CZ297622B6 - Process for removing contaminants from surface of solids - Google Patents

Abstract

The present invention relates to a process for removing contaminants from surface of various materials in a quick and energy-unpretentious manner. The materials in question can be for example fuels or oil-contaminated soils, masonry components or for example crushed concrete floors. The invention can be also used when regenerating laundry wash machines and dishwashers or in textile industry for various cleaning operations. The implementation is not investment demanding and after making some small modifications all the existing apparatus can be used. The contaminants are removed by chemical reaction and/or treatment with chemical agents under simultaneous action of waves with frequency range of from 20 to 150 kHz.

Description

Method for removing contaminants from the surface of solids

Technical field

The invention relates to the removal of contaminants adhering to the surface of solids.

BACKGROUND OF THE INVENTION

In the course of life, mankind comes into contact with substances of various states. Solid, liquid or gaseous substances or mixtures thereof. Disregarding air, which is an integral part of life, the most common substances with which humans come into contact are solid substances. Solids are polluted or self-polluted on their surface and therefore it is necessary to get rid of these contaminants, because most of the utilities are absolutely pure. Substances that may be contaminated by the environment include, for example, different types of soil, sand, masonry and flooring components, textiles, textile fibers, and various other items of daily use.

Soil and building components, such as concrete, masonry, are most often contaminated with oils or other petroleum products. This contamination is very dangerous from the environmental point of view. The textile is contaminated by so-called dirt, the main components of which are dust, fats and other parts of the diet, or residues of products from production. Everyday items are mainly utensils and cutlery, which are largely contaminated by the last remnants of the food placed on them.

So far, the removal of contaminants from the soil is mainly done in two ways. Extraction and biodegradation are used. Extraction is very costly since it requires both the construction of an extraction device and a clean extract recovery device to be reused for the decontamination process. Therefore, biodegradation is the most common method of decontamination of soils and related materials. This is done by separating the contaminated soil and transporting it to a predetermined location where various substances, especially microorganisms, are added, which contaminate the contaminants over time. This process is lengthy and not always successful. It depends on the chemical nature of the contaminants and their sensitivity to degradation processes. In addition, it is energy intensive as it consumes a large amount of motor fuel to transport.

Textiles and textile fibers are decontaminated in washing systems with water containing various chemicals or enzymes, which facilitate the release of contaminants and its transfer into the washing water. The most well-known washing systems are household washing machines.

Daily articles are cleaned in a similar manner in commonly known dishwashers.

Genetically generated contaminants are separated for two reasons. Either because the contaminant is a valuable industrial or economic product, or further use of the decontaminated material is only possible if the material is pure. A valuable decontaminant is, for example, the so-called kamauba wax, which in very thin layers coats the leaves of the kameauba palm. Another example of genetic pollution is raw sheep wool contaminants. It is both sweat and lanolin substances, which consist of cholesterol esters with higher fatty acids and free cholesterol. To these two genetic impurities is attached dust and small parts from the environment in which the sheep move. Without the so-called washing of raw wool, the wool cannot be used industrially. It is therefore washed in a medium containing chemicals that facilitate the transfer of all components into the medium. The whole process is expensive, especially from an energy point of view.

In some cases, for example in the case of wool or textile washing, a considerable amount of water remains within the decontaminated material after decontamination is complete. This water is removed by mechanical means, mainly by centrifugation or pressing.

-1 CZ 297622 B6

SUMMARY OF THE INVENTION

All the drawbacks of the prior art decontamination methods are solved by the invention. Using the invention, the passage of contaminants into the wash medium is accelerated by the waves to which the entire wash system is exposed. The ripple increases the contact of washing liquid with the items being washed. This achieves complete removal of contaminants, from the surface of fabrics or removal to values that are well below the specified standard. The wash liquor is water containing various chemicals. Other different liquids, such as hydrocarbons or higher fatty acid esters, may also be used instead. It is understood that only biodegradable substances can be biodegradable by auxiliary chemicals. This second method is particularly suitable for use in order to remove the stubbornly absorbing contaminants.

