CS273578B1 - Method of waste liquidation - Google Patents

Abstract

The method of disposal of waste originated during cleaning of industrial waste waters from bathrooms, of oiled waste waters with toxic metal and crude oil content, and of solid waste contaminated by crude oil substances is based on prior stabilisation of these wastes by means of organic substances indicated in the description. Subsequently the waste is mixed with inorganic material, like ground limestone, sand, gravel, gravel sand, loamy soil or aggregates. The originated mixtures will be used in building industry, in sub-bases, or in road or railroad engineering for construction of road and railroad embankments. The method can also be used for disposal of substantially saturated wastes with approximately 5 percent of dry matter weight content. The advantage of the method consists in the introduction of the wasteless technology.

Description

BACKGROUND OF THE INVENTION The present invention relates to a process for the disposal of wastes arising from the treatment of industrial wastewater from a galvanizing plant and oil-containing waste waters containing toxic metals and petroleum substances, and solid wastes contaminated with petroleum substances and their repeated stabilization by soot or coal products. separately or in admixture with a dehto oil emulsion and subsequent mixing of the dried and crushed product with ground limestone and sand, gravel, gravel, loam or aggregate, and utilization of the mixture thus obtained in the construction industry, particularly in the road construction industry.

The prior art known process for the disposal of wastes arising from the treatment of industrial waste water by means of hydrophobicizing agents, i.e. also molten asphalt, asphalt emulsion or suspension, has insufficient efficiency in stabilizing petroleum-containing wastes. When stabilizing the neutralization sludge into molten asphalt mixtures in road construction, the neutralization sludge must be dried and mjft to the requirements corresponding to the quality of the stone meal. Thermal silicate methods of neutralization of sludge neutralization are insufficient in terms of leakage of toxic metals into the atmosphere. Other oil-contaminated waste disposal methods are based on a significant increase in the volume of reagents added, such as lime, cement, waterglass, bentonite, or toxic asbestos, which increases transportation demands and reduces their calorific value when used as a fuel in combustion systems. The aqueous extracts of such stabilized wastes are then significantly salinized and have a high pH in the range of 12 to 14, which has a negative impact on the environment. So far no method has been found for non-thermal waste disposal containing simultaneously toxic metals and petroleum substances with subsequent use of the obtained mixture in construction.

The above drawbacks are substantially reduced according to the invention. It is based on the fact that the surface of wastes arising from the treatment of industrial waste water from galvanizing and oily waste water containing toxic metals such as copper, nickel, zinc, chromium or cadmium and petroleum substances and solids such as is clay, stones or perlite contaminated with petroleum substances, all in the form of an aqueous suspension having a dry matter content of 3 to 70% by weight, acting continuously and independently of the sequence, and repeatedly first by a carbon black or coal product such as coal dust, activated carbon or coke oven or a mixture of carbon black and coal product in a weight ratio of 1: 1, so that the weight ratio of waste to carbon black, coal product or mixtures thereof is 500: 1 to 1: 1, especially in the presence of oil content in the waste and then an asphalt emulsion alone or in admixture with a tar oil emulsion, wherein the weight ratio of asphalt and tar oil is range 1: 10 to 1: 1 so that the weight ratio of the dry matter of the waste including the carbon black and the coal product; the asphalt contained in the asphalt emulsion was 500: 1 to 1; 5. The tar-oil emulsion is prepared according to known technological procedures as with the bitumen emulsion, only the bitumen is replaced with tar oil. The resulting mixture is further dewatered preferably by kalois, and further dried at a temperature range of 20 to 120 ° C. The dried mixture, after its crushing preferably to a fraction size of 0.0 to 4.0 mm, is further mixed independently of the order first with ground limestone in a weight ratio of ground limestone to stabilized mixture of 1: 100 to 5: 10, further mixed with sand, gravel sand, gravel, loam, or aggregate, so that the weight ratio of the dry matter content of the stabilized waste to sand, gravel, gravel, loam, or aggregate is 10: 1 to 1: 1000.

The advantage of the invention lies in the fact that it is also possible to dispose of considerably aquifers, i.e. about 5% ^. with a dry matter content of waste containing a combined content of toxic metals such as yeast, nickel, zinc, chromium or cadmium, and petroleum substances. If the waste is in a solid state, it is fed to an aqueous suspension, eg by wet grinding in a ball mill. In this way, it is possible to dispose of old landfills of neutralization sludge from galvanic processes. If the product is not sufficiently hydrophibised, as determined by the leaching test according to known technology, the process of mixing the waste with the carbon black or coal product and the asphalt emulsion followed by drying the mixture is repeated. In addition, ground limestone is added to the dried and crushed mixture, which significantly increases the resistance of the mixture to acid rain and to increase the volume

CS 27357Θ Bl weighing more than 1.5, the mixture is finally mixed with sand, gravel, gravel, clay-sand or aggregate. It is advantageous to use the sand mixture in subfills, the mixture with gravel, sand or clay-sand trowel is preferably used in road or railway embankments. It is advantageous to use a mixture of aggregates with bituminous pavement or railway track superstructure. The invention is applicable in all waste producing plants, such as neutralizing sludges containing toxic metals and petroleum substances, as well as oily wastes such as aggregates, soil or perlite and it is not possible to landfill or incinerate hygienically harmlessly. A further advantage of the invention is that it is a waste-free process.

