HU195465B - Process for neutralizing oil-containing organic materials, as well as sewages and oily emulsions - Google Patents

Abstract

Field of the Invention The present invention relates to an oil-containing organic material. and for the disposal of wastewater and oily emulsions in such a way that (a) 2 to 3 kg of combustible lime per m3 of oil-containing wastewater is mixed and mixed, after the sedimentation the oil layer collected on the surface of the water, including waste water containing sedimented solid and oil sludge. the pH of the oil emulsion containing the emulsifier is adjusted to 4-5 with an inorganic acid, the oil layer collected on the surface of the water is separated after standing, the pH of the residual sludge is separated by hydrate 7 The pH of the oil emulsion is adjusted to -8, and is adjusted to 5-6 with an inorganic acid, and the water in the emulsion is decomposed electrolytically while the oil particles released from the emulsion during decomposition with the developing gas bubbles are disintegrated to the surface. they continue until the water is completely cleaned and run out t water is constantly replaced, the oil layer collected on the water surface is separated after standing, the pH of the residual sludge is adjusted to 7-8 with lime hydrate, and b) a. sludge or other organic matter contaminated with oil at pH 7-8, in particular oily cloth or sawdust with 55-607 moisture content of organic material such as urban waste, straw, leaf, shredded corn stalk or cob it is blended with a granule, tobacco powder waste, sawdust or planed chips and an activator prepared in a manner known per se, preferably in a weight ratio of 3: 6: 1, the mixture being placed in a waterproof layer in a prism and composted for 2 1/2 to 3 months. -1-

Description

The present invention relates to a process for the disposal of oil-containing organic matter as well as wastewater and oily emulsions.

There are several methods for disposing of oil-containing wastes. One method is to place such waste directly on the field after dewatering. Alternatively, after the dewatering, the oil-containing waste is decomposed by a special oil-decomposing bacterium. There is also known a process in which the oil content of the waste is disintegrated in specially formulated chambers under biochemical, aerobic conditions provided by a chemical reaction. Alternatively, oil-containing wastes are mixed with municipal rubbish in a predetermined proportion, and the oil content slowly decomposes over the years through microbiological activity controlled by the mixing rate, with the development of biogas. Disposal of oil-containing wastes by incineration and brick mixing is also known.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a process for the economical disposal of oil-containing waste which is extremely hazardous to the environment in a short period of time.

According to the invention is carried out by that j) the oil-containing wastewater ^m3 -enként quicklime 2-3 kg was added and mixed, after settling, the accumulated water surface oil layer was separated off to waste water containing the settled solids and oily sludge having a pH or by adjusting the pH of the oil-in-water emulsion containing the emulsifier, to 4-5 with inorganic acid, separating the oil layer on the surface of the water after standing, and adjusting the pH of the residual sludge to 7-8- or the pH of the oil emulsion containing emulsifier ₃ ) is adjusted to 5-6 with an inorganic acid and the water in the emulsion is electrolytically decomposed while the oil particles released from the emulsion during the decomposition are brought to the surface by decomposition of the water. continue until the water is completely cleaned After standing, the oil layer on the surface of the water is separated off after standing, and the pH of the remaining sludge is adjusted to 7-8 with lime hydrate.

(b) sludge or other organic matter contaminated with oil, adjusted to a pH of 7 to 8, especially oily rags or sawdust from organic matter waste such as urban waste, resulting from process (j), ( ₂ ) or ( ₃ ); straw, leaf, chopped corn stalk or cob, yarrow, tobacco dust, sawdust or shavings and activator, preferably in a weight ratio of 3: 6: 1, and place the mixture in a waterproof layer for 2 1/2 to 3 months.

In step (j) of the process, after the addition of the burnt lime, the water is converted to calcium hydroxide with water, and heat is generated during the reaction, causing the waste water containing excess oil particles to move. Leaving the mixture to stand, the solid impurities settle and the oil particles float to the surface. The oil layer collected on the surface is separated by an oil sump.

Oily emulsions containing the emulsifier can be separated only marginally by sedimentation and therefore are separated chemically or by electrolytic water decomposition.

