RU2521707C1 - Biorecycling method of oil sludge and oil production and processing waste - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: for biorecycling of oil sludge and oil production and processing waste by means of soil populating with natural black-soil-forming organisms a mixture is prepared with an initial composition of 26-30% of oil sludge, 26-30% of liquid oil sludge and the remaining part of organic domestic waste and/or saw dust, the mixture is infused within 20-24 hours at a temperature of 20-25°C for further populating with earthworms of the first generation, the mixture is withhold within 17-30 days till the earthworms of the second and third generations appear for the purpose of the sludge-contaminated soil treatment. The earthworms of the second and third generations grown in a hothouse conditions by adaption of the earthworms of the first generation to the above mixture are introduced to the contaminated soil. At that introduction of the earthworms of the second and third generations is made at a volume ratio of soil and the mixture equal to 10-15:1.

EFFECT: improving efficiency of the contaminated soils treatment.

4 cl

Description

The invention relates to the field of biological treatment and waste processing technologies and can be used for the disposal of soils, industrial waste, sewage sludge contaminated with oil products and oil refining (hereinafter referred to as sludge) in order to protect the environment. It is known that waste, sewage sludge and contaminated soils formed during the extraction, transportation and processing of hydrocarbons are characterized by a high content of environmentally hazardous organic substances that are toxic to plants and animal objects. The environmental relevance of the problem solved in this invention lies in the fact that it proposes a solution for the ecological restoration of soil contaminated with oil products, the purification of which from sludge is in most cases a more complex process than the removal of oil pollution in water. This is due to the fact that oil is absorbed into the soil and, as a result, significantly complicates its collection and disposal. It is almost impossible to completely remove harmful substances in the contaminated area, which leads to the death of all living things, and the contaminated soil remains lifeless for many years.

A known method of processing oil sludge (RF patent No. 2198747, ⁷ BCC 1/10, 2000), which consists in the fact that the oil sludge is mixed with microorganisms and a biostimulant. To do this, clean soil and sawdust are added to the oil sludge in a mass ratio of 1: 2: 1, the bacterial strain Bacillus sp. Is used as microorganism. VNIISKHM 132, and as a biostimulator - Biotrin protein feed additive, after a period of incubation of microorganisms (at least 50 days), additional soil treatment with a biostimulator is carried out. The disadvantage of this method is that with significant energy and labor costs, the degree of soil purification is low and requires repeated repetition of soil treatment.

A known method of neutralizing soils from petroleum products (RF patent No. 2075447 IPC ⁶ C01F 1/40, 1997), which collects contaminated soil, separation and processing of sludge by cultured biological strains of aerobic and anaerobic microorganisms. The disadvantage of this method is that the soil is treated with special equipment at high energy costs and the delivery of sludge to the place of processing is required.

The invention is known (RF patent 2433109. IPC C05G 3/08, 2009), related to the field of agriculture and soil science, which is aimed at restoring black soil by introducing structured eco-black soil into the soil, populated by earthworms and microflora, characteristic of virgin chernozems and including includes cellulose-destroying fungi, lithotrophic microorganisms, lactic acid bacteria, nitrogen-fixing bacteria and nitrogen compounds destructors, or by applying a concentrated soil solution to the soil, which It consists of an aqueous extract (filtrate) ekochernozema containing dissolved components of humus and microflora. This method presents the technology of obtaining the filtrate and describes its purpose for structuring depleted soils and as fertilizer to increase the yield of various types of agricultural products. A feature of this invention is the use of the natural properties of earthworms for the ecological restoration of the soil not by a direct method of settling the worms in the soil, but to obtain a structured soil of ecochernozem or concentrated soil solution in the form of a filtrate. In the description of the patent No. 2433109 there is a mention that this method can be used to restore soil contaminated with oil, however, there is no evidence on the effectiveness of using this method in this direction. Nevertheless, given the fact that chernozem-forming organisms are used in this invention, including earthworms, this patent can be accepted as the closest analogue. The disadvantages of this solution include the fact that the purpose and end product of this method is ecochernozem or filtrate, which in the future can be used for the restoration of soil contaminated or depleted as a result of economic activity, and it is impossible to recognize the application of this method as an effective soil purification from sludge.

