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

Sergey A. Koshkarev; Valery N. Azarov; I.V. Stefanenko; E.V. Sokolova

doi:10.4028/www.scientific.net/AMM.875.145

Paper Titles

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

Research on Lateral Nonlinear Vibration Behavior of Composite Shaft-Disk Rotor System
p.149

Influence of Pore Structure on Chloride Distribution in Surface Layer of Cement Paste under Cyclic Wet-Dry Condition
p.165

Mechanical Properties of Fiber Reinforced Concrete
p.174

Modelling of Dust Dispersion of Emissions from Expanded Clay Manufacturing in the Atmosphere
p.179

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 875Applying Absorption in Environmental Mechanics’...

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

Abstract:

The article presents the results of applying environmental mechanics in research of absorber for capturing emissions’ hydrocarbons vapors exhausting from the gas station into the atmosphere air. Often residential human habitants are located within the boundary of the sanitary protection zone (SPZ) of these gas filling stations. The analysis measurement’s and stratification’ modeling results these gas emissions’ in the atmosphere showed that benzene and xylene vapor’s concentration in the atmosphere exceeds the existing sanitary-hygienic norms for these ingredients often. There presented the research results of the proposed aspiration schemes was equipped absorbing device for the capture of gas vapor’ emissions at the gas station in this article. It was obtained the regressions of capture effectiveness for the proposed device by mathematical processing. The research results were implemented for design of pilot industrial set up that was installed and successful tested in one of the gas filling station in Russia. It was showed the reliability of the proposed device for practical commercial use.

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:

145-148

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.875.145

Citation:

Cite this paper

Online since:

January 2018

Authors:

Sergey A. Koshkarev*, Valery N. Azarov, I.V. Stefanenko, E.V. Sokolova

Keywords:

Absorber, Aspiration, Atmosphere, Capturing, Emissions, Gas, Station

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] S. A. Koshkarev, E. V. Sokolova. The analysis of efficiency of methods of decrease in emissions of vapors of heavy hydrocarbons of gas station with use of results of modeling of their dispersion in the atmosphere. Alternat. Power Eng. Ecol., no. 11(133), 2013, pp.52-55.

Google Scholar

[2] S.A. Koshkarev. Emissions' decreasing of gas station on the basis of modeling of their dispersion. Alternat. Energy Ecol., no. 7, 2015, pp.82-92.

Google Scholar

[3] V.N. Azarov S. A. Koshkarev. Effectivness' estimation of wet cleaner of dust decreasing emissions of expanded clay kiln oven. Mag. Civil Eng., no. 2, 2015, pp.18-32.

DOI: 10.5862/mce.54.3

Google Scholar

[4] S.A. Koshkarev, V. N. Azarov, et al. Russia Patent 139122, (2013).

Google Scholar

[5] L.A. Mishina. Methods of chemical, physicomechanical and metrological control. Nedra, Leningrad, (1998).

Google Scholar

[6] N. Johnson. Statistics and experimental design in engineering and science. Methods of experimental design. Mir, Moscow, (1981).

Google Scholar