In step a,), it is chemically separated with an inorganic acid such as waste acid. This is done with hydrochloric acid or sulfuric acid or with calcium sulfate solution containing excess acid. At pH 4 to 5, the emulsifier precipitates in the form of a precipitate, the precipitate settles in a few hours, and the released oil particles float to the surface, where they can be removed by skimming. The pH of the remaining sewage and sludge is then adjusted to 7-8 with lime hydrate.

In step _{3) of} the electrolytic water decomposition is conducted to the bottom of the storage tank oil emulsion, of course, isolated from the container jacket of iron, nickel mesh installed above the mesh is carbon electrode is immersed in the solution. A DC 24V voltage of 25-30 A is applied to these two electrodes after the emulsion has been acidified to a pH of 5-6, mainly due to improved current conductivity. When electrodes are energized, water forming one phase of the emulsion decomposes to hydrogen and oxygen gases. Hydrogen gas bubbles are formed on the cathode side, and oxygen bubbles are formed on the anode side, and. rise to the surface of the solution. These bubbles carry oil particles floating in the emulsion medium, which form an oil layer on the surface of the emulsion. Generally, the emulsion should be powered for 12 hours and the skeleton lost due to electrical breakdown should be replenished so that the oil particles released from the emulsion are carried to the surface by the evolving gas until the water is completely purified. After 12 hours of resting and settling, the oil layer on the surface was separated by means of an oil stripper and the pH of the remaining effluent and sludge was adjusted to 7-8 with lime hydrate.

In step b), an activator prepared in a manner known per se is used as the activator.

According to the said process, the activator is first prepared by mixing green plant material, grape marc, reed debris, straw and meadow grass, decomposed cane sludge, ammonium nitrate and poultry manure into a prism and dampening it until it is wet for 22 days. let them stand. If the temperature of the prism drops below 55 ° C, the prism is rotated. The vaccine thus produced is produced by the. activator by mixing green plant material, grape marc, cane debris or chopped straw and peat bran, moistening the mixture, adding 0.5 to 1% of inoculant to the moistened material, leaving it in a prism for 2-3 weeks. Meanwhile, fallen leaves, peat bran and vegetable waste, preferably straw and / or corn stalks, are mixed, tobacco powder, lime hydrate and ammonium nitrate are added, the mixture is moistened, placed in a prism and left to stand. When the temperature of the prism has reached 50-55 ° C, air is injected into the prism, and the pH of the prism is maintained at 7.5-8, C: N%, and the air is blown until the material of the prism is brown. colorless, the mixture is then aged for 10 to 14 days, finally mixed with the inoculated and non-inoculated prism, poultry litter is added and set aside for 8 to 10 days.

volume fraction, for 35-40% by weight of oil sludge, preferably 60 parts by weight of 55-60% organic matter waste and 10 parts by weight of activator

195,465; For oily sludges with an oil content of more than 40% by volume, for 25 volumes of oily sludge. 60 parts by weight of 55-60% organic matter waste and 15 parts by weight of activator were added. The prismatic mixture and the activator, which contains nitrifying and cellulose-degrading bacteria and various fungi and microorganisms that promote and accelerate hunrification, begin to intensify fermentation.

Within 10 days, the temperature of the prism reaches 60-65 ° C, and within a further 8-12 days it may reach 70 ° C. The temperature in the prism mixture then stagnates for 6-7 days, then begins to sink abruptly and falls to 35-40 ° C after 3-4 days.

This process takes about 1 month. During this fermentation period, the outward-flowing water vapor produced by the high temperature will carry some of the heat-loosened oil particles, partially distribute it proportionally inside the prism, but it may also occur that some of the S-15 cm outer layer of the prism the oil content will be one thousandth higher than inside the prism. Then the whole prism is turned.

By the time of the first recirculation, i.e. during the fermentation period, at least one third of the oil content of the prism is generally humified. If the moisture content of the prism drops below 50% during the fermentation period, the mixture in the prism is rehydrated with oil skimmed to a maximum of 50-55% moisture.

