RU2670849C1 - Method for processing wood wastes - Google Patents

Abstract

FIELD: recycling and disposal of waste.SUBSTANCE: invention relates to the disposal and processing of waste and is intended for the purification of wood waste from impregnating compounds. Wood waste is ground to a chip level of less than 5 mm, at least one axis. Chips are blown with steam for warm-up and injected with organic solvent vapors capable of forming azeotropes with water. Solution of the impregnating composition in the organic solvent is collected and sent for processing. Chips are blown with water vapor at a temperature of 115–120 °C until the organic solvent is completely removed.EFFECT: wood waste becomes environmentally safe and suitable for further use in industry.8 cl, 3 tbl

Description

The invention relates to the disposal and recycling of waste, in particular to the disposal of wooden structures, and relates to the process of washing them from impregnating agents.

Wooden structures treated with an impregnating agent (preserving compound) are, in particular, railway sleepers, railway apron structures, mast and pole structures. Depending on the composition of the impregnation after the end of operation, they belong to the 1st or 3rd hazard class of waste and require special processing measures. Impregnating compositions, depending on the technology used and the raw materials available, are based on creosote, coal tar, petroleum bitumen, synthetic products such as polychlorinated phenols, copper and boron compounds. For example, sleepers are impregnated with antiseptic agents, in particular, creosote, compositions based on coal tar or shale resins.

Mentioned compositions contain high-boiling phenols, aromatic hydrocarbons, sulfur-containing and other toxic compounds. There is a problem of the destruction of toxic wood wastes that accumulate in large volumes during repair work and / or are waste in the production process.

The removal of impregnating compounds translates this wood waste into hazard class 4, along with sawmill waste, which is much easier to handle.

At present, it is planned to burn spent sleepers in conditions that minimize the release of toxic substances: PAHs, dioxins, soot, or masking these emissions with technological emissions from other processes.

At the same time, the formation of toxic components cannot be completely avoided, and absorption filters are installed to capture them. After saturation of the filters, specialized disposal or disposal of these devices is required.

There is a method of disposing of used wooden railway sleepers, which is based on grinding sleepers and introducing shredded waste into underground layers of oil fields (Patent RU 2302302, publ. 20.03.2007).

However, this method of disposal is very expensive, because it requires significant financial costs for grinding sleepers, their transportation to oil fields and introduction into underground formations.

A known technological complex for burning railway wooden sleepers, which contains a loading device, a combustion chamber with a stepped hearth, forming tiers for laying entire sleepers, a lifting loading device, a feed rail sleepers. (Patent RU 2484373, publ. 06/10/2013).

This complex is also expensive and does not provide environmental safety at its location due to toxic emissions into the atmosphere.

There is a method of recycling wooden railway sleepers with the production of thermal energy hydrocarbon products, including unloading, sorting and preparing wooden sleepers, shipping to a lumber warehouse, while the preparation of wooden sleepers includes the preliminary separation of sleepers into impregnated and non-impregnated creosote parts, grinding sleepers, drying sawdust and storage, in this case, after drying and warehousing of sawdust, they are either burned and gas treated to generate heat energy, or part of the sawdust is sent to the site of production of building materials. (Patent RU 2373001, publ. 11/20/2009).

However, this method does not completely avoid the formation of toxic components. It is proposed to burn spent sleepers in conditions that minimize the release of toxic substances: PAHs, dioxins, soot, or masking these emissions with technological emissions of other processes. Absorption filters are necessary for their capture, and after saturation of the filters, specialized disposal or burial of these devices is again required.

Known methods for the processing of crushed wooden waste, involving various processing of wood in order to remove toxic substances from them.

For example, methods for their thermal distillation are used to remove the impregnating compositions (for example, KR 20140067516, published 05.06.2014), however, in this case, the wood is pyrolyzed in parallel with the release of combustible and explosive gases, which requires special equipment and the production process.

Water-based surfactant solutions are used (patent DE 4402015, publ. 07.20.1995), however, this method requires a significant amount of surfactants, comparable to the mass of removed impregnation, and stable emulsions are formed, which together leads to the need for processing of liquid waste in volumes of several times larger than the original wood raw material.

