RU2684630C1 - Method of estimation of environmental state of living premises - Google Patents

Abstract

FIELD: ecology.SUBSTANCE: invention relates to ecology, namely the assessment of the condition of living accommodation, including the determination of pollution levels according to several contamination factors. For this purpose, samples of water and air are taken in the premises of the inspected object, and the levels of the radiation background, electromagnetic fields, noise, temperature, humidity and air speed in the room are measured. Besides, preliminary ranking of contamination values is carried out in scores using the values defined in regulatory documents and regulating the named contamination factors. Scores of values of contamination factors are summed and used for a comparative assessment of the quality of the environment inside the premises of the inspected object, a higher score of the total value indicates a higher quality of the environment inside the premises, besides, a weighted average value of the total value is used to measure the quality of the environment at the object, taking into account the area of the inspected premises.EFFECT: invention provides the possibility of a reliable assessment of living accommodation in terms of the complex impact of harmful factors on human health, and also the possibility of ranking the dwellings according to the degree of suitability for living in them.1 cl, 27 tbl, 1 ex

Description

The invention relates to ecology, and more specifically to methods for assessing the ecological state of the environment, and in particular to methods for assessing the ecological state of dwellings.

There is a method of assessing air pollution by the total indicator of air pollution (K _sum ), which is calculated by the formula that takes into account the total rate of air pollution, the concentration of individual pollutants present in atmospheric air, mg / m ³ , normalized maximum allowable concentrations of airborne substances , mg / m ³ and a coefficient that depends on the hazard class of the substance (see K.BUSHUEVA and others. The choice of observation zones in large industrial cities to identify atmospheric pollution of health concerns on the population, Hygiene and Sanitation - M .: Meditsina, 1985, No. 1, pp. 4-6). The method takes into account the effect on the human body of harmful substances contained only in ambient air, and does not determine the extent of this effect. There is also known a method for assessing the ecological state of the environment, including determining the levels of pollution, according to several polluting factors, with preliminary ranking of the pollution values in points, and identifying the integral index of environmental pollution, the value of which is judged on the ecological state of the object under examination (see RU №2156975, G01N 33/00, 2000).

The prototype does not take into account the requirements of environmental and hygienic rationing that determine the quality of housing, moreover, the range of harmful factors to be taken into account is not wide enough, for example, such as electromagnetic field, noise level, radiation background, etc., therefore it cannot be used for a reliable assessment of environmental housing conditions. The objective of the proposed method is to ensure the possibility of reliable assessment of residential premises in terms of the integrated impact of harmful factors on human health.

The technical result, manifested in the solution of the task is expressed in providing the possibility of reliable assessment of residential premises in terms of the integrated impact of harmful factors on human health, while ensuring the possibility of ranking dwellings according to the degree of fitness for a person to live in them.

