Aerosol Systems of Supply Ventilation, as Means of Air Quality Improvement of Working Zones

Artem V. Azarov; Natalia S. Zhukova; I.V. Stefanenko; M.A. Nikolenko

doi:10.4028/www.scientific.net/AMM.875.128

Paper Titles

Optimal Design Parameters of Cab’s Isolation System for Vibratory Roller Using a Multi-Objective Genetic Algorithm
p.105

Analysis of the Characteristics on Dielectric Barrier Discharges Depending on the Relative Permittivity and Frequency
p.113

Analysis of Factors Influencing the Characteristics of the Tire and its Model Used in MSC.ADAMS/Car
p.117

Optimization of Design Parameters for Materials Consumption for Reinforcing Metal Framework of Industrial Buildings
p.122

Aerosol Systems of Supply Ventilation, as Means of Air Quality Improvement of Working Zones
p.128

On the Calculation Model of Fine Dispersed Dust Pollution of Kabul's Atmosphere for Ventilation Design
p.132

Air Flow Straighteners’ Application to Reduce the Power Consumption of Exhaust Ventilation Schemes
p.137

Fundamentals of Methodology of Development of the Technical Theory of Natural and Technical Systems in Use of Water Resources
p.141

Applying Absorption in Environmental Mechanics’ Decreasing of Aspiration Emissions of Gas Station
p.145

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 875Aerosol Systems of Supply Ventilation, as Means of...

Aerosol Systems of Supply Ventilation, as Means of Air Quality Improvement of Working Zones

Abstract:

Article is devoted to a research of aerosol systems of supply ventilation. Expediency of creation and use of water and aerosol systems for decrease in concentration of fine-dispersion dust in working zones, and as a result, decrease in negative impact on operators of various productions is proved. The design of a centrifugal mechanical one-slot-hole nozzle is proposed. Problems of dust content in air of a working zone and impact of particles of PM10 and PM2,5 on an organism of workers are considered.

You might also be interested in these eBooks

The 2nd International Conference Material Engineering and Application

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volume 875)

Pages:

128-131

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.875.128

Citation:

Cite this paper

Online since:

January 2018

Authors:

Artem V. Azarov*, Natalia S. Zhukova, I.V. Stefanenko, M.A. Nikolenko

Keywords:

Concentration, Fine-Dispersion Dust, Nozzle, Ventilation, Water-Aerosol System, Working Area

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] V. N. Azarov, Complex assessment of a dust situation and development of measures for decrease in a dust content of the air environment of the industrial enterprises : dis. … d-r of teсhn. science. Rostov n/D, (2004).

Google Scholar

[2] A. V. Azarov, N. S. Zhukova,. E. A. Kalyuzhina, Environmental and working area dust emission from the gypsum warehouse, Procedia Engineering 2. Ser. 2nd International Conference on Industrial Engineering, ICIE 2016, (2016), p.2080-(2086).

DOI: 10.1016/j.proeng.2016.07.242

Google Scholar

[3] A. N. Bogomolov, N. S. Zhukova, D. V. Azarov, D. S. Khegai, Assessment of factor dust in the workplace for manufacturing enterprise chalk, Bulletin of Volgograd State University of Architecture and Civil Engineering. Series: Construction and architecture. 43(62) (2016).

Google Scholar

[4] V. N. Azarov, I. V. Tertishnikov, E. A. Kalyuzhina, N. A. Marinin, An estimate of the concentration of fine-dispersed dust (РМ10 and РМ2, 5) in the air, Bulletin of Volgograd State University of Architecture and Civil Engineering. Series: Construction and architecture. 25 (2011).

Google Scholar

[5] P. M. Hoet, I. Bruske-Hohlfeld, O. V. Salata, Nanoparticles - known and unknown health risks, J. Nanobiotech. 2 (2004) 12.

Google Scholar

[6] Sanitary and epidemiological rules and norms 2. 2. 3. 1385-03 Hygienic requirements for enterprises producing building materials and structures, enacted June 30, 2003, Ministry of Justice of Russian Federation, June 17, (2003).

Google Scholar

[7] S. V. Belov, Protection products in mechanical engineering. Calculation and design. Reference [Text] / S.V. Belov, A.F. Koziakov, O.F. Partolin and other. - Moscow, (1989), p.368.

Google Scholar