UA74760C2 - Method of neutralization of highly toxic substances - Google Patents

Abstract

The method of neutralization of highly toxic substances relates to the ecology and it can be used for the implementation of measures of environmental protection against highly toxic halogen-containingchemical compounds. Method consists in the neutralization of toxic compounds supplied to the reaction apparatus, by thermo-photolysis, which is achieved by action on the toxic substance or their mixture by ultraviolet radiation within the range of wavelengths from 200 to 600 nm and by luminous flux not less than 17500 lm, in the presence of catalyst containing metallic bismuth and oxides of aluminum, calcium or magnesium. Process is carried out at a temperature of 300-400 DEGREE C in the presence of water steam. The neutralization of toxic compounds can reach 100 %, toxic by-products obtained as a result of neutralization are absent.

Description

Description of the invention

The invention relates to ecology (to methods of decontamination of pesticides), namely to the decontamination of DDT and 2 of its metabolites and can be used to decontamination of spoiled and prohibited to use filled organochlorine chemical plant protection agents and other toxic substances.

Known methods of detoxification of toxic substances using mechanical, thermal, chemical, electrical and biological effects | (Letokhov V.S. Nonlinear selective photoprocesses in atoms and molecules // M.: Nauka, 1982, 405 p.). 70 Disadvantages of these methods are irrationally high energy costs, low process speeds, limitations in the possibilities of controlling intermediate stages, non-universality of the methods, and their significant dependence on thermodynamic and kinetic prohibitions.

A known method of electromagnetic destruction of substances | Delaunay N.B. The interaction of laser radiation with a substance // M.: Nauka, 1989, 288 p., RF Patent Mo2056160 / A method of targeted destruction of 12 molecular structures of a substance, 20.03.96).

Disadvantages of the known method are high energy consumption, difficulties in controlling the process of destruction of matter, difficulties in applying the method to substances that do not have significant electromagnetic susceptibility, low selectivity of the method, and low penetration of electromagnetic influence.

A rather promising method of destroying unsuitable pesticides is plasma-chemical, which has a number of advantages over fire and thermal methods due to the increase in the temperature of the electric arc to 2000-25002С. At the same time, the process of decomposition of dioxins is completed within 0.1 seconds, which allows reducing the dimensions of the reactor. However, the significant cost of such a reactor, the presence of gases produced in the plasmatron, the complexity of diagnosing the plasma-chemical process in an arc discharge at the highest temperatures does not allow recommending it for use in the disposal of unsuitable pesticides |GDR Patent Mo245941 A1. Method and device of 29 plasma pyrolysis of harmful and poisonous substances, 20.05.87; Patent DE Mo298459. Плазмохимический реактор.й (U for the destruction of toxic waste, 27.03.80; Patent OZ Mo4438706. Method and equipment for decomposition of waste with the help of plasma technology, 27.03.84).

The closest in technical essence and the result achieved is the method of decomposition of organic substances (Patent DE Mo4016514, Method of decomposition of organic substances, 28.11.91.), in which ozonation of pesticide solutions combined with ultraviolet irradiation is used for deep cleaning by 30 ) of the reaction mass. It should be noted that this method is suitable only for decontamination of low-concentration aqueous solutions. At the same time, additional pollutants are formed in the form of resins and gases, which may - contain dioxins, since the presence of oxygen does not exclude the possibility of their new formation. hE

The essence of the invention is as follows.