The aim of the claimed invention is the bioconversion of oil sludge and wastes from oil production and refining by introducing biomass containing bacteria and living natural chernozem-forming organisms into contaminated soil, which were previously adapted for processing soil with a high content of organomineral harmful substances.

This goal is achieved by introducing into the sludge or into the soil contaminated with sludge a mixture containing chernozem-forming earthworms of the second and third generations grown in greenhouse conditions at a temperature of 20-25 ° C by adapting the earthworms of the first generation to a pre-prepared mixture with a starting composition of 26- 30% of drill cuttings, 26-30% of oil cuttings, the rest is organic household waste and / or sawdust, and which is infused for 20-24 hours for the subsequent settlement of first-earth earthworms in it water, after which the mixture is kept for 17-30 days until the appearance of second and third generation worms in it, intended for processing soil contaminated with sludge by adding a mixture of earthworms of the second and third generation to it with a volume ratio of soil and mixture, as 10-15: one. The cultivation of earthworms of the second and third generations is carried out in thermal chambers with adjustable heating and ventilation of the mixture. The ready-to-eat mixture with earthworms of the second and third generations is transported to the place of treatment of contaminated soil in thermal containers, providing a temperature regime of the mixture of 8-35 ° C. Processing of contaminated soil is carried out by mixing the mixture in the field at the sites of contamination with sludge or waste oil production or refining by uniformly scattering the mixture on the surface of previously loosened contaminated soil at a temperature of 8-25 ° C, or by mechanical mixing of the mixture with contaminated soil in an enclosed area at the same temperature conditions with subsequent exposure for at least 12 days. In enclosed spaces, it is advisable to use a standard sludge collector (storage) with concrete walls and a base equipped with a drainage system. If necessary, after biotesting, re-cultivation of the soil is allowed. The use of wood sawdust in the mixture for adaptation of worms is due to the fact that the sawdust provides decompression and moisture preservation of the mixture, which favorably affects the development and reproduction of chernozem-forming organisms.

The expected effectiveness of the proposed method for the ecological restoration of soils contaminated with oil products and waste from oil production and refining is based on the high immunity of earthworms to various changes in the environment and the state of the soil in which they live, including in the case of soil contamination with oil products. It has been established that if the habitat for worms is extremely “hostile”, then several generations of worms drop cocoons, from which worms with immune abilities to this environment are born, and in each new generation these abilities are enhanced. Adapted generations of worms are capable of producing microorganisms and humifying harmful compounds present in the soil. This method is developed on the basis of studies [1] of the reaction and survival of earthworms under the influence of various types of petroleum products, which made it possible to establish factors affecting the mortality and survival of earthworms:

- type and dose of contaminant, duration of oil pollution;

- intervals of residual concentration of oil products in the soil at which restoration of the number of earthworms begins;

- residual concentrations of oil and oil products in the soil, at which restoration of the density of the earthworm population begins;

- Survival margins and border zone of earthworm migration under conditions of soil contamination with oil products;

- the adaptability and resistance of various individuals of worms to soil contamination with oil products, the behavior of worms during soil contamination with oil products, the manifestation of a response to pollution in search of clean soil.

Based on the available information about the behavior of earthworms in soil contaminated with oil products, a method for processing contaminated soil is proposed, according to which measures are taken to adapt and develop immunity in earthworms to an environment infected with oil products by growing second and third generation worms in greenhouse conditions in a specially prepared mixture, containing an appropriate percentage of drill cuttings, liquid petroleum cuttings, as well as household organic waste or wood e sawdust. A mixture designed to adapt the worm to the processing of contaminated soil should, on the one hand, contain a certain amount of pollutants in the form of oil sludge (or oil and drill cuttings), on the other hand

