HU202904B - Process for producing soil conditioning agent by microbiological treatment of waters and/or sludges contaminated with hydrocarbon derivatives, comprising heavy metal compounds and arising particularly in machine repair workshops, service stations and washeries - Google Patents

Abstract

The object of the application is to provide a soil conditioning agent by microbiological treatment of water and / or sludge containing hydrocarbon derivatives and heavy metal compounds by mixing the contaminated material with organic manure and inoculating with a mixed starter culture resistant to heavy metals and subjected to microbiological degradation. and the resulting soil conditioner is mixed with the soil.

Description

The present application relates to a process for the preparation of a soil conditioner by microbiological treatment of water and / or sludge containing hydrocarbon derivatives and heavy metal compounds, in particular from machine repair plants, service stations, washers, when the contaminated water and / or sludge is mixed with and the hydrocarbon content is eliminated by microbiological degradation.

Hazardous waste is an undesirable by-product of rapid civilization and the rapid development of technology, which, if not defended in time, calls into question the future of humanity. Especially a lot of problems are caused by various hydrocarbon derivatives, which are released into the environment by oily wastewater and oily sludge from car workshops, workshops, washers and their disposal and disposal is a serious environmental problem. The problem is exacerbated by the fact that machine repair plants mainly use waste oil (lubricating oil) as a contaminant, which is difficult to biodegrade due to its composition and heavy metal content, thus posing a permanent environmental hazard.

Concerning the properties and harmful effects of hydrocarbon contamination into the environment, it has been found that the oil contains mutagenic, carcinogenic and growth inhibitory substances and that some fractions destroy algae and the juvenile form of many organisms in very small amounts (50-100 mg / liter). Hydrocarbons have been shown to inhibit the degradation of organic matter by inhibiting microbial chemotaxis and have a negative impact on aquatic and terrestrial ecosystems. (Chet, I. and Mitchel, R. (1976): Natur. 261, 308-309).

Hydrocarbons released into soil or water under natural conditions only decompose slowly. The reason for this is that hydrocarbon decomposing organisms are normally only present in a limited amount in the environment and are subject to certain conditions (such as adequate temperature, humidity nutrient supply, etc.) and are therefore required for intensive decontamination of hydrocarbon contamination. they are only very unlikely.

This discovery forms the basis of patents Nos. 181,558, 181,566, and 181,817, which are based on the artificial propagation of a microbial assemblage of specialized oil-decomposing organisms on a mass scale and released into the contaminated environment when the conditions required for their operation are optimal. the intensive activity of the large mass microbe released into the environment results in a rapid 80-90% biodegradation of environmentally harmful hydrocarbons.

There are two important limiting factors to the use of the process of the above patents. The patent application is limited by the fact that the conditions necessary for the optimal functioning of microbes are difficult to provide under natural conditions, so that the low temperatures in late autumn, winter and early spring limit the activity of the microbes, slowing down the biodegradation of hydrocarbons, or it stops. Another limiting factor is that these patents have been developed primarily for the elimination of mineral and gas oil contamination in "Havari". Organizations of the starter culture used for the vaccination were also developed according to the task. However, at the machine repair plants it is mainly used oil as a contaminant, which differs significantly in both composition and heavy metal content from the two types mentioned above. The heavy metal content of the lubricating oil (Pb, Cd, Cr, Mo, etc.) is of particular importance for biodegradation, which as an enzyme inhibitor has an inhibitory effect on the growth and degradation of microbes such as the patented oil-destroying organisms.

For the disposal of oily wastes by composting, see note 192 591. Hungarian Patent ("PTR-SYSTEM": Palásthy et al., 1986), which essentially compostes oily sludge with a suitable additive consisting of fertilizers, rhyolite tuff and milk powder, suitably and mixed. However, in this way, it can only show an oil drop of about 40% in six months, and its reality is highly questionable. Part of the reason for this poor efficiency is that the number of decomposing organisms in the manure is low, which is understandable, since the microbes in the manure are predominantly derived from the animal intestinal tract. Oil degradation is a plasmid-bound property that microbes can acquire or lose as a result of genetic events. Because microbes from the bovine intestinal tract can be killed as a result of a genetic event, they can be lost. Because microbes from the intestinal tract of bovine animals have not encountered oil, there is no way for oil-decomposing organisms to be selected. Thus, although the powdered milk added to the fertilizer results in a high proliferation of microbes in the fertilizer, the lack or low number of hydrocarbon-degrading organisms implies low hydrocarbon-degrading intensity. The addition of milk powder is a direct disadvantage in terms of hydrocarbon decomposition, since the few oil-degrading microbes that may have been incorporated into cattle manure in some way use the readily biodegradable carbon compounds in milk powder as the carbon source.