The disposal of toxic compounds is carried out mainly by thermal decomposition methods using various neutralizing components. Enormous energy costs, complex equipment design, had the speed of the process, limitations in the ability to control intermediate stages are compensated by a high degree of study and forecasting of the process, so the modernization was mainly reduced to the spread of the range of catalysts used and the improvement of the designs of reaction apparatuses. WITH

Modern methods of decontamination, such as plasma-chemical and radiation treatment with an electron beam, either have limited possibilities for changing the chemical composition and optimization of the decontamination process, or are not very effective in the case of high costs, since the energy of the electron beam is absorbed by the liquid non-uniformly in volume, then the change in the degree of purification is uncontrollable. The long irradiation time does not allow the economical use of modern industrial installations, which, in addition, are distinguished by the complexity of the reactor design, significant 75 energy consumption and cost. The task is to create a new economic method that allows almost entirely to break down the extremely stable organochlorine substance, which includes DDT and its metabolites (DDD, DDE), regardless of its concentration, and to exclude the entry of environmentally hazardous compounds into the atmosphere. - Technical result:

He») 50 - neutralization of toxic compounds by means of ultraviolet irradiation in the presence of a catalyst containing metal bismuth and oxides of aluminum, calcium or magnesium; c - ensuring complete and reliable destruction of highly toxic products; - guaranteed prevention of release of harmful substances into the environment;" - reduction of material and energy consumption of the process in comparison with traditional industrial methods. 59 The specified technical result during the implementation of the invention is achieved by the fact that the process of neutralization

HF) of toxic compounds is carried out under the influence of ultraviolet radiation in the wave range of 200-6b00nm in the presence of a photocatalyst, which is distinguished by the fact that metallic bismuth is used as a catalyst in the presence of aluminum, calcium or magnesium oxides and radiation with a light flux of at least 17500lm is used, at a temperature of 300-4002C in the presence of water vapor. 60 The peculiarity of this process is that it is carried out without the ingress of oxygen, in order to exclude, on the one hand, the oxidation of bismuth, and on the other hand, to prevent the "new" synthesis of dioxins, since it is known that it intensifies in the temperature range of 250-450 °C depending on the presence in the gases of products of incomplete decomposition, especially chlorides.

In addition, the catalyst is selected in such a way that its energy impact is equivalent to the b5 bond breaking energies in toxic compounds, which corresponds to the wavelength range of 206-472 nm.

In the proposed method, the process of decontamination of organochlorine substances is carried out mainly at a temperature that ensures the weakening of bonds due to the vaporization of hydrocarbons and the excitation of electrons in the elements that make up the catalyst under the influence of intense (more than 17500 lm) ultraviolet irradiation, while the hard-to-reach electron pairs are broken of С1-С, О-Н and others, which leads to the volumetric continuation of the reaction according to the chain mechanism to the formation of carbon oxides and a small amount of hydrogen chloride.

It follows from this that the process of decontamination of organochlorine compounds is carried out in one stage with a high degree of decomposition without dioxin impurities, since there are no side reactions: the formation of dioxins, which are common 7/0 for high-temperature oxidation processes.

It has been experimentally proven that the process follows the specified scheme when using as primary products chlorine-containing pesticides of the phenoxyl series, as well as their mixtures (DDT, DDE, DDD).

A high degree of conversion of primary raw materials is ensured by the radical nature of the process, which in turn is determined by the energy parameters of the range of ultraviolet radiation, /5 coinciding with the energy parameters of the claimed catalyst. The degree of decomposition, in relation to the primary raw materials, is also influenced by the amount of light flux of ultraviolet radiation and the temperature in the reactor, which depend on the excitation energy of the catalyst elements, and the transparency of the vapor medium for the passage of ultraviolet radiation. The presence of moisture. in primary products, it also does not lead to the passage of oxidation processes and the formation of dioxins, since the formation of ozone, which is necessary for these reactions to occur, is excluded in this energy range.