The completely homogeneous mixture, which has been turned over and placed in a new prism, now begins to ferment again, but at 20 the fermentation hardness is already traction, much slower, and after 12 to 15 days the resulting temperature barely reaches 58-60 ° C. The maturation, complete humus process, comes to the forefront. The activity of cellulose-degrading and other microorganisms becomes more intense, and the enzymes that accompany the life activity of bacteria and fungi work together to transform the entire structure of the prism into humus. After one month, an average sample of the prism should be taken and checked for residual oil in the laboratory. The prism should be rotated a second time only if, after the intermediate sampling, the laboratory test has not yet decomposed.

The process according to the invention has the advantage of being able to dispose of oil-containing organic matter, in particular wastewater and emulsions, in a relatively short period of time, and at the end of the process produce high quality compost suitable for soil replacement in agriculture.

The process of the invention is illustrated by the following example.

Example

waste water comprising a) Washing oil -énként m ³ kg of hydrated lime was added, the mixture was agitated twice intimately san ^ 5, and allowed to stand for 24 hours. The oil layer collected on the surface of the wastewater was then stripped off using an electrically driven disc oiler to provide waste oil. The residual waste water had a pH of 7 and an oil content of 15%. θθ

b) 30 parts by weight of 38.77% oil-containing sawdust, parts by weight of straw and 10 parts by weight of 38.10 ^{1 3} germinator activator prepared according to Example 2 of Hungarian Patent Application 4926/85 were mixed and the moisture content of the mixture in step a) ⁰³ The blend was thoroughly homogenized and placed on a 40 cm thick peat bed into a cone shaped about 4.5 m in diameter and 2.8 m high.

After 22 days, the temperature of the mixtures rose to 68 ° C. Laboratory analysis showed that the oil content of the mixture was reduced by 30% and the moisture content by 45%. so we adjusted the moisture content to 55% with oil-containing waste water.

This oil-containing wastewater was prepared by adding to the wastewater containing 10% oil emulsion 3 kg of waste sulfuric acid per nm and, after 24 hours of resting, the oil was collected on a disk top. To the resulting wastewater at pH 6, 2 kg of lime hydrate was added per m ^{3 to} adjust its pH to 7 to 8.

After re-adjusting the mixture to 55% humidity, the temperature slowly increased again to 58 ° C over 3 weeks, followed by a slow decrease in temperature and after one month the mixture reached maturity. The resulting compost, which according to laboratory tests contained only traces of oil residues, can be used well as a fertilizer for soil replacement in arable land. This was confirmed by the shoot tests with different plant seeds.

Claims (1)

Patent claim Process for the Disposal of Oil-containing Organic Substances and Wastewater and Oil Emulsions, characterized in that a) 2-3 kg of burnt lime per m ³ of oil-containing wastewater is added and mixed, after which the oil layer collected on the surface of the water is separated, so that the settled solid and \ t the pH of the oil emulsion containing the emulsifier is adjusted to 4-5 with the inorganic acid, the oil layer collected on the surface of the water is separated after standing, the residual sludge is separated from the surface of the water. pH is adjusted to 7-8 with lime hydrate, or the pH of the oil emulsion containing emulsifier ₃ ) is adjusted to 5-6 with inorganic acid, and the water in the emulsion is decomposed electrolytically while oil emitted from the emulsion during decomposition is decomposed by the electrolytic process. particles are brought to the surface, a decomposition is continued until the water is completely cleaned, and while the consumed water is constantly replaced, the oil layer collected on the surface of the water is separated after standing, and the pH of the residual sludge is adjusted to 7-8 with lime hydrate. (b) sludge or other oil-contaminated organic matter at pH 7 to 8, in particular oily cloth or sawdust produced by the process of process (a) ( ₁ ), ( ₂ ) or ( ₃ ), with 55-60% moisture content of organic matter, such as urban waste; mixed with garbage, straw, bark, shredded corn stalk or cob, elder, tobacco powder, sawdust or planed chips, and with an activator prepared in a manner known per se, preferably in a weight ratio of 3: 6; 1, and then placed in a waterproof layer prism and 2 1/2 - Compost for 3 months.