Used washing supercritical solvents (patent US 5364475, publ. 15.11.1994), but the completeness of removal of impregnation in this method is low.

Washing is carried out with synthetic solvents of the amide class (patent DE 19606316, publ. 08.28.1997), however, this method uses an expensive product of organic synthesis and requires a large hydraulic module (5: 1) to achieve the desired result. In addition, the use of a high boiling solvent greatly complicates its regeneration.

Finally, the method of washing wood with alcohol is known (WO 1996014902, publ. 23.05.1996), however, this method is not universal and is suitable only for removing impregnations based on pentachlorophenol and pure creosote. It is unsuitable for removing coal tar.

Each of the above technical solutions involves the shredding of waste and its subsequent processing and can be taken as the closest analogue of the proposed method.

The aim of this invention is to develop a universal technology that allows you to remove (wash) from wood, including old sleepers, electric poles and other wooden structures impregnating agents, with the receipt of environmentally friendly wooden waste.

The technical result is the provision of high-quality cleaning of wooden structures from impregnating compositions with the receipt of environmentally friendly waste, suitable for further use in industry.

A method for treating ground impregnated wood with steam of an aromatic organic solvent (toluene, xylenes, petroleum xylene, ethylbenzene, cumene and their mixtures of arbitrary composition, technical organic aromatic solvents with a boiling point below 150 degrees Celsius capable of forming azeotropic compounds with water) in the presence of or the absence of ammonia vapors or volatile organic bases.

The remainder of the organic solvent from the chips is removed by blowing with steam at a temperature of 115-120 degrees until the organic solvent is completely removed.

A method of processing wood waste treated with impregnating compositions includes grinding wood waste to a chip level of less than 5 mm in at least one axis, and their subsequent processing. The processing includes the following steps: blowing cold wood chips with steam until the chips warm up, then supplying vapors of an organic aromatic solvent having a boiling point below 150 ° C and capable of forming azeotropic compounds with water in the presence or absence of ammonia vapors or volatile organic bases, In this case, the condensate formed, which is a solution of the impregnating composition in an organic solvent, is collected and sent for processing, upon completion of the removal of the impregnating composition, wish to set up the chip blowing steam with a temperature of 115-120 ° C until complete removal of the organic solvent, which is formed at this stage is directed to the condensate separation by decantation.

After purging with water vapor, there may additionally be a step of purging the chips with heated air to dry them after removing the organic solvent.

As an organic solvent, xylene and / or toluene, and / or petroleum xylene, and / or ethylbenzene, and / or cumene or mixtures thereof, as well as other available mixtures of aromatic hydrocarbons forming azeotropic compounds with water and having a temperature of full boiling less than 150 ° C.

In this case, the end of the stages of removal of impregnating composition and / or organic solvent from the chips is determined by measuring the optical density of the resulting condensate.

As wooden waste, railway sleepers or railway apron structures, or mast or pole structures are used.

The method is as follows.

The wooden structures to be disposed of are crushed to a level of less than 5 mm in at least one axis by any known method and loaded into the treatment system. The chopped wood material is treated with an organic solvent vapor (xylene, and / or toluene, and / or petroleum xylene, and / or ethylbenzene, and / or cumene, or mixtures thereof) by a countercurrent method. The resulting condensate, which is a solution of the impregnating composition in an organic solvent, is collected and sent for processing (for example, removal of the solvent by evaporation). At the end of the removal of the impregnating composition (which is determined by measuring the optical density of the resulting condensate), water vapor with a temperature of 115-120 ° C is supplied to the system by the counterflow method.

Steam forms an azeotropic composition with an organic solvent having a boiling point of less than 100 ° C. Steam is supplied until the organic solvent is completely removed, which is determined by measuring the light scattering of the condensate. Since the organic solvent is practically insoluble in water, an emulsion with significant light scattering is formed upon condensation of the azeotropic composition. When it disappears in the condensate - pure water, which indicates the complete removal of the organic solvent. Condensate is sent to the separation by decantation.

Treated wood is unloaded.

Thus, any wooden structures (in particular, railway sleepers, railway apron structures, mast and pole structures, etc.) impregnated with a preserving compound can be processed.

When processing the material of the claimed method, the impregnating compositions (up to 20% by weight of the air-dry source wood) are completely removed.