To solve the problem, a method of assessing the environmental status of residential premises, including determining pollution levels, by several polluting factors, with preliminary ranking of pollution values in points, and identifying the integral index of environmental pollution, the largest of which is judged on the environmental status of the object being examined, that in the premises of the object being examined, water and air samples are taken, levels of radiation background, electromagnetic fields, noise, temperature are measured, humidity, air velocity in the room, while in the process of preliminary ranking of pollution values, use the indicators contained in regulatory documents that normalize these pollutants, and the maximum score is given to the minimum MAC values by a factor or its regulated optimal values, in addition, temperature indicator for the warm period varies from +15 to + 30 ° С, while 10 points corresponds to a temperature of 23 ° С, 9 points corresponds to a temperature of 22 or 24 ° С, 8 points s corresponds to a temperature of 21 or 25 ° C, 7 points corresponds to a temperature of 20 or 26 ° C, 6 points corresponds to a temperature of 19 or 27 ° C, 5 points corresponds to a temperature of 18 or 28 ° C, 4 points corresponds to a temperature of 17 or 29 ° C, 3 points corresponds to a temperature of 16 or 30 ° C, 2 points corresponds to a temperature of 15 ° C, as the temperature indicator for a cold period varies from +17 to + 26 ° C, while 10 points corresponds to a temperature of 21 ° C, 9 points corresponds to a temperature of 20 or 22 ° С, 8 points corresponds to a temperature of 19 or 23 ° С, 7 points corresponds to t Temperature 18 or 24 ° С, 6 points corresponds to a temperature of 17 or 25 ° С, 5 points corresponds to a temperature of 26 ° С, relative humidity varies from 5 to 95%, while 10 points corresponds to a relative humidity of 50%, 9 points corresponds to relative humidity of 45 or 55%, 8 points corresponds to a relative humidity of 40 or 60%, 7 points corresponds to a relative humidity of 35 or 65%, 6 points corresponds to a relative humidity of 30 or 70%, 5 points corresponds to a relative humidity of 25 or 75%, 4 points corresponds to relative wet Spine 20 or 80%, 3 points corresponds to a relative humidity of 15 or 85%, 2 points corresponds to a relative humidity of 10 or 90%, 1 point corresponds to a relative humidity of 5 or 95%, the rate of air movement inside living rooms varies from 0.02 to 0 , 38 m / s, at that, 10 points corresponds to a speed of 0.2 m / s, 9 points corresponds to a speed of 0.18 or 0.22 m / s, 8 points corresponds to a speed of 0.16 or 0.24 m / s, 7 points corresponds to a speed of 0.14 or 0.26 m / s, 6 points corresponds to a speed of 0.12 or 0.28 m / s, 5 points corresponds to a speed of 0.10 or 0.30 m / s, 4 points co. The speed is 0.08 or 0.32 m / s, 3 points corresponds to a speed of 0.06 or 0.34 m / s, 2 points corresponds to a speed of 0.04 or 0.36 m / s, 1 point corresponds to a speed of 0.02 or 0.38 m / s, the indicator characterizing the parameters of the electromagnetic field of industrial frequency varies from 1 to 10 μT, while 10 points corresponds to 1 μT, 9 points corresponds to 2 μT, 8 points corresponds to 3 μT, 7 points corresponds to 4 μT, 6 points corresponds to 5 μT, 5 points corresponds to 6 μT, 4 points corresponds to 7 μT, 3 points corresponds to 8 μT, 2 points corresponds to 9 μT, 1 the score corresponds to 10 μT, the indicator characterizing the equivalent noise level varies from 10 to 100 dBa, while 10 points corresponds to 10 dBa, 9 points corresponds to 20 dBa, 8 points corresponds to 30 dBa, 7 points corresponds to 40 dBa, 6 points corresponds to 50 dBa, 5 points corresponds to 60 dBa, 4 points corresponds to 70 dBa, 3 points corresponds to 80 dBa, 2 points corresponds to 90 dBa, 1 point corresponds to 100 dBa, the indicator characterizing the level of background radiation of gamma radiation varies from 0.1 to 1, 0 u Sv / h, while 10 points corresponds to 0.1 u Sv / h, 9 points corresponds to 0.2 micron Sv / h, 8 points corresponds to 0.3 micron Sv / h, 7 points corresponds to 0.4 micron Sv / h, 6 points corresponds to 0.5 micron Sv / h, 5 points corresponds to 0.6 micron Sv / h, 4 points corresponds to 0.7 microns Sv / h, 3 points corresponds to 0.8 microns Sv / h, 2 points corresponds to 0.9 microns Sv / h, 1 point corresponds to 1,0 microns Sv / h, characterizing the content of chemicals of 1 and 2 hazard classes in tap water, varies from 0.1 to 1.0 MAC, while 10 points corresponds to 0.1 MAC, 9 points corresponds to 0.2 MAC, 8 points corresponds to 0.3 MAC , 7 points corresponds to 0.4 MPC, 6 points corresponds to 0.5 MAC, 5 points corresponds to 0.6 MAC, 4 points corresponds to 0.7 MAC, 3 points corresponds to 0.8 MAC, 2 points corresponds to 0.9 MAC, 1 point corresponds to 1.0 MAC, the indicator characterizing the content of microorganisms in the tap water of the dwelling varies from 5 to 50 CFU / ml, while 10 points corresponds to 5 CFU / ml, 9 points corresponds to 10 CFU / ml, 8 points corresponds to 15 CFU / ml, 7 points corresponds to 20 CFU / ml , 6 points corresponds to 25 CFU / ml, 5 points corresponds to 30 CFU / ml, 4 points corresponds to 35 CFU / ml, 3 points corresponds to 40 CFU / ml, 2 b lla corresponding to 45 CFU / ml, 1 point corresponding to 50 CFU / ml, an indicator characterizing particles suspended in the air, ranging from 0.03 to 0.30 mg / m ^3, with 10 points corresponds to 0.03 mg / m ³ , 9 points corresponds to 0.06 mg / m ³ , 8 points corresponds to 0.09 mg / m ³ , 7 points corresponds to 0.12 mg / m ³ , 6 points corresponds to 0.15 mg / m ³ , 5 points corresponds to 0 , 18 mg / m ³ , 4 points corresponds to 0.21 mg / m ³ , 3 points corresponds to 0.24 mg / m ³ , 2 points corresponds to 0.27 mg / m ³ , 1 point corresponds to 0.30 mg / m ³ detecting microorganisms in the air such as Acinetobacter oleovarum s.paraffinicum, pcs. VSB-712 (k 1), Actinomyces roseolus, pcs. Z-219 (k 2), Aspergillus terreus, pcs. 44-62 (k 3), Brevmacterium lactofermentum, pcs. NITIA-89 (k 4), Candida lipolitica, pieces 367-3 (k 5), Candida tropicalis, pcs. VSB-928 (k 6), Candida tropicalis, pcs. Y-456 (k 7), Candida utilis, pcs. VSB-651 (k 8), Escherichia coli, pcs. 1864 (k 9), Escherichia coli, pcs. 472-T-23 (k 10), Escherichia coli, pcs. TDG-6 (k 11), Escherichia coli, pcs. 436 (k 12), Pseudomonas stutzeri, pcs. 367-1 (k 13), Streptoverticillium griseocarneum (k 14), in this case, the indicator characterizing the content in the air Acinetobacter oleovarum s.paraffinicum, pcs. BCB-712 (k 1), varies from 10 to 100 C / m ³ , with 10 points corresponding to 10 C / m ³ , 9 points corresponding to 20 C / m ³ , 8 points corresponding to 30 C / m ³ , 7 points corresponds to 40 C / m ³ , 6 points corresponds to 50 C / m ³ , 5 points corresponds to 60 C / m ³ , 4 points corresponds to 70 C / m ³ , 3 points corresponds to 80 C / m ³ , 2 points corresponds to 90 C / m ³ , 1 point corresponds to 100 C / m ³ , while the indicator characterizing the content in the air Actinomyces roseolus, pcs. Z-219 (k 2), varies from 20 to 200 C / m ³ , while 10 points corresponds to 20 C / m ³ , 9 points corresponds to 40 C / m ³ , 8 points corresponds to 60 C / m ³ , 7 points corresponds to 80 C / m ³ , 6 points corresponds to 100 C / m ³ , 5 points corresponds to 120 C / m ³ , 4 points corresponds to 140 C / m ³ , 3 points corresponds to 160 C / m ³ , 2 points corresponds to 180 C / m ³ , 1 point corresponds to 200 C / m ³ , at the same time, the indicator characterizing the content of Aspergillus terreus in the air, pcs. 44-62 (k 3) varies from 5 to 50 C / m ³ , while 10 points corresponds to 5 C / m ³ , 9 points corresponds to 10 C / m ³ , 8 points corresponds to 15 C / m ³ , 7 points corresponds to 20 C / m ³ , 6 points corresponds to 25 C / m ³ , 5 points corresponds to 30 C / m ³ , 4 points corresponds to 35 C / m ³ , 3 points corresponds to 40 C / m ³ , 2 points corresponds to 45 C / m ³ , 1 point corresponds to 50 C / m ³ , at the same time, an indicator characterizing the content of Brevibacterium lactofermentum in the air, pcs. NITIA-89 (k 4) varies from 0 to 45 C / m ³ , while 10 points corresponds to 0 C / m ³ , 9 points corresponds to 5 C / m ³ , 8 points corresponds to 10 C / m ³ , 7 points corresponds to 15 C / m ³ , 6 points corresponds to 20 C / m ³ , 5 points corresponds to 25 C / m ³ , 4 points corresponds to 30 C / m ³ , 3 points corresponds to 35 C / m ³ , 2 points corresponds to 40 C / m ³ , 1 point corresponds to 45 C / m ³ , at the same time, an indicator characterizing the content of Candida lipolitica in the air, pcs. 367-3 (k 5) varies from 5 to 50 C / m ³ , while 10 points corresponds to 5 C / m ³ , 9 points corresponds to 10 C / m ³ , 8 points corresponds to 15 C / m ³ , 7 points corresponds to 20 C / m ³ , 6 points corresponds to 25 C / m ³ , 5 points corresponds to 30 C / m ³ , 4 points corresponds to 35 C / m ³ , 3 points corresponds to 40 C / m ³ , 2 points corresponds to 45 C / m ³ , 1 point corresponds to 50 C / m ³ , while the indicator characterizing the content of Candida tropicalis in the air, pcs. VSB-928 (k 6) varies from 20 to 200 C / m ³ , while 10 points corresponds to 20 C / m ³ , 9 points corresponds to 40 C / m ³ , 8 points corresponds to 60 C / m ³ , 7 points corresponds to 80 C / m ³ , 6 points corresponds to 100 C / m ³ , 5 points corresponds to 120 C / m ³ , 4 points corresponds to 140 C / m ³ , 3 points corresponds to 160 C / m ³ , 2 points corresponds to 180 C / m ³ , 1 point corresponds to 200 C / m ³ , at the same time, the indicator characterizing the air content, Candida tropicalis, pcs. Y-456 (k 7) varies from 5 to 50 C / m ³ , while 10 points corresponds to 5 C / m ³ , 9 points corresponds to 10 C / m ³ , 8 points corresponds to 15 C / m ³ , 7 points corresponds to 20 C / m ³ , 6 points corresponds to 25 C / m ³ , 5 points corresponds to 30 C / m ³ , 4 points corresponds to 35 C / m ³ , 3 points corresponds to 40 C / m ³ , 2 points corresponds to 45 C / m ³ , 1 point corresponds to 50 C / m ³ , at the same time, the indicator characterizing the content of Candida utilis in the air, pcs. VSB-651 (k 8) varies from 20 to 200 C / m ³ , with 10 points corresponding to 20 C / m ³ , 9 points corresponding to 40 C / m ³ , 8 points corresponding to 60 C / m ³ , 7 points corresponding to 80 C / m ³ , 6 points corresponds to 100 C / m ³ , 5 points corresponds to 120 C / m ³ , 4 points corresponds to 140 C / m ³ , 3 points corresponds to 160 C / m ³ , 2 points corresponds to 180 C / m ³ , 1 point corresponds to 200 C / m ³ , at the same time, the indicator characterizing the content of Escherichia coli in the air, pcs. 1864 (k 9) varies from 0 to 45 C / m ³ , with 10 points corresponding to 0 C / m ³ , 9 points corresponding to 5 C / m ³ , 8 points corresponding to 10 C / m ³ , 7 points corresponding to 15 C / m ³ , 6 points corresponds to 20 C / m ³ , 5 points corresponds to 25 C / m ³ , 4 points corresponds to 30 C / m ³ , 3 points corresponds to 35 C / m ³ , 2 points corresponds to 40 C / m ³ , 1 the score corresponds to 45 C / m ³ , while the indicator characterizing the content of Escherichia coli in the air, pcs. 472-T-23 (k 10) varies from 0 to 45 C / m ³ , while 10 points corresponds to 0 C / m ³ , 9 points corresponds to 5 C / m ³ , 8 points corresponds to 10 C / m ³ , 7 points corresponds to 15 C / m ³ , 6 points corresponds to 20 C / m ³ , 5 points corresponds to 25 C / m ³ , 4 points corresponds to 30 C / m ³ , 3 points corresponds to 35 C / m ³ , 2 points corresponds to 40 C / m ³ , 1 point corresponds to 45 C / m ³ , while the indicator characterizing the content of Escherichia coli in the air, pcs. TDG-6 (k 11) varies from 0 to 45 C / m ³ , while 10 points corresponds to 0 C / m ³ , 9 points corresponds to 5 C / m ³ , 8 points corresponds to 10 C / m ³ , 7 points corresponds to 15 C / m ³ , 6 points corresponds to 20 C / m ³ , 5 points corresponds to 25 C / m ³ , 4 points corresponds to 30 C / m ³ , 3 points corresponds to 35 C / m ³ , 2 points corresponds to 40 C / m ³ , 1 point corresponds to 45 C / m ³ , while the indicator characterizing the content of Escherichia coli in the air, pcs. 436 (k 12) varies from 0 to 45 C / m ³ , with 10 points corresponding to 0 C / m ³ , 9 points corresponding to 5 C / m ³ , 8 points corresponding to 10 C / m ³ , 7 points corresponding to 15 C / m ³ , 6 points corresponds to 20 C / m ³ , 5 points corresponds to 25 C / m ³ , 4 points corresponds to 30 C / m ³ , 3 points corresponds to 35 C / m ³ , 2 points corresponds to 40 C / m ³ , 1 the score corresponds to 45 C / m ³ , while the indicator characterizing the content of Pseudomonas stutzeri in the air, pcs. 367-1 (k 13) varies from 5 to 50 C / m ³ , while 10 points corresponds to 5 C / m ³ , 9 points corresponds to 10 C / m ³ , 8 points corresponds to 15 C / m ³ , 7 points corresponds to 20 C / m ³ , 6 points corresponds to 25 C / m ³ , 5 points corresponds to 30 C / m ³ , 4 points corresponds to 35 C / m ³ , 3 points corresponds to 40 C / m ³ , 2 points corresponds to 45 C / m ³ 1 point corresponds to 50 C / m ³ , while the indicator characterizing the content of Streptoverticillium griseocarneum (k 14) in the air varies from 0 to 45 C / m ³ , while 10 points corresponds to 0 C / m ³ , 9 points corresponds to 5 C / m ³ , 8 points t 10 C / m ³ , 7 points corresponds to 15 C / m ³ , 6 points corresponds to 20 C / m ³ , 5 points corresponds to 25 C / m ³ , 4 points corresponds to 30 C / m ³ , 3 points corresponds to 35 C / m ³ , 2 points corresponds to 40 C / m ³ , 1 point corresponds to 45 C / m ³ , further, the scoring values of pollutant factors are summarized and used for comparative assessment of the environmental quality inside the premises of the object being examined, while using the weighted average of the total indicator the level of ecological well-being (WEB) taking into account the area surveyed placed namely, high-class objects 90-100 (5 points), high-quality objects 70-90 (4 points), objects of average quality 50-70 (3 points), low-quality objects 20-50 (2 points), absolutely unfavorable conditions 10-20 (1 point). Comparative analysis of the set of essential features of the proposed technical solution with the set of essential features of the prototype and analogues indicates its compliance with the criterion "novelty."

