversion of metals to fixed forms.

The content of heavy metals in the resulting mixture does not exceed the MPC.

Table 1
The effect of sewage sludge on the digestion of waste dump Humidity% N total,% P ₂ O ₅ ,% CPK (mg / g) bpc (mg / g) K + WWS (1: 1) 89 2,32 1.47 12680 672 K + WWS (8: 2) 90 1,69 0.74 647 423 K + WWS (6: 4) 93 2.04 1.34 963 406 K + WWS (4: 6) 94 2.64 1.86 11090 587 WWS 96 3.89 2.43 14680 1124 to 64 0.76 0.26 275 68

table 2
Disposal of a dump truck at a technological site N total.,% P ₂ O ₅ ,% humus,% CPK (mg / g) bpc (mg / g) K + WWS 2.74 1.78 5.14 1372 1039 WWS 3.17 2.09 0.9 1584 1345 to 0.81 0.21 2.15 305 110

Table 3
Characterization of the main nutrients after the combined fermentation of waste dumping and sewage sludge N total,% P ₂ O ₅ ,% humus,% CPA (mg / g) Bpc (mg / g) K + WWS (1: 1) 2.41 1,64 5,6 11747 646 K + WWS (8: 2) 1.49 0.61 6.4 594 397 K + WWS (6: 4) 1.96 1.35 6.1 876 387 K + WWS (4: 6) 2,34 1,61 5.7 10069 512 WWS 3.89 2,37 0.8 12673 979 to 0.76 0.21 3,7 246 74

From the description and practical application of the present invention, specialists will be obvious and other private forms of its implementation. This description and examples are considered as material illustrating the invention, the essence of which and the scope of patent claims are defined in the following claims by a combination of essential features and their equivalents.

Literature

1. Archegova I. B., Khabibullina F. M., Shubakov A. A., Gorbunov A. A. Joint recycling of industrial waste. Ecology and industry of Russia. 2008, No. 5, p.22-25.

2. Kapelkina L.P., Skorik Yu.I., Ventsyulis L.S. Use of sewage sludge for land reclamation at landfills. Ecology and industry of Russia. 2009, No. 9, p. 52-55.

3. Nikitina EV, Yakusheva OI, Gusarova AV, Naumova RP Bioremediation of petrochemical waste using composting. Biotechnology, 2006, No. 1, pp. 53-61.

Claims (1)

A method of processing a skimmer using a reagent, characterized in that sludge from sewage treatment plants is introduced into the formed skimmer, containing wt.%: Humidity 92-96; mass fraction of organic substances 62-66; mass fraction of total nitrogen 5.6-7.3; mass fraction of total phosphorus (P ₂ O ₅ ) 4.8-6.5; heavy metals 0.02-2.0; residual oil - 0.015-0.25; pH - 6.8, in the ratio of bark: reagent (WWS) 8: 2, respectively, followed by aeration of the dump truck with atmospheric air, while drainage water from the dump truck is used as a diluent for the reagent, and the process of pumping the dump body with reagent and air is repeated to obtain organic fertilizer repeatedly.

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