The wood waste obtained after processing is environmentally friendly, which is confirmed by the test results.

Studies of production wastes on the hazardous properties “toxicity” and “ecotoxicity” were conducted. The material (wood chips) obtained from the processing of wooden sleepers was tested in order to determine the hazard class of the waste.

The studies were carried out on the basis of the Decree of the Ministry of Natural Resources and Environmental Protection of the Republic of Belarus, the Ministry of Health of the Republic of Belarus, the Ministry of Emergency Situations of the Republic of Belarus No. 3/13/2 of January 17, 2008. “On approval of the instruction on the procedure for establishing the degree of hazard of industrial wastes and the hazard class of hazardous industrial wastes.” Research methods were applied in accordance with the Instruction "Method for the experimental determination of toxicity of production waste", approved. MH RB from 04/07/2016. No. 044-1215 (hereinafter referred to as Instruction No. 044-2015).

The research sample was chopped wood (wood chips), which had initially preservative oil treatment and was subjected to processing by the proposed method for its removal. Wood chips were obtained by grinding wooden sleepers that had worked out their resources, and subsequent combined processing. Appearance - strips of air-dried wood of different lengths of dark color, with a slight smell of creosote.

The waste sample was investigated experimentally according to Instruction No. 044-2015 by the following methods:

- for the hazardous property “ecotoxicity”: assessment of the phytotoxicity of waste; toxicity assessment in the Eisenia foetida test model.

- for the dangerous property “toxicity”: toxicity assessment for warm-blooded animals in an acute experiment; assessment of genotoxicity in micronucleus test.

The following is information from the research protocol.

Toxicological studies in white rats.

An acute toxicological experiment with intragastric administration is carried out using the “fixed dose” method. In the experiment, white randomly bred rats were used — females weighing 180–220 g, 5 animals per group. For the study, an extract was prepared from a homogenized waste sample with a maximum saturation of 1 g: 1 ml of distilled water. During the experiment, a group of 5 animals was injected intragastrically once using a probe needle with fixed volumes of extract from a waste sample of 3 ml / 200 g of rat body weight. Monitoring the condition of the animals was carried out for 14 days.

The results of the studies showed that intragastric administration by a fixed dose method of extracting waste from a sample of waste to white rats did not cause the death of animals and toxic effects: there were no signs of intoxication, no changes were recorded in behavior, condition, appearance, appetite, and the degree of manifestation of reactions to external stimuli throughout observation period.

According to the scheme for evaluating the toxicity of waste in an acute experiment on warm-blooded animals using the “fixed dose” method (see Instruction No. 044-2015), the waste sample belongs to hazard class 4 — low hazard.

Evaluation of the genotoxic effects of waste in a micronucleus test.

During the experiment, a waste sample was placed in 2 glasses containing 450 ml of tap water, 50 g of waste in its native form in each glass. The control was similar containers containing pure water and silica sand. Groups of 4-5 mollusks Lymnaea stagnalis, randomized by weight, were placed in each glass; on the sixth day, mantle liquid was taken from surviving animals by irritating the legs with a brush.

The cell suspension was fixed with a mixture of glacial acetic acid and ethanol (1: 3), then placed in the refrigerator for 1 day. To obtain smears, the cell suspension was precipitated by centrifugation and applied to slides. Staining was carried out according to Giemsa, cells with micronuclei, signs of damage to the nucleus, and apoptotic bodies were taken into account. Cytogenetic studies were performed on an Axioskop 40 (x 1000) microscope (Instruction No. 044-2015).

Test conditions: air temperature 18-20 ° C, rel. humidity 30-46%, atm. pressure 732-747 mm Hg

During the experiment with sample No. 1, no animal deaths were noted. The results of the micronucleus test are presented in table 1.

Table 1. Cytogenetic damage to cells in the mantle fluid of mollusks.

Number of animals Number of cells % cells with micronuclei Initial signs of death The ultimate signs of death (apoptotic bodies) The control 10 5210 0.32 ± 1.17 0.26 ± 0.19 0.25 ± 0.8 Sample 9 4530 0.30 ± 0.11
p = 0.68 0.31 ± 0.12
p = 0.61 0.24 ± 0.7
p = 0.63

As can be seen from the results of the cytogenetic test, the investigated waste sample did not cause a statistically significant increase in the level of cells with micronuclei in the mantle liquid of mollusks.