The features of the claims provide a solution to the technical problem, and the features of the distinctive part of the claims provide a solution to the following set of functional tasks. The signs “in the premises of the object being examined take samples of water and air, measure the levels of radiation background, electromagnetic fields, noise, temperature, humidity, air velocity in the room” ensure that all the main harmful factors determining the quality of the indoor environment are taken into account.

Signs “temperature indicator for a warm period varies from +15 to + 30 ° С, while 10 points corresponds to a temperature of 23 ° С, 9 points corresponds to a temperature of 22 or 24 ° С, 8 points corresponds to a temperature of 21 or 25 ° С, 7 points corresponds to a temperature of 20 or 26 ° C, 6 points corresponds to a temperature of 19 or 27 ° C, 5 points corresponds to a temperature of 18 or 28 ° C, 4 points corresponds to a temperature of 17 or 29 ° C, 3 points corresponds to a temperature of 16 or 30 ° C, 2 points corresponds to a temperature of 15 ° C "assess the quality of housing in terms of temperature in a warm iodine year. Signs “temperature index for a cold period varies from +17 to + 26 ° С, while 10 points corresponds to a temperature of 21 ° С, 9 points corresponds to a temperature of 20 or 22 ° С, 8 points corresponds to a temperature of 19 or 23 ° С, 7 points corresponds to a temperature of 18 or 24 ° C, 6 points corresponds to a temperature of 17 or 25 ° C, 5 points corresponds to a temperature of 26 ° C "assess the quality of housing in terms of temperature in the cold period of the year. Signs" the relative humidity varies from 5 to 95%, with this, 10 points corresponds to the relative humidity For 50%, 9 points corresponds to a relative humidity of 45 or 55%, 8 points corresponds to a relative humidity of 40 or 60%, 7 points corresponds to a relative humidity of 35 or 65%, 6 points corresponds to a relative humidity of 30 or 70%, 5 points corresponds to a relative humidity of 25 or 75%, 4 points corresponds to a relative humidity of 20 or 80%, 3 points corresponds to a relative humidity of 15 or 85%, 2 points corresponds to a relative humidity of 10 or 90%, 1 point corresponds to 5 or 95% relative humidity I measure the humidity of the air in the living room.

Signs "The indicator of the speed of air movement inside living rooms varies from 0.02 to 0.38 m / s, while 10 points corresponds to a speed of 0.2 m / s, 9 points corresponds to a speed of 0.18 or 0.22 m / s , 8 points corresponds to a speed of 0.16 or 0.24 m / s, 7 points corresponds to a speed of 0.14 or 0.26 m / s, 6 points corresponds to a speed of 0.12 or 0.28 m / s, 5 points corresponds to a speed 0.10 or 0.30 m / s, 4 points corresponds to a speed of 0.08 or 0.32 m / s, 3 points corresponds to a speed of 0.06 or 0.34 m / s, 2 points corresponds to a speed of 0.04 or 0 , 36 m / s, 1 point corresponds to a speed of 0.02 or 0.38 m / s "ots Enjoy the quality of housing on the speed of air movement in residential premises. Signs "indicator characterizing the parameters of the electromagnetic field of industrial frequency varies from 1 to 10 μTl, at the same time, 10 points corresponds to 1 μTl, 9 points corresponds to 2 μTl, 8 points corresponds to 3 μTl, 7 points corresponds to 4 μTl, 6 points corresponds to 5 μTl, 5 points corresponds to 6 μT, 4 points corresponds to 7 μT, 3 points corresponds to 8 μT, 2 points corresponds to 9 μT, 1 point corresponds to 10 μT "assess the quality of housing by the level of electromagnetic field intensity in residential premises. Signs "indicator characterizing the equivalent noise level varies from 10 to 100 dBa, while 10 points corresponds to 10 dBa, 9 points corresponds to 20 dBa, 8 points corresponds to 30 dBa, 7 points corresponds to 40 dBa, 6 points corresponds to 50 dBa, 5 points corresponds to 60 dBa, 4 points corresponds to 70 dBa, 3 points corresponds to 80 dBa, 2 points corresponds to 90 dBa, 1 point corresponds to 100 dBa "assess the quality of housing by the level of noise in the rooms.

