RU2012111648A - METHOD FOR QUANTITATIVE ASSESSMENT OF THE LEVEL OF INTEGRAL ENVIRONMENTAL SAFETY OF OBJECTS OF CONSUMPTION, LIFE USE AND Habitat - Google Patents

Abstract

1. The method of quantitative assessment of the integral environmental safety for human health of objects of consumption, life use and the environment is characterized by taking into account the total impact on the object of various factors, primarily chemical and / or physical and / or microbiological, while as a measure of quantitative assessments of the levels of the environmental safety factors components take the corresponding pollution indices, namely, Ichem - chemical pollution index, Iphys - physical impact index and Ibac - microbiological pollution index, while quantifying the pollution indices of objects for each environmental safety factor: chemical and / or physical and / or microbiological, determine the appropriate levels of safety of these factors according to the given ranking levels (highest, high, acceptable, low, extremely low), after which the level of the resulting integra is determined nal environmental safety, which is classified according to the lowest level of constituent contributions (chemical, physical, microbiological) with an indication of the dominant factor that determines the final level of environmental safety.2. The method according to claim 1, characterized in that in order to determine the index of chemical contamination Ichem, criteria for selecting priority pollutants are determined, a list of analyzed chemicals is compiled for a given object of consumption, life use or habitat, tests are carried out according to the list of analyzed parameters, and the detected ones are classified.

Claims (9)