- it must be suitable for living a community of chernozem-forming organisms, i.e. must contain primary food (household waste, wood sawdust and other organic matter) and provide the primary conditions of detention: air and water permeability, the optimum temperature of the habitat of the worms, necessary for the biological decomposition of recyclable waste and the development of chernozem-forming and soil microorganisms. The adaptation of earthworms of the first generation is carried out in a mixture pre-prepared at a temperature of 20-25 ° C with a starting composition consisting of 26-30% drill cuttings, 26-30% liquid petroleum cuttings, the rest is organic household waste and / or sawdust, and which is infused for 20-24 hours. The mixture is thoroughly mixed and placed in a drained container and placed in a temperature-controlled room at a temperature of 8-25 ° C, optimal for biological decomposition. After the mixture has been colonized by worms of the first generation, it is kept in optimal conditions for the development of chernozem-forming organisms under conditions of 17-30 days until the appearance of new generation worms in it. Newborn worms born sterile absorb from the surface of new substrates microorganisms that decompose these substrates, in this case, oil-degrading microorganisms. Subsequently, with coprolites (feces of the worm), oil-degrading microorganisms are repeatedly absorbed by other worms and become a constant microflora of the entire community of inhabited worms. Thus, a new culture of chernozem-forming organisms arises with the properties of processing a new type of mixture containing petroleum products. The process of processing the mixture is accompanied by a qualitative change in appearance and smell:

the surface of the mixture is leveled and at the end of processing it resembles a uniform black mass, the smell disappears. As the new microflora composition is consolidated, the processing speed increases: if initially it takes 7-12 days to process a portion of the mixture, then after the adaptation of the worms the processing time is reduced to 1-2 days, this is an indicator of the end of the adaptation process and the suitability of using the new culture for practical purposes .

Processing of contaminated soil is carried out by mixing the mixture in the field at the sites of contamination with sludge or production waste, or by refining oil by spraying the mixture on the surface of previously loosened contaminated soil at a temperature of 8-25 ° C, or by mechanically mixing the mixture with contaminated soil in closed indoors at the same temperature conditions with subsequent exposure of 7-12 days, while it is advisable to use, for example, a standard sludge collector (storage) with etonirovannym base, equipped with a drainage system. If necessary, after biotesting, re-cultivation of the soil is allowed. For each field, individual adaptation of the mixture is necessary, since the composition of the oil can vary greatly depending on the location of production.

Preparation of a mixture with adapted worms can be carried out in places where the contaminated soil is treated under the conditions set out in this application, or grown adapted worms on specialized farms, and a ready-to-eat mixture with second and third generation earthworms can be transported to the place where the contaminated soil was processed in thermal containers that provide the conditions necessary for the life support of chernozem-forming organisms: ventilation, humidity and temperature regime of the mixture 8-35 ° С.

Evaluation of the effectiveness of the proposed method for the bioconversion of oil sludge and waste oil production and refining has been repeatedly confirmed by biotesting the condition of contaminated soil after treatment with a mixture containing chernozem-forming organisms.

Claims (4)

1. The method of bioconversion of oil sludge and waste oil production and refining by populating contaminated soil with natural chernozem-forming organisms, characterized in that a mixture containing chernozem-forming earthworms of the second and third generations grown in greenhouse conditions by adapting earthworms of the first generation to a pre-prepared mixture with a starting composition of 26-30% drill cuttings, 26-30% liquid petroleum cuttings, the rest is organic household waste and / or others spring sawdust, which is insisted for 20-24 hours at a temperature of 20-25 ° C for subsequent settlement of earthworms of the first generation in it, after which the mixture is kept for 17-30 days until the appearance of second and third generation worms intended for processing soil contaminated with sludge, while the introduction of a mixture of earthworms of the second and third generations into the soil is carried out at a volume ratio of soil and mixture, as 10-15: 1. 2. The method according to claim 1, characterized in that the cultivation of earthworms of the second and third generations is carried out in thermal chambers with controlled heating and ventilation of the mixture. 3. The method according to claim 1, characterized in that the ready-to-use mixture with earthworms of the second and third generations is transported to the place of treatment of the contaminated soil in thermal containers, providing a temperature regime of the mixture of 8-35 ° C. 4. The method according to claim 1, characterized in that the mixing of the mixture with contaminated soil is carried out either by the method of uniformly scattering the mixture on the surface of the previously loosened contaminated soil, or by mechanical mixing of the mixture with contaminated soil in an open storage or indoors at a temperature of 8-25 ° C followed by exposure of 7-12 days.