The process takes place in one stage, in one apparatus at relatively low temperatures and can be carried out at atmospheric pressure, and for the separation of decomposition products that are not toxins, only absorption is required, that is, material and energy costs are relatively insignificant, which ensures the absolute economy of the claimed method , compared to those used in industry. with

Thus, the features of the invention given in the formula, characterizing the claimed method, are necessary and sufficient to achieve the desired technical result. and)

The applicant's analysis of the state of the art, which includes a search of patent and scientific and technical sources of information and the discovery of information about analogues of the claimed invention, made it possible to establish that the applicant did not find a source characterized by features identical to all the essential features of the claimed invention, zo and also made it possible to reveal a set of significant, in relation to the technical result, which is perceived by the applicant, distinctive features in the claimed method and set forth in the claims of the invention. Therefore, the claimed invention meets the condition of "novelty". M

In order to verify the compliance of the claimed invention with the condition "inventive level", the applicant conducted an additional search of known solutions in order to identify features that coincide with features that are distinctive from the prototype - from 5 of the claimed method. The results of the search showed that the claimed invention does not clearly follow from the known state of the art for a specialist, since the effect of the combined energy effect of ultraviolet radiation and a catalyst containing metal bismuth in the presence of aluminum oxides was not revealed from the state of the art defined by the applicant. calcium or magnesium, for the process of decomposition of organochlorine compounds, as well as a set of all distinctive features of the claimed invention to obtain the desired technical result. "

Therefore, the claimed invention meets the condition "inventive level". The invention is illustrated by a table in which the parameters of the scheduling process are given according to examples. . The information that confirms the possibility of implementing the invention with obtaining the specified technical result is as follows.

The method of neutralization of organochlorine compounds is carried out in a reaction apparatus with a volume of, for example, 5 liters, which is equipped with a source of ultraviolet radiation, a catalyst box containing metal -I bismuth, a heating element, a loading hatch, fittings for the removal of gaseous reaction products and "tail" gases , control and measuring devices (thermocouples, etc.). With the help of a heating device in the reaction apparatus, the temperature of 300-400 will be maintained. A pesticide filled with kaolin, dolomite or chalk is loaded into the apparatus, blown with steam and exposed to 5 years of ultraviolet radiation with a light flux of not less than 17500lm and continuously discharged

Fo products that are formed. In the reaction zone, under the influence of ultraviolet radiation in the wavelength range of 200-600 nm and the catalyst, the process of destruction of organic compounds takes place with the formation of chlorine-containing gas and carbon dioxide. The obtained vapor-gas mixture is passed through a layer of water (with the formation of hydrochloric acid), and is cleaned by bubbling through an alkali solution to exclude the entry of chlorine-containing compounds into the atmosphere.

The process is easily regulated.

The invention is illustrated by examples. iF) EXAMPLE 1 (positive) km The reaction apparatus, equipped with a catalyst box containing metal bismuth, in which the temperature is maintained at 3002С, is blown with water vapor. The application of the technical pesticide DDT in the form of a bo mixture (2595 DDT and 75965 kaolin), which is located in the working zone of the reactor, is exposed for two hours under irradiation in the wave range of 200-6b0 Ohm.

The DRSH-350-3 lamp with a luminous flux of 17500lm is used as a source of ultraviolet radiation.

Gaseous products of pesticide decomposition, which contain hydrogen chloride and carbon oxides, successively pass through two absorbers, where they are absorbed first by water, with the formation of hydrochloric acid, and then by an alkali solution. All other gaseous products of pesticide decomposition are released into the atmosphere.

The analysis of samples of solid residues for the content of the active substance of the poisonous chemical was carried out by the chromatographic method.

The content of the active substance in the solid residue, 9bo-:

DDT (dichlorodiphenyltrichloromethane) - 0.002; presence of DDT metabolites, 90

DDD (dichlorodiphenyldichloroethane) - 0.005;

DDE (dichlorodiphenyldichloroethylene) - 0.006; presence of dioxin, 9o - not detected. 70 EXAMPLE 2 (positive)

The reaction apparatus, equipped with a catalyst box containing metal bismuth, in which the temperature is maintained at 3502C, is blown with steam. The application of the technical pesticide DDT in the form of a mixture (2595 DDT and 7595 chalk), which is located in the working zone of the reactor, is exposed for two hours under irradiation in the wave range of 200-6b0 Ohm.