1. The method for quantifying the integral environmental safety for human health of consumption, life-use and habitat objects is characterized in that they take into account the total impact of various factors on the object, primarily chemical and / or physical and / or microbiological, while as a measure of quantitative assessments of the levels of constituent environmental safety factors take appropriate pollution indices, namely, Ichem is the chemical pollution index, Iphys is the physical index exposure and Ibac is the index of microbiological contamination, while quantitatively determining the pollution index of objects for each environmental safety factor: chemical and / or physical and / or microbiological, determine the appropriate safety levels of these factors for the given ranking levels (highest, high, acceptable, low, extremely low), after which they determine the level of the resulting integrated environmental safety, which qualify for the lowest level of vlyayuschih deposits (chemical, physical, microbiological), indicating the dominant factor determining the overall level of environmental safety. 2. The method according to claim 1, characterized in that for determining the Ichem index of chemical contamination, criteria for selecting priority pollutants are determined, a list of the analyzed chemicals for a given object of consumption, life use or habitat is made, tests are carried out according to the compiled list of analyzed parameters, classification of the detected pollutants by hazard classes and by limiting hazard indicators (PAP) established by regulatory documents for each chemical substance, and Then, for each type of hazardous substance for pollutants of hazard classes 1-4, the index of chemical pollution of the indicator is calculated by the formula by the formula Ichem = ∑Ci / MPCi, where Ci - experimentally determined concentration of a chemical pollutant in the object of consumption, life use and the environment; PDKi (PDUi) is the maximum permissible concentration (maximum permissible level) of this pollutant, after which the chemical contamination of the object is evaluated taking into account the unidirectional effect of xenobiotics on the human body according to the limiting hazard indicator. 3. The method according to claim 2, characterized in that as a criterion for the selection of priority chemical pollutants, the frequency of detection (prevalence) of the chemical substance in the environment of the region and in consumption objects is used. 4. The method according to claim 2, characterized in that as a criterion for the selection of priority chemical pollutants use the characteristic hazard criteria of a chemical substance. 5. The method according to claim 2, characterized in that the molecular stability of ecotoxicants in the environment is used as a criterion for the selection of priority chemical pollutants. 6. The method according to claim 2, characterized in that as a criterion for the selection of priority chemical pollutants use the features of the use of chemicals (pesticides, herbicides, etc.) in the region. 7. The method according to claim 2, characterized in that the Ichem chemical pollution index is correlated with predetermined levels of ranking of the chemical component of the integral environmental safety of the consumer, life-use or habitat, and thus the object is assigned to a particular level of chemical safety, while when the chemical pollution index Ichem≥5, the level of the chemical component of the environmental safety of the consumer, life-use or habitat is assessed as emergency but low (very strong pollution), with an index of chemical pollution 1≤Ichem <5, the level of chemical safety of an object for human health is assessed as low (strong pollution), with an index of chemical pollution 0.75≤Ichem <1,0 the level of chemical safety of an object for human health is assessed as acceptable (average pollution), with a chemical pollution index of 0.25≤Ichem <0.75, the level of chemical safety of an object for human health is assessed as high (low pollution), and with a chemical index If Ichem <0.25, the level of chemical safety of the facility for human health is assessed as the highest (slight pollution). 8. The method according to claim 1, characterized in that the physical impact index Iphys is defined as the sum of the exposure of an object to electromagnetic, vibrational and acoustic factors according to the expression Iphys = Iem + Ivibr + Iac, where Iem - electromagnetic exposure factor (excluding radiation). Ivibr is a vibration exposure factor. Iac is the acoustic impact factor, while the contribution of physical factors of various nature is determined by summing the ratios of the values of experimentally determined electric and magnetic fields, the levels of acoustic noise, vibration to their maximum permissible impact level by the formulas Iem = ∑Ei / PDU + ∑Hi / PDU, where Ei and Hi are the intensities of the electric and magnetic fields, respectively Ivibr = ∑Ui / remote control, where Ui are the frequency-adjusted values of the control parameters of vibration velocity or vibration acceleration, Iac = ∑Li / PDU, where Li is the noise level, then the physical impact index Iphys is correlated with the predetermined levels of ranking of the physical component of the integral environmental safety of the consumer, life-use or habitat and thus assigns the facility to a certain level of physical safety, at the same time, with the physical impact index Iphys≥5, the level of the physical component of the environmental safety of the consumer, life-use or habitat is extremely low, while when the physical impact index Iphys≥5, the level of the physical component of the environmental safety of the consumer, life use or habitat is estimated as extremely low, when the physical impact index K Iphys <5, the level of the physical component of the environmental safety of the consumer, life use or habitat is assessed as low, when the index physical impact 0.75≤Iphys <1.0 the level of the physical component of the environmental safety of the object of consumption, life use or the environment is inhabited Yi is assessed as acceptable, with a physical impact index of 0.25≤Iphys <0.75, the level of the physical component of the environmental safety of the consumer, life use or habitat is assessed as high, with a physical impact index of Iphys <0.25, the level of the physical component of environmental safety of the consumer , life use or habitat rated as supreme. 9. The method according to claim 1, characterized in that the index of microbiological contamination of Ibac is determined depending on the presence or absence of microbiological nature of the ecotoxicant in the object according to the expression Ibac = ∑Ci / PDUi, where Ci is the experimentally determined amount of normalized microbiological pollutants of technogenic nature of a certain type in the unit of the studied object, PDUi is the maximum permissible level of the given microbiological pollutant in the studied object, while the Ibac index of microbiological pollution is correlated with the predetermined ranking levels of the microbiological component of the integrated environmental safety of the consumer, life-use or habitat, and thus the object is assigned to a certain level of microbiological safety while the microbiological index Ibac≥5 microbiological level the safety of the consumer, life-use or habitat is assessed as extremely low, with a microbiological pollution index Ibac≥5, the level of microbiological safety of the consumer, life-use or habitat is assessed as extremely low, with a microbiological pollution index 1≤Ibac <5, the microbiological safety of the consumer, life use or habitat is assessed as low, with a microbiological pollution index of 0.75≤Ibac <1,0 the level of microbio The environmental safety of the consumer, life-use or habitat is assessed as acceptable, with a microbiological pollution index of 0.25≤Ibac <0.75, the microbiological safety of the consumer, life-use or habitat is assessed as high, with a microbial pollution index of Ibac <0.25 microbiological safety of the object of consumption, life use or habitat is rated as the highest.