Signs "indicator characterizing the level of background radiation of gamma radiation varies from 0.1 to 1.0 µSv / h, while 10 points corresponds to 0.1 µSv / h, 9 points corresponds to 0.2 µSv / h, 8 points corresponds to 0.3 μSv / h, 7 points corresponds to 0.4 μSv / h, 6 points corresponds to 0.5 μSv / h, 5 points corresponds to 0.6 μSv / h, 4 points corresponds to 0.7 μSv / h, 3 points corresponds to 0.8 μSv / h, 2 points corresponds to 0.9 μSv / h, 1 point corresponds to 1.0 μSv / h "assess the quality of housing by the level of gamma radiation in the premises. Signs "indicator characterizing the content in tap water of chemicals of 1 and 2 hazard classes varies from 0.1 to 1.0 MAC, while 10 points corresponds to 0.1 MAC, 9 points corresponds to 0.2 MAC, 8 points corresponds to 0.3 MPC, 7 points corresponds to 0.4 MPC, 6 points corresponds to 0.5 MPC, 5 points corresponds to 0.6 MPC, 4 points corresponds to 0.7 MAC, 3 points corresponds to 0.8 MPC, 2 points corresponds to 0, 9 MPC, 1 point corresponds to 1 MPC "assess the quality of housing by the quality of water in the rooms. Signs "indicator characterizing the content of suspended particles in the air varies from 0.03 to 0.30 mg / m ³ , while 10 points corresponds to 0.03 mg / m ³ , 9 points corresponds to 0.06 mg / m ³ , 8 points corresponds to 0.09 mg / m ³ , 7 points corresponds to 0.12 mg / m ³ , 6 points corresponds to 0.15 mg / m ³ , 5 points corresponds to 0.18 mg / m ³ , 4 points corresponds to 0.21 mg / m ³ , 3 points corresponds to 0.24 mg / m ³ , 2 points corresponds to 0.27 mg / m ³ , 1 point corresponds to 0.30 mg / m ³ "assess the quality of housing according to the content of suspended particles in indoor air. Signs "indicator characterizing the content in the air of such microorganisms as Acinetobacter oleovarum s.paraffinicum, pieces BBC-712 (k 1), Actinomyces roseolus, pieces Z-219 (k 2), Aspergillus terreus, pieces 44-62 ( k 3), Brevibacterium lactofermentum, pieces NITIA-89 (k 4), Candida lipolitica, pieces 367-3 (k 5), Candida tropicalis, pieces BCB-928 (k 6), Candida tropicalis, pieces Y- 456 (k 7), Candida utilis pcs. VSB-651 (k 8), Escherichia coli, pcs. 1864 (k 9), Escherichia coli, pcs. 472-T-23 (k 10), Escherichia coli, pcs. TDG -6 (k 11), Escherichia coli, pieces 436 (k 12), Pseudomonas stutzeri, pieces 367-l (k 13), Streptoverticillium griseocarneum (k 14), while the indicator characterizing the content of Acinetobacter oleovarum s in the air .paraffinicum, pc. VSB-712 (k 1) varies from 10 to 100 C / m ^3, with 10 points corresponding to 10 C / m ^3, 9 points corresponding to 20 C / m ^3, 8 points corresponding to 30 C / m ^3, 7 points corresponding to 40 C / m ^3, 6 points corresponding to 50 C / m ^3, 5 points corresponding to 60 C / m ³ , 4 points corresponds to 70 C / m ³ , 3 points corresponds to 80 C / m ³ , 2 points corresponds to 90 C / m ³ , 1 point corresponds to 100 C / m ³ , while the indicator characterizing the content of Actinomyces roseolus in the air, PC. Z-219 (k 2), varies from 20 to 200 C / m ³ , while 10 points corresponds to 20 C / m ³ , 9 points corresponds to 40 C / m ³ , 8 points corresponds to 60 C / m ³ , 7 points corresponds to 80 C / m ³ , 6 points corresponds to 100 C / m ³ , 5 points corresponds to 120 C / m ³ , 4 points corresponds to 140 C / m ³ , 3 points corresponds to 160 C / m ³ , 2 points corresponds to 180 C / m ³ , 1 point corresponds to 200 C / m ³ , at the same time, the indicator characterizing the content of Aspergillus terreus in the air, pcs. 44-62 (k 3) varies from 5 to 50 C / m ³ , while 10 points corresponds to 5 C / m ³ , 9 points corresponds to 10 C / m ³ , 8 points corresponds to 15 C / m ³ , 7 points corresponds to 20 C / m ³ , 6 points corresponds to 25 C / m ³ , 5 points corresponds to 30 C / m ³ , 4 points corresponds to 35 C / m ³ , 3 points corresponds to 40 C / m ³ , 2 points corresponds to 45 C / m ³ , 1 point corresponds to 50 C / m ³ , at the same time, an indicator characterizing the content of Brevibacterium lactofermentum in the air, pcs. NITIA-89 (k 4) varies from 0 to 45 C / m ³ , while 10 points corresponds to 0 C / m ³ , 9 points corresponds to 5 C / m ³ , 8 points corresponds to 10 C / m ³ , 7 points corresponds to 15 C / m ³ , 6 points corresponds to 20 C / m ³ , 5 points corresponds to 25 C / m ³ , 4 points corresponds to 30 C / m ³ , 3 points corresponds to 35 C / m ³ , 2 points corresponds to 40 C / m ³ , 1 point corresponds to 45 C / m ³ , at the same time, an indicator characterizing the content of Candida lipolitica in the air, pcs. 367-3 (k 5) varies from 5 to 50 C / m ³ , while 10 points corresponds to 5 C / m ³ , 9 points corresponds to 10 C / m ³ , 8 points corresponds to 15 C / m ³ , 7 points corresponds to 20 C / m ³ , 6 points corresponds to 25 C / m ³ , 5 points corresponds to 30 C / m ³ , 4 points corresponds to 35 C / m ³ , 3 points corresponds to 40 C / m ³ , 2 points corresponds to 45 C / m ³ , 1 point corresponds to 50 C / m ³ , while the indicator characterizing the content of Candida tropicalis in the air, pcs. VSB-928 (k 6) varies from 20 to 200 C / m ³ , while 10 points corresponds to 20 C / m ³ , 9 points corresponds to 40 C / m ³ , 8 points corresponds to 60 C / m ³ , 7 points corresponds to 80 C / m ³ , 6 points corresponds to 100 C / m ³ , 5 points corresponds to 120 C / m ³ , 4 points corresponds to 140 C / m ³ , 3 points corresponds to 160 C / m ³ , 2 points corresponds to 180 C / m ³ , 1 point corresponds to 200 C / m ³ , at the same time, the indicator characterizing the air content, Candida tropicalis, pcs. Y-456 (k 7) varies from 5 to 50 C / m ³ , while 10 points corresponds to 5 C / m ³ , 9 points corresponds to 10 C / m ³ , 8 points corresponds to 15 C / m ³ , 7 points corresponds to 20 C / m ³ , 6 points corresponds to 25 C / m ³ , 5 points corresponds to 30 C / m ³ , 4 points corresponds to 35 C / m ³ , 3 points corresponds to 40 C / m ³ , 2 points corresponds to 45 C / m ³ , 1 point corresponds to 50 C / m ³ , at the same time, the indicator characterizing the content of Candida utilis in the air, pcs. VSB-651 (k 8) varies from 20 to 200 C / m ³ , with 10 points corresponding to 20 C / m ³ , 9 points corresponding to 40 C / m ³ , 8 points corresponding to 60 C / m ³ , 7 points corresponding to 80 C / m ³ , 6 points corresponds to 100 C / m 3, 5 points corresponds to 120 C / m 3, 4 points corresponds to 140 C / m ³ , 3 points corresponds to 160 C / m ³ , 2 points corresponds to 180 C / m ³ , 1 the score corresponds to 200 C / m ³ , while the indicator characterizing the content in the air) Escherichia coli, pcs. 1864 (k 9) varies from 0 to 45 C / m ³ , with 10 points corresponding to 0 C / m ³ , 9 points corresponding to 5 C / m ³ , 8 points corresponding to 10 C / m ³ , 7 points corresponding to 15 C / m ³ , 6 points corresponds to 20 C / m ³ , 5 points corresponds to 25 C / m ³ , 4 points corresponds to 30 C / m ³ , 3 points corresponds to 35 C / m ³ , 2 points corresponds to 40 C / m ³ , 1 the score corresponds to 45 C / m ³ , while the indicator characterizing the content of Escherichia coli in the air, pcs. 472-T-23 (k 10) varies from 0 to 45 C / m ³ , while 10 points corresponds to 0 C / m ³ , 9 points corresponds to 5 C / m ³ , 8 points corresponds to 10 C / m ³ , 7 points corresponds to 15 C / m ³ , 6 points corresponds to 20 C / m ³ , 5 points corresponds to 25 C / m ³ , 4 points corresponds to 30 C / m ³ , 3 points corresponds to 35 C / m ³ , 2 points corresponds to 40 C / m ³ , 1 point corresponds to 45 C / m ³ , while the indicator characterizing the content of Escherichia coli in the air, pcs. TDG-6 (k 11) varies from 0 to 45 C / m ³ , while 10 points corresponds to 0 C / m ³ , 9 points corresponds to 5 C / m ³ , 8 points corresponds to 10 C / m ³ , 7 points corresponds to 15 C / m ³ , 6 points corresponds to 20 C / m ³ , 5 points corresponds to 25 C / m ³ , 4 points corresponds to 30 C / m ³ , 3 points corresponds to 35 C / m ³ , 2 points corresponds to 40 C / m ³ , 1 point corresponds to 45 C / m ³ , while the indicator characterizing the content of Escherichia coli in the air, pcs. 436 (k 12) varies from 0 to 45 C / m ³ , with 10 points corresponding to 0 C / m ³ , 9 points corresponding to 5 C / m ³ , 8 points corresponding to 10 C / m ³ , 7 points corresponding to 15 C / m ³ , 6 points corresponds to 20 C / m ³ , 5 points corresponds to 25 C / m ³ , 4 points corresponds to 30 C / m ³ , 3 points corresponds to 35 C / m ³ , 2 points corresponds to 40 C / m ³ , 1 the score corresponds to 45 C / m ³ , while the indicator characterizing the content of Pseudomonas stutzeri in the air, pcs. 367-l (k 13) varies from 5 to 50 C / m ³ , while 10 points corresponds to 5 C / m ³ , 9 points corresponds to 10 C / m ³ , 8 points corresponds to 15 C / m ³ , 7 points corresponds to 20 C / m ³ , 6 points corresponds to 25 C / m ³ , 5 points corresponds to 30 C / m ³ , 4 points corresponds to 35 C / m ³ , 3 points corresponds to 40 C / m ³ , 2 points corresponds to 45 C / m ³ 1 point corresponds to 50 C / m ³ , while the indicator characterizing the content of Streptoverticillium griseocarneum (k 14) in the air varies from 0 to 45 C / m ³ , while 10 points corresponds to 0 C / m ³ , 9 points corresponds to 5 C / m ^3, 8 points corresponding 10 C / m ^3, 7 points corresponding to 15 C / m ^3, 6 points corresponding to 20 C / m ^3, 5 points corresponding to 25 C / m ^3, 4 points corresponding to 30 C / m ^3, 3 points, corresponding to 35 C / m ³ , 2 points corresponds to 40 C / m ³ , 1 point corresponds to 45 C / m ³ , assess the quality of housing according to the actual indicator of the content of microorganisms in the air of residential premises.

The signs “scores of pollutant factors are summed up and used for comparative assessment of the environmental quality inside the premises of the object being examined, while using the weighted average of the total indicator of the level of ecological well-being (SEM) taking into account the area of the premises surveyed) . Signs "objects of the highest class 90-100 (5 points), high-quality objects 70-90 (4 points), objects of average quality 50-70 (3 points), objects of poor quality 20-50 (2 points), absolutely unfavorable conditions 10- 20 (1 point) ”explains the linking of the grade gradation of the level of environmental well-being of the premises to the quality one.

The claimed method includes the measurement of pollution levels, according to several stated contaminating factors, each of which is measured using the methods and measuring instruments mentioned in the corresponding State Standards. So temperature measurement is carried out in accordance with GOST 30494-96. The optimum temperature of the premises varies depending on the time of year.

Indoor microclimate indicators are measured by devices that have been registered and have the appropriate certificate (for example, a ball thermometer can be used). The measured temperature is the equilibrium temperature from radiation and convective heat exchange between the thermometer and the environment. Measurement range from 10 to 50 ° C. The time of the ball thermometer at the measuring point before measurement is at least 20 minutes. Measurement accuracy at a temperature of from 10 to 50 ° С - 0.1 ° С. Measurement of microclimate indicators in the cold period of the year should be carried out at an outdoor temperature not higher than minus 5 ° С. It is not allowed to take measurements with a cloudless sky in the daytime. In the warm period of the year, the measurement should be carried out at an outdoor temperature not lower than 15 ° C. You can not take measurements with a cloudless sky in the daytime. Temperature measurement in single-family houses: at least in two rooms with an area of more than 5 m ² each, which has two external walls or rooms with large windows, the area of which is 30% or more of the area of external walls. In apartment buildings: no less than two rooms of more than 5 m ² each. Measurement points: in the center of the planes separated from the inner surface of the outer wall and heater by 0.5 m and in the center of the room (the intersection point of the diagonal lines of the room) at a height of 0.1; 0.6 and 1.7 m. The temperature of the inner surface of walls, partitions, floor, ceiling should be measured in the center of the corresponding surface.

When manually recording microclimate indicators, at least three measurements with an interval of at least 5 minutes should be performed; with automatic registration, measurements should be carried out for 2 hours. Comparison with standard indicators takes the average value of the measured values. Measurement of the resulting temperature should be started 20 minutes after the ball thermometer is installed at the measuring point.

Humidity is measured according to GOST 30494-96, in which all permissible and optimal parameters of the indoor microclimate are tabulated. The standard humidity of residential premises varies depending on the period of the year. The optimum humidity is 50%, since it is believed that the humidity of the air necessary for a person to feel normal, his sense of comfort ranges from 40% to 60%. When the relative humidity is below 40%, a feeling of drowsiness and fatigue in healthy people begins. The relative humidity in the room should be measured in the center of the room at a height of 1.1 m from the floor.

Measurement of microclimate indicators in the cold period of the year should be carried out at an outdoor temperature not higher than minus 5 ° С. It is not allowed to take measurements with a cloudless sky in the daytime. For the warm period of the year, the measurement of the microclimate should be carried out at an outdoor temperature not lower than 15 ° C. You can not take measurements with a cloudless sky in the daytime.

The speed of air movement inside residential premises is measured according to GOST 30494-96. The optimal speed of air movement inside the premises varies depending on the time of year.

Warm period: 0.2-0.3 m / s. Cold period: 0.15-0.2 m / s.

We take for optimal conditions 0.2 m / s.