The DRSH-350-3 lamp with a luminous flux of 17500lm is used as a source of ultraviolet radiation.

Gaseous products of pesticide decomposition, which contain hydrogen chloride and carbon oxides, successively pass through two absorbers, where they are absorbed first by water, with the formation of hydrochloric acid, and then by an alkali solution. All other gaseous products of pesticide decomposition are released into the atmosphere.

The analysis of samples of solid residues for the content of the active substance of the poisonous chemical was carried out by the chromatographic method.

The content of the active substance in the solid residue, 9bo-:

DDT (dichlorodiphenyltrichloromethane) - not detected; presence of DDT metabolites, 90 p

DDD (dichlorodiphenyldichloroethane) - not detected;

DDE (dichlorodiphenyldichloroethylene) - 0.006; o presence of dioxin, 9o - not detected.

EXAMPLE C (positive)

The reaction apparatus, equipped with a catalyst box containing metal bismuth, in which the temperature of 4002 is maintained, is blown with steam. A sample of the technical pesticide DDT in the form of a mixture (2590 DDT and 7595 dolomite), which is located in the working zone of the reactor, is exposed for two hours under irradiation in the wave range of 200-60 Ohm. h-

The DRSH-350-3 lamp with a luminous flux of 17500lm is used as a source of ultraviolet radiation. t

Gaseous products of pesticide decomposition, which contain hydrogen chloride and carbon oxides, successively pass through two absorbers, where they are absorbed first by water, with the formation of hydrochloric acid, and then by an alkali solution. All other gaseous products of pesticide decomposition are released into the atmosphere.

The analysis of samples of solid residues for the content of the active substance of the poisonous chemical was carried out by the chromatographic method.

The content of the active substance in the solid residue, 9bo-: - with DDT (dichlorodiphenyltrichloromethane) - not detected; presence of metabolites of DDT, 90 "» DDD (dichlorodiphenyldichloroethane) - not detected;

DDE (dichlorodiphenyldichloroethylene) - 0.001; presence of dioxin, 9o - not detected. - EXAMPLE 4 (negative)

The reaction apparatus, equipped with a catalyst box containing metal bismuth, in which the temperature is maintained at 2002С, is blown with steam. Application of technical pesticide DDT in the form of -| mixture (2595 DDT and 7595 kaolin), which is located in the working zone of the reactor, is kept for two hours under irradiation in the wave range of 200-6b0 Ohm.

As a source of ultraviolet radiation, a DRSH-350-3 lamp with a luminous flux (42) of 17,500 lm is used.

Gaseous products of pesticide decomposition, which contain hydrogen chloride and carbon oxides, successively pass through two absorbers, where they are absorbed first by water, with the formation of hydrochloric acid, and then by an alkali solution. All other gaseous products of pesticide decomposition are released into the atmosphere.

The analysis of samples of solid residues for the content of the active substance of the poison chemical was carried out by the chromatographic method. име) The content of the active substance in the solid residue, 9bo-:

DDT (dichlorodiphenyltrichloromethane) - 0.800; 60 presence of DDT metabolites, 90

DDD (dichlorodiphenyldichloroethane) - 0.020;

DDE (dichlorodiphenyldichloroethylene) - 0.010; presence of dioxin, 9o - not detected.

EXAMPLE 5 (negative) 65 A reaction apparatus equipped with a catalyst box containing metallic bismuth, in which a temperature of 4502C is maintained, is blown with steam. The application of the technical pesticide DDT in the form of a mixture (2595 DDT and 7595 kaolin), which is located in the working zone of the reactor, is exposed for two hours under irradiation in the wave range of 200-6b0 Ohm.

The DRSH-350-3 lamp with a luminous flux of 17500lm is used as a source of ultraviolet radiation.

Gaseous products of pesticide decomposition, which contain hydrogen chloride and carbon oxides, successively pass through two absorbers, where they are absorbed first by water, with the formation of hydrochloric acid, and then by an alkali solution. All other gaseous products of pesticide decomposition are released into the atmosphere.