Similarly, the fate of the environmentally polluting oily media is spontaneously decomposed by the number 174,531. patent (Kránitz et al., 1980), which basically places oily sludge in environmentally hazardous sludge on poor surface loose, sandy and loamy loam soils, where the oil is 50-80% - decomposes from spring to autumn.

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To overcome the limitations of these processes, we have developed a new procedure. Above all, we succeeded in isolating a heavy metal-resistant oil-decomposing culture capable of breaking down various types of lubricating oil. Heavy metals in the oil have no inhibitory effect on their metabolism and thus the biodegradation of the oil can take place in the presence of heavy metals. Heavy metals are bonded to a large surface area (adsorbent) which has a closed crystal structure and can be permanently enclosed in a liquid crystal structure from a liquid. An additional problem was the environmental factor required for the rapid and successful biodegradation, eg. to ensure a constant temperature, to implement a technological process that is substantially independent of the weather and seasons and does not require a separate energy source. This was solved by combining the use of heavy metal - resistant oil - decomposing organisms with the composting process known in agricultural practice and thus, since the heat generated during composting dissolves the temperature limits, the operation of the decomposing organisms is all; so we insured it during the winter.

In the process of the present invention, microorganisms have been isolated that are capable of degrading the aforementioned heavy oils (lubricating oil) in a mixed culture. In addition to its ability to degrade oil, the strain also exhibits a high degree of resistance to heavy metals, which, since these oils also contain heavy metal compounds, are of paramount importance for degradation. The mixed culture used to produce the starter culture, designated "OILDEG" 880 608 and the culture deposit number NCAIM B (P) 001070, contains three dominant heavy metal resistant organisms. These are: Pseudomonas fluorescenc, Pseudomonas sp. (UFP. Ι-ΙΠ biogroup) Pediococcus sp. (Pseudomonas fluorescens, Pseudomonas sp .: Pediococcus sp-70%: 30%). The culture is capable of biodegradation of oils contaminated with heavy metal compounds at temperatures of 5-50 ° C and pH 5.0-8.0.

SUMMARY OF THE INVENTION The present invention provides a process for preparing a soil conditioner by microbiologically treating waters and / or sludges containing hydrocarbon derivatives and heavy metal compounds, in particular from machine repair plants, service stations, washers, and microbial treatment of inorganic nutrients by treating the hydrocarbons with 5-10 times slurry of organic fertilizers or organic material containing vegetable waste is first made into a base of 80-100 cm in height, whereby the contaminated material is layered with a thickness of 5-15 cm, to which max. 0.1 wt%, i.e. 1 kg / m ² in an amount of high surface area powder (adsorbent) and the active ingredient of the inorganic nitrogen as nutrients to 7 g / m ^2, a phosphorus material may be 3 g / m ² Potassium active ingredient 5 g / m ²

8 volumes were mixed, followed by a hydrocarbon-degrading starter culture (accession number NCAIM B (P) 001070) consisting of 10 -10 cells / ml of three dominant strains resistant to heavy metals (Pseudomonas fluorescens, Pseudomonas sp., Pediococcus sp.). of aqueous solution containing 3 to 5 liters / m ² , after which 50 to 60 cm of manure or organic material is applied, again the layer is contaminated with a thickness of 5 to 15 cm, to which additives are added as detailed in the first layer and 30-40 cm fertilizer or organic material cover. If necessary, the moisture content of the resulting compost prism is adjusted to 70-80% with water and allowed to compost for 3 months.

Composting can also be carried out by making an organic fertilizer (cattle, horses, pigs, sheep, poultry, rabbit) or, where appropriate, organic plant manure from plant organic waste, depending on the amount of oil sludge to be disposed of. adjust the moisture content to 75-80% with water (also taking into account the water content of the oily sludge). Apply 10 cm thick oil sludge for disposal to the resulting fertilizer layer, supplemented with an appropriate amount of NPK and 1 kg of heavy metal binder per square meter to fix the heavy metal (adsorbent grist). This is followed by inoculation with a digestion starter culture in the fermenter. From the starter culture of 10 ⁷ -10 ⁸ cells / ml, a uniform amount of 3-5 liters / square meter is applied to the slurry. An additional 50 cm of fertilizer layer is then placed over the sludge layer, and a further 10 cm thick sludge layer is applied and the treatment with additives and starter culture is repeated. The manure deer is finally closed with a layer of fertilizer 30-40 cm thick.