Measurement of microclimate indicators in the cold period of the year is carried out at an outdoor temperature not higher than - 5 ° C. It is not allowed to take measurements with a cloudless sky in the daytime. For the warm period of the year, the measurement of the microclimate should be carried out at an outdoor temperature not lower than 15 ° C. It is not allowed to take measurements with a cloudless sky in the daytime. Measurements are carried out in the center of the service area and at a distance of 0.5 m from the inner surface of the outer walls and stationary heating devices in residential premises. The electromagnetic field of industrial frequency is measured according to GN 2.1.8 / 2.2.4.2262-07. MPC 5 μT (4 A / m).

Measurements and calculations of the intensity (induction) of a 50 Hz frequency are made at the maximum operating current of the source of the MF, or the measured values should be converted to the maximum operating current (I _max ) by multiplying the measured values by the ratio I _max / I, where I is the source current during .

Measurements of tension (induction) MP industrial frequency 50 Hz indoors is carried out at a minimum distance from walls, windows and the floor (according to the passport of the measuring instrument), as well as at a height of 0.5-1.5 m from the floor with completely disconnected household appliances, including devices for local lighting and full lights.

Tension (induction) MP industrial frequency 50 Hz outside buildings is measured at a height of 0.5; 1.5 and 1.8 m from the ground. The electric field strength at an industrial frequency of 50 Hz in the residential area from AC overhead power lines and other objects shall not exceed 1 kV / m at a height of 1.8 m from the ground.

Electric field strength and magnetic field induction at an industrial frequency of 50 Hz from household appliances, including from local lighting devices, are evaluated in accordance with the sanitary and epidemiological requirements for these products. If the source of EMR is household appliances that are (or intended) for use inside residential premises, its impact on the person is assessed in accordance with the requirements of the current sanitary standards for permissible levels of physical factors when using consumer goods under household conditions. At the same time, the measurement of potentially harmful factors should be carried out in the area of possible close proximity of people to household appliances in accordance with the instructions for their use. If such information is not available, then the measurements should be guided by the following:

Measurement of electromagnetic and electrostatic fields should be carried out at a distance of 10-0.1 cm from the products in front, behind and from the sides (with the exception of television receivers and video monitors of television gaming machines).

Evaluation of variable electric and magnetic fields produced by rms values; electrostatic fields - the maximum value. The measured values are compared with the permissible value, to which the measurement error is added in accordance with the instruction manual to the measuring instrument.

Before measuring, the product must be switched on beforehand and work for at least 20 minutes. When hygienic evaluation of products must comply with the conditions: room temperature, relative humidity 40-60%, the strength of electric and magnetic fields in the measurement range, respectively, no more than 2.5 V / m and 2.5 nTl.

Equivalent noise level is measured according to SN 2.2.4 / 2.1.8.562-96.

Limit: Day: 40 dB, Night: 30 dB.

It is necessary to use measuring instruments of not less than 1st accuracy class that meet the requirements of existing standards for measuring instruments that allow determining the octave sound pressure levels L, dB, the third octave sound pressure levels L, dB, sound levels L _A , dBA, equivalent sound levels L _Aekv , dBA and maximum sound levels L _Amax , dBA.

Preferred for use are automatic integrating sound level meters.

The determination of the nature of the noise is based on the results of measurements and evaluation in accordance with the criteria set out in the current sanitary-epidemiological rules. The calculation of the average and equivalent sound levels is made in accordance with the current regulatory documents.

The microphone of the sound level meter should be directed towards the main source of noise and removed not less than 0.5 m from the person conducting the measurements. If it is not possible to determine the main source of noise indoors, the microphone should be directed vertically upwards. Calibration of the sound level meter (measuring system) is carried out using an external acoustic calibrator.

Noise measurement in residential and public buildings should be carried out in at least three points evenly distributed throughout the premises no closer than 1 m from the walls and no closer than 1.5 m from the windows of rooms at a height of 1.2-1.5 m from the floor level . The duration of each measurement at each point is determined by the nature of the noise. The process of measuring non-constant noise levels is continued until L (A) eq for 30 s does not change by more than 0.5 dBA and constant noise for at least 15 s.

During measurements in the premises should be turned off radio and television receivers and other equipment that creates extraneous noise.

If the noise source is located inside the building, when taking measurements in the room, the windows and doors of the premises should be closed.

If the noise source is located outside the building, the doors should be closed when taking measurements in the room. If there is no forced mechanical ventilation in the room, the vents, transoms, narrow sash windows or ventilation devices that provide air exchange should be opened. If transport noise is a significant source of noise, measurements should be taken at peak hours in the apartments of the lower, middle and upper floors of the middle sections of the house, which are oriented by the windows to the transport arteries. At the same time, the internal (engineering and technological) equipment of the building functions normally.

Noise measurements are carried out separately during the day and at night. For measurements, select the periods of time characterizing the noise for the entire period of control. The duration of the measurements is planned so that it is possible to determine all the necessary standardized noise parameters.

The level of background radiation of gamma radiation is measured according to MU 2.6.1.2838-11.

If the radiation background in the building is higher by 0.3 μSv / h than the background of the adjacent territory, then if each 0.1 μSv / h is exceeded, then 1 point is deducted.

The equivalent dose rate inside buildings should not exceed the dose rate acceptable for open areas by more than 0.3 μSv / hour (30 μR / hour).

Gamma radiation dosimeters with technical characteristics are used to measure dose rates:

- for the 1st stage (gamma survey of enclosing structures), search gamma radiometers are used (for example, type SRP-68-01, SRP-88N, etc.) or highly sensitive dosimeters of gamma radiation, having a search mode of operation with audible indication. Search gamma radiometers (highly sensitive dosimeters in the search mode of operation) should ensure the registration of the flow of gamma quanta in the energy range of 0.05-3.0 MeV at a pulse count rate of 10 s ^-1 and above;

- dosimeters for which the lower limit of the gamma radiation dose rate measurement range with a total relative uncertainty (P = 0.95) not exceeding 60% should be no more than 0, are used for the 2nd monitoring stage (measuring the gamma radiation dose rate), 1 µSv / h; The total relative uncertainty of dose rate measurements at the level of 0.3 µSv / h and higher should be no more than 30%.

The monitoring of the gamma-radiation dose rate in the premises of residential buildings, public and industrial buildings and structures is carried out in two stages.

At the first stage, a gamma survey of the surface of the building envelopes is carried out in order to identify and eliminate powerful sources of gamma radiation in the surrendering building that pose a direct threat to the life and health of the population. Gamma survey is carried out using search radiometers with scintillation detectors and convenient remote sensors such as SRP-68-01 and is performed by walking around all the premises of the building along a free route along the center of the premises while continuously monitoring the readings of the search radiometer with constant listening to the pulse count rate to the head phone .

If according to the results of gamma surveys in the walls and floors of the premises there are no areas in which the radiometer readings are 2 times or more than the average value characteristic of the rest of the enclosing structures of the room, and the dose rate does not exceed 0.3 μSv / h in the premises of residential and public buildings or 0.6 µSv / h - in the premises of industrial buildings and structures, it is considered that there are no local radiation anomalies in the building structures.

Upon detection of local radiation anomalies in the construction of buildings, measures are taken to eliminate them.

At the second stage, measurements of gamma-radiation dose rate are carried out in apartments of residential buildings and in public and industrial buildings and facilities. At the same time, the number of controlled necessarily includes the premises in which the maximum readings of the search radiometers (dosimeters) are recorded, as well as the premises after the liquidation of the detected local radiation anomalies. Measurement of the dose rate of gamma radiation in the room is performed at a point located in its center at a height of 1 m from the floor. For measurements choose the typical premises, enclosing structures which are made of various building materials. The amount of control should be determined sufficient to identify all rooms in which the gamma radiation dose rate may exceed the established standard, as well as to evaluate its maximum values in typical rooms (by function, floor space, on the floor, at the entrance, as well as by type used building materials). The number of apartments (premises) is selected depending on the number of floors of the building, the total number of apartments (rooms), the availability of reliable information about the radiation safety indicators of the land plot, the content of natural radionuclides in building materials and materials, and other building characteristics.

If there is documentary information on the compliance of the radiation safety indicators of the land with the requirements of paragraphs. 5.1.6 and 5.2.3 of OSPORB-99/2010, and the construction raw materials used in the construction of the building, the requirements of section 5.3.4 of the NRB-99/2009, then the amount of control is chosen minimal considering:

- for single-family homes, school and pre-school child care institutions, measurements are taken in all premises for the permanent stay of people;

- in apartment buildings with the number of apartments up to 10 and buildings and structures of public and industrial purposes, with the number of premises for permanent residence of people up to 30, the optimal number of apartments (rooms) where measurements are taken may be 25% of their total number;

- in apartment buildings with the number of apartments up to 100 and buildings and structures of public and industrial purposes, with the number of rooms for permanent stay of people up to 100, the optimal number of apartments (rooms) where measurements are taken can be 10%;

- when the number of apartments in a residential building (premises for permanent stay of people in buildings and structures of public and industrial purposes) exceeds 100 to 1000, the optimal number of surveyed apartments (rooms) where measurements are taken may be 5%, but not less than 20 apartments (rooms );

- with a larger number of apartments (premises for permanent stay of people in buildings and structures of public and industrial purposes), the optimal number of surveyed apartments (premises) where measurements are taken can be 50 apartments (premises).

In the absence of reliable information on the compliance of the radiation safety indicators of the land plot and / or the content of natural radionuclides in building materials and materials with the established requirements, the amount of control should be increased. The decision to increase the amount of control is taken by the organization that carries out the radiation survey of the building.

In residential apartment buildings, measurements in each apartment selected for control should be carried out in at least two rooms that differ in function. In public and industrial buildings and structures, dose rate measurements should be carried out in areas where people (workers) have a maximum stay.