The analysis of samples of solid residues for the content of the active substance of the poisonous chemical was carried out by the chromatographic 7/0 method.

The content of the active substance in the solid residue, 9bo-:

DDT (dichlorodiphenyltrichloromethane) - 0.006; presence of DDT metabolites, 90

DDD (dichlorodiphenyldichloroethane) - not detected;

DDE (dichlorodiphenyldichloroethylene) - 0.002; presence of dioxin, 9o - not detected.

EXAMPLE 6 (negative)

The reaction apparatus, equipped with a catalyst box containing metal bismuth, in which the temperature is maintained at 4502C, is blown with air. The application of the technical pesticide DDT in the form of a mixture (25950 DDT and 7595 kaolin), which is located in the working zone of the reactor, is exposed for two hours under irradiation in the wave range of 200-6b0 Ohm.

The DRSH-250-3 lamp with a luminous flux of 12500lm is used as a source of ultraviolet radiation.

Gaseous products of pesticide decomposition, which contain hydrogen chloride and carbon oxides, successively pass through two absorbers, where they are absorbed first by water, with the formation of hydrochloric acid, and then by an alkali solution. All other gaseous products of pesticide decomposition are released into the atmosphere. at

The analysis of samples of solid residues for the content of the active substance of the poisonous chemical was carried out by the chromatographic method.

The content of the active substance in the solid residue, 9bo-: av

DDT (dichlorodiphenyltrichloromethane) - 0.4; presence of DDT metabolites, 90 o

DDD (dichlorodiphenyldichloroethane) - 0.030; uh-

DDE (dichlorodiphenyldichloroethylene) - 0.100; presence of dioxin, 90 - 0.07. in

From examples 1-6, it can be concluded that a decrease in temperature below 3002C leads to a decrease in the degree of DDT decomposition, and an increase above 4502C does not affect it. In addition, the use of a DRSH 250-3 lamp with a luminous flux of less than 17,500 lm as a source of ultraviolet radiation leads to a decrease in the degree of decomposition of DDT. "

From the above, it can be concluded that the degree of decomposition does not depend on the environment in the reaction apparatus, while the presence of oxygen (when blowing the reactor with air) leads to the formation of dioxins. While during the decomposition of pesticides in the presence of water vapor, only low-molecular (gaseous) substances are formed - hydrogen chloride and carbon oxides. "» However, a special advantage is that the process is feasible at a sufficiently low temperature, and its increase does not affect the degree of decomposition of the toxic substance.

The proposed method is economical, requires relatively low capital investments and meets the requirements for environmental protection. Thus, the given information testifies to the fulfillment of the following set of conditions during the implementation of the claimed method: -I - the tool that embodies the claimed method, when it is implemented, is intended for the implementation of measures under b" 50 to protect the environment from pollution by highly toxic chemical compounds; - for the claimed method as described in the claims of the invention, the possibility of its implementation using the means and methods described in the application is confirmed.

Therefore, the claimed invention meets the condition of "industrial applicability". with the information provided in the Application: 00000011

Bostetchny vmsttoic compounds in hard alder I b5 dod 0005) Н Н 0020) нН 0030 в! The presence of dioxin in the reaction products, 90 and I OO PO PO I

Note: H- is not determined with a sensitivity of the method of 0.000195; "-"- absent; "w" - present.

Claims (1)

The formula of the invention is the method of neutralization of highly toxic substances, which is carried out by thermophotolysis of organochlorine compounds under the influence of ultraviolet radiation in the wavelength range of 200-600 nm in the presence of a photocatalyst, which differs in that metallic bismuth is used as a catalyst in the presence of aluminum, calcium or magnesium oxides and radiation from with a luminous flux of not less than 17,500 lm at a temperature of 300-400 C in the presence of water vapor. with 6) "c) (Se) in " and - - and? -i Chek" -i (o) (42) ime) 60 b5