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RELEVANCE: The problem of hazardous working conditions in Russia attracts attention due to an increase in the proportion of workers exposed to negative impacts on their health. Of particular interest is the analysis of the air environment as the main factor influencing human health. 32.2% of workers in hazardous working conditions are exposed to airborne factors, which leads to occupational diseases. To reduce the harmful effects of the air, it is necessary to clean it from harmful components. A promising device for air purification is an electric precipitator.PURPOSE: The study is aimed at selecting and optimizing electric precipitators for air purification in industrial premises. The goal is to determine the most effective design of an electric precipitator for cleaning the air environment of industrial premises.METHODS: The analysis is carried out on the basis of statistical data, the results of studies of electric precipitators of various designs for cleaning the air from dust, harmful gases and microorganisms. The results are used for comparative analysis.RESULTS: The study reveals that different designs of electrostatic precipitators demonstrate different effectiveness in air purification depending on the type of design. The design of corona electrodes affects ozone generation. It has been established that two-zone electrostatic precipitators with needle corona electrodes on the negative corona can significantly reduce ozone emissions. Wet electrostatic precipitators have regeneration, and the presence of several stages increases the cleaning efficiency. Electrostatic filters do not generate ozone and can be used in explosive low-volume areas.CONCLUSION: The study confirms that the choice of electrostatic precipitator should depend on the specifics of production and the volume of the room. For explosive environments, electrostatic precipitators should be preferred, while for large areas, a wet multi-stage electrostatic precipitator is recommended. Electrostatic precipitators-ozonizers can be effective for air disinfection. Summarizing the results allows us to conclude that it is important to choose the appropriate type of electrostatic precipitator to ensure optimal air conditions for the safety of workers.
RELEVANCE: The problem of hazardous working conditions in Russia attracts attention due to an increase in the proportion of workers exposed to negative impacts on their health. Of particular interest is the analysis of the air environment as the main factor influencing human health. 32.2% of workers in hazardous working conditions are exposed to airborne factors, which leads to occupational diseases. To reduce the harmful effects of the air, it is necessary to clean it from harmful components. A promising device for air purification is an electric precipitator.PURPOSE: The study is aimed at selecting and optimizing electric precipitators for air purification in industrial premises. The goal is to determine the most effective design of an electric precipitator for cleaning the air environment of industrial premises.METHODS: The analysis is carried out on the basis of statistical data, the results of studies of electric precipitators of various designs for cleaning the air from dust, harmful gases and microorganisms. The results are used for comparative analysis.RESULTS: The study reveals that different designs of electrostatic precipitators demonstrate different effectiveness in air purification depending on the type of design. The design of corona electrodes affects ozone generation. It has been established that two-zone electrostatic precipitators with needle corona electrodes on the negative corona can significantly reduce ozone emissions. Wet electrostatic precipitators have regeneration, and the presence of several stages increases the cleaning efficiency. Electrostatic filters do not generate ozone and can be used in explosive low-volume areas.CONCLUSION: The study confirms that the choice of electrostatic precipitator should depend on the specifics of production and the volume of the room. For explosive environments, electrostatic precipitators should be preferred, while for large areas, a wet multi-stage electrostatic precipitator is recommended. Electrostatic precipitators-ozonizers can be effective for air disinfection. Summarizing the results allows us to conclude that it is important to choose the appropriate type of electrostatic precipitator to ensure optimal air conditions for the safety of workers.
Introduction: The automotive industry is characterized by a complex and combined workers’ exposure to occupational risk factors. The problem of early detection, course and development of prognostic criteria for modern forms of occupational pathology remains relevant. Objective: To assess the main workplace hazards in the automotive industry and the risk of occupational diseases in its workers. Materials and methods: We conducted our own occupational health studies, examined production control data (348 units) and results of special evaluation of working conditions (97 units) at an automobile manufacturing enterprise of the Republic of Bashkortostan in 2020–2023. In total, we took 554 measurements of noise, 554 – of hand-arm vibration, 448 – of chemicals, and 554 – of work heaviness. To assess occupational risk, we used an integral indicator of the frequency and severity of occupational diseases, the index of occupational diseases (IOD), as the inverse value of the categories of risk (Cr) and severity (Cs), a single-digit indicator (IOD), combining Cr and Cs. Calculations were done in Microsoft Excel. Results: In the course of work, employees are exposed to a combination of physical factors, such as noise (Class 3.2) and hand-arm vibration (Class 3.1); chemical factors, including fibrogenic aerosols, metal dusts, toxicants from welding fumes, paints and varnishes (Class 3.1), and physical overload (Class 3.1). The overall working conditions correspond to Hazard Class 3, degrees 1–2. We assessed risks of developing the following occupational diseases (IOD = 0.16, total IOD = 0.32): vibration disease from exposure to hand-arm vibration and sensorineural hearing loss from noise exposure; chronic poisoning with manifestations of disorders of the pulmonary system (toxic bronchitis and chronic obstructive pulmonary disease) related to chemical exposures. Occupational diseases had a mild course with minor functional grade 1 manifestations and no progression of the pathological process. Conclusions: The complex and combined exposure to industrial safety hazards in the automotive industry determines the moderate risk of developing occupational diseases in its workers.
Introduction. The aluminum industry occupies a leading position among non-ferrous metallurgy industries in revealing somatic pathologies in workers that occur against the background of chronic fluoride intoxication. Long-term exposure to fluorides on the body has a cardiovasotoxic effect, leads to structural and functional disorders of the myocardium and the development of comorbid cardiovascular pathology. This dictates the need for a risk-oriented approach to its diagnosis, including one based on molecular genetic analysis, for the timely identification of risk groups for the development of atherosclerosis and the elaboration of preventive measures aimed at preserving the health and maintaining working longevity of the studied occupational cohort. Materials and methods. There were examined ninety seven metallurgists with a previously proven diagnosis of chronic occupational intoxication with fluoride compounds, engaged in aluminum production. The comparison group consisted of 33 workers of this enterprise without a proven occupational disease. All respondents underwent ultrasound investigation of the main arteries. Genotyping of the rs2010963 polymorphic locus of the VEGF-A gene was carried out in a 96-well format using TaqMan technology (allele-specific real-time PCR). Results. The associative connection of the G/G VEGF-A genotype is determined in metallurgists with the risk of developing chronic occupational intoxication with fluoride compounds and heterozygous G/C genotype in subjects with multifocal atherosclerosis. The high level of predictive value of the polymorphism -634 G/C (rs2010963) of the VEGF-A gene allows considering it a marker of the risk for the developing atherosclerosis in workers exposed to long-term impact to fluoride compounds on the body. Limitations. The study was limited to the number of long-term work experienced subjects undergoing periodic medical examinations and undergoing inpatient treatment at the Research Institute for Complex Problems of Hygiene and Occupational Diseases. Conclusion. It is recommended to conduct a screening molecular and genetic analysis in a clinical hospital setting for timely assessment of the prognostic significance of risk markers for the development of atherosclerosis and its complications in workers of basic occupations engaged in aluminum production.
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