In residential high-rise buildings (public and industrial buildings and structures), the number of controlled buildings should include apartments (rooms) in each entrance and necessarily rooms on the first floor of buildings.

The content in the tap water of chemicals of hazard classes 1 and 2 is measured according to SanPiN 2.1.4.559-96.

The list of regulated substances is listed in the table contained in SanPiN. The gradation of the content of each individual substance in tap water does not make sense. However, the document states that "If several chemical substances belonging to classes 1 and 2 of hazard and normalized by sanitary and toxicological signs of harm are found in drinking water, the sum of the ratio of detected concentrations of each of them in water to its MAC value should not be greater than 1 ". Thus, in tap water it is necessary to control the substances belonging to hazard classes 1 and 2. The calculation is carried out according to the formula:

концентрации индивидуальных химических веществ 1 и 2 класса опасности: факт. (фактическая) и доп. (допустимая).where С ¹ , С ² , C ⁿ

Concentrations of individual chemicals of hazard class 1 and 2: fact. (actual) and add. (valid)

The location and time of sampling is determined depending on the purpose of the analysis at the most characteristic points of the water supply system: before water enters the distribution network, the most distant from the pumping station, at elevated and dead-end sections of the network, and also at points where the water quality is in doubt. Water samples from the distribution network are taken during periods of greatest water discharge. Before sampling, in accordance with the program of their sampling, determine the range of indicators (characteristics) of the composition and properties of water, which are subject to analysis immediately after sampling at the sampling site. Indicators to be analyzed at the sampling site should be specified in regulatory documents (ND) for the method of determining the indicator. Methods of selection, preparation for determining the composition and properties, transportation and storage of water samples should ensure that the composition of the samples remains constant in the time interval between sampling and analysis. The sampling point and its location are set depending on the purpose specified in the program.

Water sampling is carried out at the outlet of the taps of the internal water supply networks of the houses. When sampling from a tap, the time it takes for the water to drain before sampling depends on the purpose of the sample. If the purpose of sampling is to assess the influence of materials in contact with water on water quality, then samples should be taken without first draining the water. For other purposes, it takes 2-3 minutes to drain the water to establish equilibrium conditions before sampling. When sampling for the determination of microbiological indicators, metal taps should be pre-sterilized by burning with a burning tampon moistened with 96% ethyl alcohol, and plastic taps should be disinfected by treating with 70% ethyl alcohol and discharging water for at least 10 minutes with a fully open tap. Consumer tap water sampling

The content of microorganisms in tap water is measured according to SanPiN 2.1.4.559-96.

Regulatory indicator is the total microbial number (TBC) - the total number of mesophilic aerobic and optional anaerobic microorganisms that can form colonies on nutrient agar at 37 ° C for 24 hours, visible with an increase of two times. According to the requirements, TBC should not exceed 50 CFU / ml.

In addition, tap water should not contain: common coliform bacteria, coliphages, sulfite-reducing clostridial spores. The presence of the above objects in the water is a negative factor. When they are detected, the total number of colonies taken from the scores obtained for the content is 1 point for each type of microorganism.

Total microbial count (k1)

Common coliform bacteria (k2)

Kolifagi (k3)

Spores of sulfite-reducing clostridia (k4)

The results obtained are substituted into the formula to determine the coefficient of the content of microorganisms in water:

For the sampling of water using specially designed for these purposes disposable dishes or containers for multiple use, made of materials that do not affect the vital activity of microorganisms. They must be equipped with tightly closed stoppers (silicone, rubber or other materials) and a protective cap (made of aluminum foil, thick paper). Reusable dishes, incl. plugs, must withstand dry heat sterilization or autoclaving. When filling containers, there should be a space between the cork and the surface of the water so that the cork is not wetted during transportation. After filling the container is closed with a sterile stopper and cap.

The content of microorganisms in the atmospheric air of populated areas is measured according to GN 2.1.6.2177-07.

From the general list, we single out microorganisms having hazard class 3, the number of colonies of which should not exceed 100 per m ³ .

We select a gradation for each microorganism:

Acinetobacter oleovarum s.paraffinicum, pcs. VSB-712 (k 1). MPC - 50 cells / m ³

Actinomyces roseolus, pcs. Z-219 (k 2). MPC - 100 cells / m ³

Aspergillus terreus, pieces 44-62 (k 3). MPC - 30 cells / m³

Brevibacterium lactofermentum, pcs. NITIA-89 (k 4). No blowout

Candida lipolitica, pieces 367-3 (k 5). MPC - 20 cells / m ³

Candida tropicalis, pieces VSB-928 (to 6). PDK- 100 cells / m ³

Candida tropicalis, pieces Y-456 (k 7) MAC-30 cells / m ³

Candida utilis, pieces VSB-651 (k 8). PDK-100 cells / m ³

Escherichia coli, pcs. 1864 (k 9). No blowout

Escherichia coli, pcs. 472-T-23 (k 10). No blowout

Escherichia coli, pcs. TDG-6 (k 11). No blowout

Escherichia coli, pcs. 436 (k 12). No blowout

Pseudomonas stutzeri, pcs. 367-1 (k 13). MPC - 30 cells / m ³

Streptoverticillium griseocarneum (k 14). No blowout

The obtained data is substituted into the formula. In the case of obtaining a fractional number, it must be rounded to a whole down.

For the above works, the Flora-100 aerosol sampler or other domestic and foreign samplers are used that have a certificate of conformity and meet the requirements of the sampling range, the level of permissible contamination to the cleanliness classes A, B (100), C (10,000) and D ( 100,000) The content of suspended particles in the air of residential premises is measured according to GN 2.1.6.1338-03, which states that the maximum permissible daily concentration of suspended particles for the atmospheric air of populated areas should not exceed 0.15 mg / m ³ .

The determination of pollutants in the air in closed rooms is usually based on one of the following approaches:

a) sampling is performed using measuring instruments of the volume of the sampled sample, which are the simplest and easiest to manage, and the subsequent analysis is performed in the laboratory;

b) Sampling and analysis of samples is carried out using gas analyzers with a direct reading of indications.

When placing monitoring equipment, it should be borne in mind that the concentration of the analyte in the air of a closed room may be non-uniform. The resolution of the measurement time is an important factor. Different equipment may have a different time resolution, which will affect the interpretation of the results.

The volume of the sample taken indoors for 1 h should not exceed 10% of air exchange. If the air exchange value is unknown or cannot be measured, then the volume of sampled sampling for 1 h must be less than 10% of the volume of the room.

To determine average concentrations of a substance over fairly long periods of time (for example, 8 hours), diffusion sampling devices can be used, which do not have a number of drawbacks inherent in active sampling devices. However, care should be taken to ensure that controlled-diffusion sampling devices will only be used in areas with ventilation that maintains the established air exchange rate. Important factors that should be taken into account when choosing the time to start sampling are ventilation, the nature of sources of pollution, the presence of people in the room and their activities, the type of indoor environment of the room, temperature and relative humidity. Opening the window inevitably lowers the concentration of the substance in the room (unless the outside air is more polluted with the substance in question) and may also disturb the previously established equilibrium. In the case of short-term sampling, it is not possible to obtain representative results if sampling is started immediately after ventilation. If the substance to be detected is emitted continuously, for example, with building materials or furniture, then after opening the window several hours must pass to establish equilibrium. This also applies to long-term sampling. However, it is less important than short-term sampling, especially if the sampling is carried out over a long period of time and in real life conditions.

If the presence of pollutants in indoor air is caused by emissions of periodic sources, the sampling time will depend on the monitoring objectives. It may correspond to the maximum exposure period or it may cover the average exposure time over a longer period.

If the building or room is equipped with heating, ventilation and air conditioning (HVAC), then additional factors must be taken into account. For example, undesirable emissions of pollutants can result from the functioning of the HVAC system itself (for example, from sealing materials, a humidifier, or settled dust), which leads to the spread of pollutants throughout the building, especially if the system has a high recirculation rate. In addition, outdoor air entering the HVAC system may contain pollutants with high levels of concentration (for example, due to nearby sources).

An example of the implementation of the method, Vladivostok, Nekrasovsky lane. house 24.

In accordance with the claimed method, a sanitary-ecological assessment of the quality of the internal environment of a two-room apartment was carried out. The apartment consists of a combined kitchen, bedroom and bathroom. The total area of the apartment is 50 m. The measurements were carried out in the warm season.

The measurements of the equivalent noise level revealed that the noise level in the bedroom was 35 dB, in the kitchen 30 dB, in the bathroom - 15 dB. According to the calculations ((35 dB * 20 m ² ) + (30 dB * 20 m ² ) + (15 dB * 10 m ² )) / 50 m ² = 29 dB (8 points) is the average noise level for an apartment. The level of magnetic field strength was: 2.7 μT in the room, 1.5 μT in the bedroom, 0.4 μT in the bathroom. According to the calculations ((2.7 mTT * 20 m ² ) + (1.5 mTT * 20 m ² ) + (0.4 mTT * 10 m ² )) / 50 m ² = 1.76 mT (10 points) - the average level of magnetic field intensity for the apartment. Measurements of the background radiation level in all rooms amounted to 0.12 µSv / h (9 points). The air velocity was: in the bedroom 0.25 m / s, in the room 0.3 m / s, in the bathroom 0.1 m / s. According to the calculations ((0.25 m / s * 20 m ² ) + (0.3 m / s * 20 m ² ) + (0.1 m / s * 10 m ² )) / 50 m ² = 0.24 m / s (7 points) - the average rate of air movement in the apartment. Measurements of air temperature throughout the apartment amounted to 25 ° C (6 points). Measurements of the level of air humidity in the apartment showed that 48% in the room, 46% in the bedroom, 57% in the bathroom. According to the calculations ((48% * 20 m ² ) + (45% * 20 m ² ) + (57% * 10 m ² )) / 50 m ² = 48.6% (9 points) - the average indicator of air humidity in the apartment . Measurements of the levels of dust content in the air showed that the room had a dust content of 0.10 mg / m ³ , bedrooms 0.12 mg / m ³ , a bath 0.08 mg / m ³ . According to the calculations ((0.10 mg / m ³ * 20 m ² ) + (0.12 mg / m ³ * 20 m ² ) + (0.08 mg / m ³ * 10 m ² )) / 50 m ² = 0.104 mg / m ³ (7 points) - the content of suspended particles in the air. Measurements of the content of microorganisms in the atmosphere are given in the table, for convenience, the value of the concentration of microorganisms in the atmospheric air is immediately converted to points.