It is also possible to first wet the surface of the contaminated substances with substances which dissolve or release the contaminants. In this case, a new type of contaminants is formed on the surface of the solids, consisting of the original contamination and the substance used for wetting. In order to facilitate the transfer of the newly formed contaminants to the water, various detergents are added to the contaminant wetting agent in this case. Then, the object 20 to be cleaned is rinsed with water. It goes without saying that ripple is again used for the perfect transfer of new contaminants to the wash water. This process is particularly advantageous in automobile repair shops, paint shops or various industrial parts that are heavily greased or contaminated with lubricants.

The contaminants are then recovered from the scrubbing medium by generally known adsorption processes or, in the case of biodegradable hydrocarbons or fatty acid methyl esters, the contaminated wetting liquids are added to conventional diesel fuel and burned in automotive engines.

DETAILED DESCRIPTION OF THE INVENTION

Example 1

Heavily contaminated with lubricating oils, concrete flooring contained up to 20,000 ppm decontaminants. After crushing into small pieces, it was decontaminated with water containing anionic and non-ionic substances in a total amount of 1-2% and the whole system was exposed to a wave preferably at a frequency of more than 20 kHz. After 15 minutes most of the impurities were transferred to the wash water. 40 Therefore, this was omitted and the entire decontamination process repeated again. After this repetition, the contaminants were no longer detected in the crushed concrete.

Example 2

Work clothes used automatically in automobile repair shops contaminated with oils and greases were decontaminated in a similar manner to Example 1. After decontamination was complete, it was completely clean.

Example 3

The food set, which was heavily contaminated, contained food residues, especially fats, proteins and high molecular weight carbohydrates, was decontaminated by the process of the invention. The wash water again contained ethoxylated alcohol surfactants with a number of ethoxyyl units

-2GB 297622 B6 above 6 (approximately 20). In this case, using a frequency in the range of 20 - 150 kHz, it took only 3 minutes to wash the used dining set. Polishing agents were added to the second mouse. After the wash the dishes were absolutely clean.

Example 4

Raw sheep wool of Australian origin was heavily polluted mainly by lanolinaceous substances and dust. It was decontaminated with water containing detergents with 30 ethoxylated units on C12-C16 higher fatty alcohols. After the washing operation, the washing medium was mechanically removed from the right wool containing a considerable amount of bath used. A 40 kHz wave was used for the washing operation. The washing operation was repeated twice more. After washing, the wool used was absolutely clean.

Example 5

To remove impurities from the sheets used in various productions, the metal surfaces were first wetted with methyl esters of rapeseed oil to which 1% of the fatty acid diglyceride contained in rapeseed oil and 0.7% of 6x ethoxylated C12-C14 alcohols were added. The plate was then left for 10 min. at rest, then rinsed with a stream of water. All impurities and wetting material used were completely removed. The sheet was capable of any subsequent processing. The wave used again was 40 kHz.

Industrial applicability

The invention is applicable to a variety of industries, such as mechanical engineering, the textile industry. It is equally applicable for household cleaning operations. It is of particular importance from an ecological point of view, as it allows very quickly decontamination of all environmentally hazardous material within a few minutes.

Claims (4)

A method for removing contaminants from a solid surface, characterized in that a chemical reaction and / or chemical agents are used to remove the contaminants in a frequency range of 20 to 150 kHz. Method according to claim 1, characterized in that the contaminants are transferred from the surfaces of the solids or their internal structure to the scrubbing liquid. Method according to claims 1 and 2, characterized in that the contaminants are first wetted with a liquid in which the original contaminants dissolve, the wetting liquids comprising detergents and after a few minutes a newly formed contaminant consisting of the original contaminants, the wetting liquid and of used detergents, rinsed with water. 4. The process of claim 3 wherein the wetting liquid is a biodegradable hydrocarbon or methyl ester of a higher fatty acid.