An advantage of the present invention is the disclosure of WO 192,591. In contrast to U.S. Pat. No. 192,591, the patent claims that our process does not contain milk powder and thus, because no readily available carbon source is available, oil starter culture organizations are forced to use hydrocarbons in contaminated water or sludge to reproduce, Hungarian patent, which primarily (or exclusively!) breaks down easy-to-use milk powder. A further significant advantage of our process is that the adsorbent used (heavy metal binder) captures the heavy metal content of the oil contamination, which in such a form, without losing its mobility, does not subsequently burden the soil.

The advantage of the prior patents is that the applied starter culture organisms exhibit high resistance to heavy metals, even under conditions where the activity of the heavy metal sensitive organisms is inhibited and thus 90% oil degradation can be achieved within three months. for other processes, 40% oil degradation occurs within 6 months.

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A further advantage of the process is that the 880,608 organisms of "OBLDEG" consist exclusively of optional anaerobic organisms which are capable of biodegradation of the oil under aerobic and anaerobic conditions in a commensurate cooperation.

It is a further advantage that the propagated microorganisms introduced into the soil by the conditioning agent produced have antagonistic properties against the pathogenic fungi of the plant, thus providing a high level of protection in the rhizosphere of the plant.

EXAMPLE 1 A 4m horn is prepared according to the technology described above, which consumes: 37.5 cubic meters of organic fertilizer, 5 cubic meters of heavy metal compound oil sludge, 25 kg of "Filtron-2" (heavy metal binder), 75-125 liters of starter. culture, 175 g N-active substance, 75 g P2O5,125 g K2O. The average moisture content of the compost prism was 78%. The composting time is 3 months.

Example 2

In each case, the procedure was as in Example 1 and the consumed 10 * 10 m deer material needed: 150 cubic meters of organic manure, 20 cubic meters of oil sludge, 100 kg of "Filtron-2" (heavy metal binder), 300-500 liters starter culture, 700 g N-active substance, 300 g P2O5, 500 g K2O. The moisture content of the compost prism was 73%, pH 6.5. The composting time is 3 months.

Claims (3)

PATENT CLAIMS A process for the preparation of a soil conditioner by microbiological treatment of organic fertilizers and the addition of inorganic nutrients to waters and / or sludges containing hydrocarbon derivatives and heavy metal compounds, in particular from machine repair plants, service stations, washers, characterized in that of organic fertilizers or organic matter containing vegetable waste is first made into a base having a height of 80-100 cm, which is then coated with a hydrocarbon-contaminated material having a thickness of 5 to 15 cm, to which max. high surface area m ² in an amount of adsorbent powder and inorganic nutrients as an active ingredient a nitrogen 7 g / m ^2, P active compound with 3 g / m ^2, potassium active ingredient mixed with 5 g / m of ^2, then this ΙΟ ⁷ -10 ⁸ cells / ml germ three dominant - Nehe an aqueous solution of a hydrocarbon-degrading starter culture (Pseudomonas fluorescens, Pseudomonas sp., Pediococcus sp.) (deposited under number NCAIM B (P) 001070) at a rate of 3 to 5 liters / m ^2. After the application of 60 cm organic manure, another 5-15 cm thick layer of hydrocarbon-contaminated material was layered to which 0.1 m%, i.e. 1 kg / m ^{2 of} adsorbent flour was added, and 7 g / m ² of nitrogen and 3 g of phosphorous were added. / m ² , an aqueous solution containing 5 g / m ² of potassium active substance and then 35 liters / m ^{2 of} an aqueous solution containing the above ΙΟ ^{7 to} 10 ⁸ cells / ml hydrocarbon-degrading starter culture, followed by 30-40 cm fertilizer or organic material is covered while, if necessary, water is used to adjust the moisture content of the compost prism to 7080% and allow it to compost for 3 months. Process according to Claim 1, characterized in that the organic manure is cattle and / or horse and / or pig and / or sheep and / or poultry manure. The process according to claim 1, wherein the composting is carried out at a pH of 5-8 and a temperature of 5-50 ° C. Published by the National Office for Inventions, Budapest Responsible: dr. Gabriella Swoboda Head of Department