Table - The content of microorganisms in the air of the apartment.

According to the calculations ((10 points * 20 m ² ) + (9 points * 20 m ² ) + (9 points * 10 m ² )) / 50 m ² = 9 points - the average coefficient of the content of microorganisms in the air in the apartment.

Measuring the microbial content of tap water showed that the total microbial number is 7 cells / m ³ (10 points), of which coliphages - 3 cells / m ³ (9 points), total colymorphic bacteria - 3 cells / m ³ (9 points), spores of sulfite-reducing clostridia - 1 cell / m ³ (9 points).

According to the calculations ((10 + 9 + 9 + 9) / 4) = 4 cells / m ³ (9 points).

Measurements of the content of harmful chemicals in tap water showed that the total concentration of substances of hazard classes 1 and 2 is 0.4 mg / m ³ (9 points).

Translating the data into points, we substitute them into the final formula: UEB = Σ (k emp + k rad + k wet + k temp + k noise + k micr + k dust + k chemical water + k micr. A + k motion air)

where WEB is the level of ecological well-being,

k _emp. - coefficients level of electromagnetic field of industrial frequency (50 Hz),

k _glad - coefficients the background radiation level of gamma radiation,

k _wet - coefficients relative humidity

k _temp. - coefficients the temperatures inside the living rooms

k _noise - coefficient equivalent level of noise pollution,

k _{mic waters} - coefficients levels of microorganisms in tap water,

k _dust - coeff. dust content in the air of residential premises.

k _{chemical waters.} - coefficients concentrations of chemicals 1-2 hazard classes in tap water.

k _{mic air} - coefficients microbial content in the air of residential premises,

k _{movement air} - coefficients air velocity inside the premises.

UEB = 8 + 10 + 9 + 7 + 6 + 9 + 7 + 9 + 9 + 9) = 83 points.

Gradation of residential premises according to assigned coefficients

According to the developed gradation system, this high-quality housing has practically no negative impact on human health.

Claims (1)