Example 1

20 kg of used perlite or oily soil are metered into the concrete mixer and water is added to form a suspension. One kilogram of soot or coal dust is added gradually with continuous stirring until the petroleum products are completely bound, as determined by chemical analysis of the sample filtrate. Then, 5 to 10 L of the asphalt emulsion is added to the mixture and mixed thoroughly. The mixture was tipped from the mixer and allowed to dry at 20 ° C. The dried mixture was further mixed with 1 kg of ground limestone and finally with 200 kg of alumina clay. The resulting product is used for road embankment construction.

Example 2

50 kg is metered into the concrete mixer. sludges from oil-treated sewage treatment plants, ie with an oil content of 50% by weight of the dry matter. The waste is treated with stirring by adding water to the aqueous suspension. Add 5 L of an asphalt emulsion, then add powdered charcoal to form a thick mixture. The resulting mixture after drying must not show in the aqueous extract after its filtration in the oil filtrate, otherwise the process is repeated. The resulting mixture was prosuší at 20 ^Q C, then mixed with sand or aggregate in an amount of 200 kg. The aggregate / sand mixture is further mixed with ground limestone in an amount of 3 kg. The aggregate-containing mixture is used for road or rail construction and the sand-containing mixture is used in sub-bases when laying cable or gas distribution lines.

Example 3

To a 10 m sludge collection vessel containing heavy metals such as copper, nickel, zinc, chromium and cadmium in the form of hydroxides with a dry matter content of 5% by weight, add 50 l of an asphalt emulsion with a weight of asphalt of 60 % and a further 50 L of a tar oil emulsion having a tar oil content by weight of 60%. After thorough mixing, the suspension is pushed by the pump into the filter press and this cycle is repeated until the filter press is completely filled. The sludge is discharged from the filter press into an oven where the sludge is dried at 120 ° C. The dried sludge is crushed mechanically by means of a shovel and mixed again in an asphalt emulsion mixer with an asphalt content by weight of 60% until the sludge is completely wetted. The charcoal dust, preferably dried to a dry matter content of at least 90% by weight, is then metered into the friable mixture. The resulting mixture is dried again at 20 ° C, after which the stabilized sludge is mixed with the ground sludge in a weight ratio of ground limestone to neutralization sludge dry matter of 1: 5, further mixed with gravel size fraction. 0.0 to 4.0 mm, or clayey sand or gravel in a weight ratio of 1: 2 or 1: 4. The obtained mixtures are very advantageous for the construction of road or railway embankments.

Claims (1)

Waste treatment methods for the treatment of industrial waste water from galvanizing and oily waste waters containing toxic metals such as honey, nickel, zinc, chromium or cadmium, and oil and solid wastes such as clay, stones or CS 273578 B1 perlite contaminated with petroleum substances, characterized in that the surface of the waste in the form of an aqueous slurry, in particular at a dry matter content of 3 to 70%, is treated under continuous stirring irrespective of the sequence, even repeatedly, first with soot or coal product , such as coal dust, activated carbon or coke wall or mixtures of carbon black and coal product in a weight ratio of 1: 1 so that the weight ratio of the dry matter of the waste to the carbon black or coal product or mixtures thereof is 500: 1 to 1: 5; especially in the presence of petroleum content in the waste and then the bitumen emulsion alone or in admixture with the tar oil emulsion, wherein the weight ratio of bitumen and tar oil ranges from 1: 10 to 1: 1 so that the weight ratio of dry waste including carbon black, coal of the product or mixtures thereof was obtained relative to the asphalt contained in the asphalt emulsion in a weight ratio of 500: 1 to 1: 5, the mixture is further dewatered and dried at a temperature range of 20 to 120 ° C, the obtained mixture after crushing preferably to a fraction size of 0.0 to 4.0 mm is further mixed independently of the order first with ground limestone in a weight ratio of ground limestone to stabilized mixture 1 : 100 to 5: 10 and further mixed with inorganic material such as sand, gravel, gravel, loam, or aggregate, so that the weight ratio of stabilized waste to inorganic material is from 10: 1 to 1: 1000.