On the Regularities of the Concentration Profile of Asbestos-Cement Dust, its Particle Size Distribution Depending on the Height of Working Room and the Methods of Air Exchange Organization

Valery N. Azarov; I.V. Stefanenko; Renata Burkhanova

doi:10.4028/www.scientific.net/AMM.875.187

Paper Titles

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

Research of Air Flows Dynamics at Construction Works in the Condition of Urban Built-Up Areas
p.183

On the Regularities of the Concentration Profile of Asbestos-Cement Dust, its Particle Size Distribution Depending on the Height of Working Room and the Methods of Air Exchange Organization
p.187

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 875On the Regularities of the Concentration Profile...

On the Regularities of the Concentration Profile of Asbestos-Cement Dust, its Particle Size Distribution Depending on the Height of Working Room and the Methods of Air Exchange Organization

Abstract:

The dependences of the concentration profile and the particle size distribution of asbestos-cement dust on the dimensions of working room along the horizontal and vertical axes were obtained in the work. The paper considers the dependence of the median size values of dust particles on the methods of air exchange organization in the working room.

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:

187-190

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.875.187

Citation:

Cite this paper

Online since:

January 2018

Authors:

Valery N. Azarov, I.V. Stefanenko, Renata Burkhanova*

Keywords:

Distance to the Source of Dust Emission, Height of Working Room, Median Diameter of Dust Particles, Methods of Air Exchange Organization, Size Distribution of Dust Particle

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] N. Menzelintseva, V. Azarov, N. Karapuzova, A. Redhwan. Main trends of dust conditions normalizing at cement manufacturing plants. Int. Rev. Civil Eng. (IRECE), 6 (6), 2015, pp.145-150.

DOI: 10.15866/irece.v6i6.6181

Google Scholar

[2] R. A. Burkhanova et al. On the disperse composition of dust in the air in the production of building materials. Volgograd State University of Architecture and Civil Engineering. Volgograd: Publishing house of VolgGASU, 30 (49), 2013, pp.256-260.

Google Scholar

[3] V. Azarov, D. Borovkov, A. Redhwan. Application of Swirling Flows in Aspiration Systems. Int. Rev. Mech. Eng. (IREME), 8 (4), 2014, pp.750-753.

Google Scholar

[4] V. Azarov, D. Lukanin, D. Borovkov, A. Redhwan. Experimental Study of Secondary Swirling Flow Influence on Flows Structure at Separation Chamber Inlet of Dust Collector with Counter Swirling Flows. Int. Rev. Mech. Eng. (IREME), 8 (5), 2014, pp.851-856.

DOI: 10.15866/ireme.v8i5.3455

Google Scholar

[5] V. N. Azarov, I. N. Logachev, K. I. Logachev et al. Methods of reducing the power requirements of ventilation systems Part 4. Theoretical prerequisites for the creation of dust localizing devices with swirling air flows. Refract. Ind. Ceram, 55 (4), 2014, pp.365-370.

DOI: 10.1007/s11148-014-9728-6

Google Scholar

[6] R. A. Burkhanova. Specific features of protection against dustiness at working places at asbestos-cement products manufacturing. Issues of industrial and natural environment protection: collection of scientific articles. Volgograd: Publishing house of VSUACE, 3 (2011).

Google Scholar

[7] V. N. Azarov, A. I. Evtushenko, V. P. Batmanov et al. Aerodynamic characteristics of dust in the emissions into the atmosphere and working zone of construction enterprises, Int. Rev. Civil Eng., 7 (5) 2016, pp.132-136.

DOI: 10.15866/irece.v7i5.9869

Google Scholar

[8] V. N. Azarov. On the concentration and particle size distribution of dust in the air of working and service zones of construction industry enterprises. Quality of Internal Air and Environment. International Conference. Volgograd, 2003, pp.1-7.

Google Scholar

[9] V. N. Azarov, Evaluation of dust emission from technological equipment, Occupat. Saf. Ind. 7, (2003), pp.45-46.

Google Scholar

[10] M. I. Grimitlin et al. Ventilation and heating of workshops of machine-building enterprises. The 2nd edition, revised and corrected. – Moscow.: Machine Building, 1993, 286 p.

Google Scholar