Studies conducted to assess the genotoxic effect of waste on the test object Lymnaea stagnalis allow us to draw the following conclusion: the waste sample does not have a genotoxic effect on the mantle liquid of mollusks (no genotoxicity).

Toxicity assessment using the Eisenia foetida test model

The studies were carried out in accordance with Instruction No. 044-2015.

The experiment used a native sample of waste in a homogenized state.

Test object: genetically homogeneous laboratory population of the earthworm of the species Eisenia foetida (Savigny, 1826). In the experiment, sexually mature individuals weighing 200-400 mg were used.

The parameters of the substrate before making the test samples:

- pH 7.2;

- mass fraction of moisture 77.29%.

Settled tap water was used to adjust substrate moisture.

The course of the experiment. In the experiment, 7 individuals of Eisenia foetida per 500 g of model medium were used. Tested 3 concentrations of the sample waste. A homogenized waste sample was introduced into containers with the substrate, observing the ratio of the weight of the waste sample to the mass of the substrate: 100.0 g / kg, 500.0 g / kg, 1000.0 g / kg. After mixing the test samples with the substrate, the containers with the finished model medium were kept at room temperature for one day, then individuals of Eisenia foetida were introduced. As a negative control, a substrate without waste samples was used, in which individuals of Eisenia foetida were placed under identical conditions.

Prior to the beginning of the exposure and at the end of the experiment, each individual of the control group and the experimental group with a concentration of 1000.0 g / kg was weighed to calculate the collumeral weight of the group.

The experimental containers were incubated at room temperature while maintaining the mass humidity of the model medium for 7 days.

Throughout the experiment, changes in animal behavioral reactions and visible morphological changes were observed and recorded.

The registration of the results and their evaluation was carried out in accordance with Instruction No. 044-2015.

As a result of the experiment, over the course of 7 days, the death of the experimental individuals on the studied concentrations of the waste sample was not revealed: 10.0 g / kg, 100.0 g / kg, 1000.0 g / kg.

Survival in the control is 100%.

Survival in experiments at concentrations of 100.0 g / kg, 500.0 g / kg, 1000.0 g / kg - 100%.

Throughout the experiment, under the effect of the maximum saturated concentration of the waste sample (1000.0 g / kg), there were no manifestations of toxic effects in the form of a significant decrease in the growth of collumeral weight (table 2), manifestations of pathological behavioral reactions and visible morphological changes in animal organisms.

Table 2. The effect of the maximum saturated concentration of the waste sample on the dynamics of columellar weight at 7 days exposure.

Repeat No. Weight gain, g / individual control Weight gain, g / individual experience one +0.013 +0.028 2 +0.013 +0.013 3 +0.018 +0.022 four +0.029 +0.021 Me, 25%, 75%
quartiles 0.015 (0.013; 0.023) 0.021 (0.017; 0.025)
p = 0.56

Note: the differences are significant at p≤0,05

As a result of the assessment of the toxicity of the waste sample on Eisenia foetida, the absence of animal death at all studied concentrations was found, as well as the absence of toxic effects under the action of the maximum saturated waste concentration of 1000.0 g / kg.

Thus, the investigated sample of waste belongs to non-hazardous waste.

Assessment of phytotoxicity of waste.

The studies were carried out in accordance with Instruction No. 044-1215.

A native extract was obtained from a waste sample.

The extraction was carried out with a ratio of the sample of waste and distilled water 1 g: 10 ml, exposure for 3 days at room temperature (20 ± 5 ° C), with periodic shaking and stirring. The resulting hood was filtered through a blue ribbon filter.

Preliminary stage: seeds of cucumbers of the Zasolachny variety, radish of the Chirvony Velikan variety, and oats of the Sagittarius P447q7 variety were used as a test object. Seeds were sown 25 pieces in Petri dishes with two layers of filter paper, adding extract from the studied images in a volume of 15 ml. 3 replicates were performed.

Prepared cups were placed in microclimatic conditions (thermostats) and exposed for 7 days at a temperature of + 24 ° C, relative humidity of 50-70%, in the absence of light.