A method for assessing the environmental status of residential premises, including determining pollution levels by several polluting factors, with preliminary ranking of pollution values in points, and identifying the integral index of environmental pollution, the magnitude of which is judged on the environmental status of the object being surveyed, characterized in that in the premises of the object being examined , take samples of water and air, measure the levels of radiation background, electromagnetic fields, noise, temperature, humidity, speed of movement in zhudu in the room, while in the process of preliminary ranking of pollution values, use the indicators contained in the normative documents that normalize these pollutants, and the maximum score is given to the minimum values of the MPC for the factor or its regulated optimal values, in addition, the temperature index for the warm period varies from +15 to + 30 ° С, at the same time, 10 points corresponds to a temperature of 23 ° С, 9 points corresponds to a temperature of 22 or 24 ° С, 8 points corresponds to a temperature of 21 or 25 ° C, 7 points corresponds to a temperature of 20 or 26 ° C, 6 points corresponds to a temperature of 19 or 27 ° C, 5 points corresponds to a temperature of 18 or 28 ° C, 4 points corresponds to a temperature of 17 or 29 ° C, 3 points corresponds to a temperature of 16 or 30 ° С, 2 points corresponds to a temperature of 15 ° С, whereas the temperature indicator for the cold period varies from +17 to + 26 ° С, while 10 points corresponds to a temperature of 21 ° С, 9 points corresponds to a temperature of 20 or 22 ° С , 8 points corresponds to a temperature of 19 or 23 ° С, 7 points corresponds to a temperature of 18 or 24 ° С, 6 points with Corresponds to a temperature of 17 or 25 ° C, 5 points corresponds to a temperature of 26 ° C, relative humidity varies from 5 to 95%, while 10 points corresponds to a relative humidity of 50%, 9 points corresponds to a relative humidity of 45 or 55%, 8 points corresponds to relative humidity of 40 or 60%, 7 points corresponds to a relative humidity of 35 or 65%, 6 points corresponds to a relative humidity of 30 or 70%, 5 points corresponds to a relative humidity of 25 or 75%, 4 points corresponds to a relative humidity of 20 or 80%, 3 points corresponds The relative humidity is 15 or 85%, 2 points corresponds to a relative humidity of 10 or 90%, 1 point corresponds to a relative humidity of 5 or 95%, the rate of air movement inside living rooms varies from 0.02 to 0.38 m / s, while , 10 points corresponds to a speed of 0.2 m / s, 9 points corresponds to a speed of 0.18 or 0.22 m / s, 8 points corresponds to a speed of 0.16 or 0.24 m / s, 7 points corresponds to a speed of 0.14 or 0.26 m / s, 6 points corresponds to a speed of 0.12 or 0.28 m / s, 5 points corresponds to a speed of 0.10 or 0.30 m / s, 4 points corresponds to a speed of 0.08 or 0.32 / s, 3 points corresponds to a speed of 0.06 or 0.34 m / s, 2 points corresponds to a speed of 0.04 or 0.36 m / s, 1 point corresponds to a speed of 0.02 or 0.38 m / s, the indicator characterizing the parameters of the electromagnetic field of industrial frequency varies from 1 to 10 μT, while 10 points corresponds to 1 μT, 9 points corresponds to 2 μT, 8 points corresponds to 3 μT, 7 points corresponds to 4 μT, 6 points corresponds to 5 μT, 5 points corresponds to 6 μT , 4 points corresponds to 7 mTT, 3 points corresponds to 8 mTT, 2 points corresponds to 9 mTT, 1 point corresponds to 10 mTT, The user characterizing the equivalent noise level varies from 10 to 100 dBa, in this case, 10 points corresponds to 10 dBa, 9 points corresponds to 20 dBa, 8 points corresponds to 30 dBa, 7 points corresponds to 40 dBa, 6 points corresponds to 60 dBa, 4 points corresponds to 70 dBa, 3 points corresponds to 80 dBa, 2 points corresponds to 90 dBa, 1 point corresponds to 100 dBa, the indicator characterizing the level of background radiation of gamma radiation varies from 0.1 to 1.0 µ Sv / h , at the same time, 10 points corresponds to 0.1 micron Sv / h, 9 points corresponds to 0.2 micron D w / h, 8 points corresponds to 0.3 micron Sv / h, 7 points corresponds to 0.4 micron Sv / h, 6 points corresponds to 0.5 micron Sv / h, 5 points corresponds to 0.6 micron Sv / h, 4 points corresponds to 0.7 micron Sv / h, 3 points corresponds to 0.8 micron Sv / h, 2 points corresponds to 0.9 micron Sv / h, 1 point corresponds to 1.0 micron Sv / h, an indicator characterizing the content in chemical tap water substances of hazard classes 1 and 2, varies from 0.1 to 1.0 MAC, while 10 points corresponds to 0.1 MAC, 9 points corresponds to 0.2 MAC, 8 points corresponds to 0.3 MAC, 7 points corresponds to 0, 4 MAC, 6 points corresponds to 0.5 MAC, 5 points corresponds to 0.6 MPC, 4 points corresponds to 0.7 MPC, 3 points corresponds to 0.8 MPC, 2 points corresponds to 0.9 MPC, 1 point corresponds to 1.0 MAC, an indicator characterizing the content of microorganisms in the tap water of the dwelling, varies from 5 to 50 CFU / ml, while 10 points corresponds to 5 CFU / ml, 9 points corresponds to 10 CFU / ml, 8 points corresponds to 15 CFU / ml, 7 points corresponds to 20 CFU / ml, 6 points corresponds to 25 CFU / ml, 5 points corresponds to 30 CFU / ml, 4 points corresponds to 35 CFU / ml, 3 points corresponds to 40 CFU / ml, 2 points corresponds to 45 CFU / ml, 1 the score corresponds to 50 CFU / ml, an indicator characterizing the content of suspended particles in the air varies from 0.03 to 0.30 mg / m ³ , while 10 points corresponds to 0.03 mg / m ³ , 9 points corresponds to 0.06 mg / m ³ , 8 points corresponds to 0.09 mg / m ³ , 7 points corresponds to 0.12 mg / m ³ , 6 points corresponds to 0.15 mg / m ³ , 5 points corresponds to 0.18 mg / m ³ , 4 points corresponds to 0.21 mg / m ³ , 3 points corresponds to 0.24 mg / m ³ , 2 points corresponds to 0.27 mg / m ³ , 1 point corresponds to 0.30 mg / m ³ , the content of such microorganisms in the air is detected, as Acinetobacter oleovarum s.paraffinicum, pcs. VSB-712 (k 1), Actinomyces roseolus, pcs. Z-219 (k 2), Aspergillus terreus, pcs. 44-62 (k 3), Brevibacte-rium lactofermentum, pcs. NITIA-89 (k 4), Candida lipolitica, pieces 367-3 (k 5), Candida tropicalis, pcs. VSB-928 (k 6), Candida tropicalis, pcs. Y-456 (k 7), Candida uti-lis, pcs. VSB-651 (k 8), Escherichia coli, pcs. 1864 (k 9), Escherichia coli, pcs. 472-T-23 (k 10), Escherichia coli, pcs. TDG-6 (k 11), Escherichia coli, pcs. 436 (k 12), Pseudomonas stutzeri, pcs. 367-1 (k 13), Streptoverticillium griseocarneum (k 14), in this case, the indicator characterizing the content in the air Acinetobacter oleovarum s.paraffinicum, pcs. BCB-712 (k 1), varies from 10 to 100 C / m ³ , with 10 points corresponding to 10 C / m ³ , 9 points corresponding to 20 C / m ³ , 8 points corresponding to 30 C / m ³ , 7 points corresponds to 40 C / m ³ , 6 points corresponds to 50 C / m ³ , 5 points corresponds to 60 C / m ³ , 4 points corresponds to 70 C / m ³ , 3 points corresponds to 80 C / m ³ , 2 points corresponds to 90 C / m ³ , 1 point corresponds to 100 C / m ³ , while the indicator characterizing the content in the air Actinomyces roseolus, pcs. Z-219 (k 2), varies from 20 to 200 C / m ³ , while 10 points corresponds to 20 C / m ³ , 9 points corresponds to 40 C / m ³ , 8 points corresponds to 60 C / m ³ , 7 points corresponds to 80 C / m ³ , 6 points corresponds to 100 C / m ³ , 5 points corresponds to 120 C / m ³ , 4 points corresponds to 140 C / m ³ , 3 points corresponds to 160 C / m ³ , 2 points corresponds to 180 C / m ³ , 1 point corresponds to 200 C / m ³ , at the same time, the indicator characterizing the content of Aspergillus terreus in the air, pcs. 44-62 (k 3) varies from 5 to 50 C / m ³ , while 10 points corresponds to 5 C / m ³ , 9 points corresponds to 10 C / m ³ , 8 points corresponds to 15 C / m ³ , 7 points corresponds to 20 C / m ³ , 6 points corresponds to 25 C / m ³ , 5 points corresponds to 30 C / m ³ , 4 points corresponds to 35 C / m ³ , 3 points corresponds to 40 C / m ³ , 2 points corresponds to 45 C / m ³ , 1 point corresponds to 50 C / m ³ , at the same time, an indicator characterizing the content of Brevibacterium lactofermentum in the air, pcs. NITIA-89 (k 4) varies from 0 to 45 C / m ³ , while 10 points corresponds to 0 C / m ³ , 9 points corresponds to 5 C / m ³ , 8 points corresponds to 10 C / m ³ , 7 points corresponds to 15 C / m ³ , 6 points corresponds to 20 C / m ³ , 5 points corresponds to 25 C / m ³ , 4 points corresponds to 30 C / m ³ , 3 points corresponds to 35 C / m ³ , 2 points corresponds to 40 C / m ³ , 1 point corresponds to 45 C / m ³ , at the same time, an indicator characterizing the content of Candida lipolitica in the air, pcs. 367-3 (k 5) varies from 5 to 50 C / m ³ , while 10 points corresponds to 5 C / m ³ , 9 points corresponds to 10 C / m ³ , 8 points corresponds to 15 C / m ³ , 7 points corresponds to 20 C / m ³ , 6 points corresponds to 25 C / m ³ , 5 points corresponds to 30 C / m ³ , 4 points corresponds to 35 C / m ³ , 3 points corresponds to 40 C / m ³ , 2 points corresponds to 45 C / m ³ , 1 point corresponds to 50 C / m ³ , while the indicator characterizing the content of Candida tropicalis in the air, pcs. VSB-928 (k 6) varies from 20 to 200 C / m ³ , while 10 points corresponds to 20 C / m ³ , 9 points corresponds to 40 C / m ³ , 8 points corresponds to 60 C / m ³ , 7 points corresponds to 80 C / m ³ , 6 points corresponds to 100 C / m ³ , 5 points corresponds to 120 C / m ³ , 4 points corresponds to 140 C / m ³ , 3 points corresponds to 160 C / m ³ , 2 points corresponds to 180 C / m ³ , 1 point corresponds to 200 C / m ³ , at the same time, the indicator characterizing the air content, Candida tropicalis, pcs. Y-456 (k 7) varies from 5 to 50 C / m ³ , while 10 points corresponds to 5 C / m ³ , 9 points corresponds to 10 C / m ³ , 8 points corresponds to 15 C / m ³ , 7 points corresponds to 20 C / m ³ , 6 points corresponds to 25 C / m ³ , 5 points corresponds to 30 C / m ³ , 4 points corresponds to 35 C / m ³ , 3 points corresponds to 40 C / m ³ , 2 points corresponds to 45 C / m ³ , 1 point corresponds to 50 C / m ³ , at the same time, the indicator characterizing the content of Candida utilis in the air, pcs. VSB-651 (k 8) varies from 20 to 200 C / m ³ , with 10 points corresponding to 20 C / m ³ , 9 points corresponding to 40 C / m ³ , 8 points corresponding to 60 C / m ³ , 7 points corresponding to 80 C / m ³ , 6 points corresponds to 100 C / m ³ , 5 points corresponds to 120 C / m ³ , 4 points corresponds to 140 C / m ³ , 3 points corresponds to 160 C / m ³ , 2 points corresponds to 180 C / m ³ , 1 point corresponds to 200 C / m ³ , at the same time, the indicator characterizing the content of Escherichia coli in the air, pcs. 1864 (k 9) varies from 0 to 45 C / m ³ , with 10 points corresponding to 0 C / m ³ , 9 points corresponding to 5 C / m ³ , 8 points corresponding to 10 C / m ³ , 7 points corresponding to 15 C / m ³ , 6 points corresponds to 20 C / m ³ , 5 points corresponds to 25 C / m ³ , 4 points corresponds to 30 C / m ³ , 3 points corresponds to 35 C / m ³ , 2 points corresponds to 40 C / m ³ , 1 the score corresponds to 45 C / m ³ , while the indicator characterizing the content of Escherichia coli in the air, pcs. 472-T-23 (k 10) varies from 0 to 45 C / m ³ , while 10 points corresponds to 0 C / m ³ , 9 points corresponds to 5 C / m ³ , 8 points corresponds to 10 C / m ³ , 7 points corresponds to 15 C / m ³ , 6 points corresponds to 20 C / m ³ , 5 points corresponds to 25 C / m ³ , 4 points corresponds to 30 C / m ³ , 3 points corresponds to 35 C / m ³ , 2 points corresponds to 40 C / m ³ , 1 point corresponds to 45 C / m ³ , while the indicator characterizing the content of Escherichia coli in the air, pcs. TDG-6 (k 11) varies from 0 to 45 C / m ³ , while 10 points corresponds to 0 C / m ³ , 9 points corresponds to 5 C / m ³ , 8 points corresponds to 10 C / m ³ , 7 points corresponds to 15 C / m ³ , 6 points corresponds to 20 C / m ³ , 5 points corresponds to 25 C / m ³ , 4 points corresponds to 30 C / m ³ , 3 points corresponds to 35 C / m ³ , 2 points corresponds to 40 C / m ³ , 1 point corresponds to 45 C / m ³ , while the indicator characterizing the content of Escherichia coli in the air, pcs. 436 (k 12) varies from 0 to 45 C / m ³ , with 10 points corresponding to 0 C / m ³ , 9 points corresponding to 5 C / m ³ , 8 points corresponding to 10 C / m ³ , 7 points corresponding to 15 C / m ³ , 6 points corresponds to 20 C / m ³ , 5 points corresponds to 25 C / m ³ , 4 points corresponds to 30 C / m ³ , 3 points corresponds to 35 C / m ³ , 2 points corresponds to 40 C / m ³ , 1 the score corresponds to 45 C / m, at the same time, the indicator characterizing the content of Pseudomonas stutzeri in the air, pcs. 367-1 (k 13) varies from 5 to 50 C / m ³ , while 10 points corresponds to 5 C / m ³ , 9 points corresponds to 10 C / m ³ , 8 points corresponds to 15 C / m ³ , 7 points corresponds to 20 C / m ³ , 6 points corresponds to 25 C / m ³ , 5 points corresponds to 30 C / m ³ , 4 points corresponds to 35 C / m ³ , 3 points corresponds to 40 C / m ³ , 2 points corresponds to 45 C / m ³ , 1 point corresponds to 50 C / m ³ , while the indicator characterizing the content of Streptoverticillium griseocarneum (k 14) in the air varies from 0 to 45 C / m ³ , while 10 points corresponds to 0 C / m ³ , 9 points corresponds to 5 C / m ³ , 8 points corresponding Et 10 C / m ³ , 7 points corresponds to 15 C / m ³ , 6 points corresponds to 20 C / m ³ , 5 points corresponds to 25 C / m ³ , 4 points corresponds to 30 C / m ³ , 3 points corresponds to 35 C / m ³ , 2 points corresponds to 40 C / m ³ , 1 point corresponds to 45 C / m ³ , further, the scoring values of pollutant factors are summarized and used for comparative assessment of the environmental quality inside the premises of the object being examined, while using the weighted average of the total level environmental well-being (WEB) taking into account the area surveyed placed namely, objects of the highest class 90-100 (5 points), high-quality objects 70-90 (4 points), objects of average quality 50-70 (3 points), low-quality objects 20-50 (2 points), absolutely unfavorable conditions 10-20 (1 point).