After 7 days, the length of the rootlets of the seedlings was measured by the root of the maximum length. The average value (L _cf ) of the root length from three replicates was determined for each seed culture in the experiment and control. L _{cp of experience} and L _{cp of control were} compared with each other and the effect of inhibition of E _T % was determined.

When evaluating the results, it is believed that the waste has a phytotoxic effect at E _T ≥20% in at least one of the seed crops; the absence of the phytotoxic effect of the waste at E _T <20%, or L _{cf experiment} > or = L _{cf control} in each seed culture.

If there is a phytotoxic effect, the hazard class of the waste is determined on the most sensitive seed culture according to the medium-effective dilution (ER ₅₀ ) parameter in accordance with Instruction No. 044-1215.

In the absence of phytotoxic effect, the waste sample in accordance with Instruction No. 044-1215 is non-hazardous in phytotoxicity.

The results of the study are shown in table 3.

Table 3. The results of the preliminary stage of the study of phytotoxicity of waste.

Sample No. Test culture (seeds) The average length of the roots of seedlings (L _cf ), mm Test reaction The braking effect of E _T % the control Radish 7.70 norm - Cucumbers 7.00 norm - Oats 6.70 norm - Native waste sample extract Radish 11.02 norm 0.00% Cucumbers 6.14 norm 12.28% Oats 8.62 norm 0.00%

As a result of the study of the native extract of the waste sample, the effect of inhibition of the development of roots of radish and oat seedlings was not observed (Е _Т = 0.00%).

The most sensitive to the action of the native extract of the sample is the seeds of cucumbers. The inhibition of the development of the roots of cucumber seedlings amounted to E _T = 12.28%, which does not reach the phytotoxicity threshold of 20%.

As a result of the assessment of the phytotoxicity of the waste sample in accordance with the established that the sample phytotoxicity refers to non-hazardous waste.

Thus, the achievement of the technical result, which is to ensure high-quality cleaning of wooden structures with the production of environmentally friendly waste, suitable for further use in industry, has been confirmed.

Wood freed from impregnating compounds can be used in the manufacture of building wood-polymer composite materials.

The condensate of the aqueous phase is directed to evaporation or disposal. Process water can be sent as steam back to the process.

Extraction products may be marketed as antiseptics or chemicals.

Claims (8)

1. A method of processing wooden waste treated with impregnating compounds, including grinding wooden waste, their subsequent processing, characterized in that the wooden waste is crushed to a chip level of less than 5 mm in size on at least one axis, and the processing of ground waste includes the following steps: blowing cold chips with water vapor before heating the chips, then supplying vapors of an organic aromatic solvent having a boiling point below 150 ° C and capable of forming azeotropic compositions with water, in the presence of and either the absence of ammonia vapors or volatile organic bases, while the condensate formed, which is a solution of the impregnating composition in an organic solvent, is collected and sent for processing, after the end of the removal of the impregnating composition, the chips are purged with water vapor at a temperature of 115-120 ° С until complete removal organic solvent, the condensate formed at this stage is sent to the separation by decantation. 2. The method according to p. 1, characterized in that it further includes the step of purging the chips with heated air to dry them after removing the organic solvent. 3. The method according to any one of paragraphs. 1 or 2, characterized in that the organic solvent used is xylene, and / or toluene, and / or petroleum xylene, and / or ethylbenzene, and / or cumene, or mixtures thereof. 4. The method according to any one of paragraphs. 1 or 2, characterized in that the end of the stages of removal of impregnating composition and / or organic solvent from the chips is determined by measuring the optical density of the resulting condensate. 5. The method according to p. 3, characterized in that the end of the steps of removing impregnating composition and / or organic solvent from the chips is determined by measuring the optical density of the resulting condensate. 6. The method according to any one of paragraphs. 1, or 2, or 5, characterized in that railway sleepers, or railway apron structures, or mast or pole structures are used as wooden waste. 7. The method according to p. 3, characterized in that the railway sleepers, or railway apron structures, or mast or pole structures are used as wooden waste. 8. The method according to p. 4, characterized in that railway sleepers, or railway apron structures, or mast or pole structures are used as wooden waste.