A. N. Varfolomeev scite author profile

A. N. Varfolomeev

5Publications

33Citation Statements Received

8Citation Statements Given

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Development of a Cyclone-Based Aerosol Sampler with Recirculating Liquid Film: Theory and Experiment

Sigaev

Tolchinsky²,

Sigaev³

et al. 2006

Aerosol Science and Technology

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This article describes the theoretical considerations, design criteria, and experimental performance of a cyclone-based, liquidfilm, bioaerosol sampler. Different from conventional cyclones, this novel sampler draws air tangentially into the bottom of a swirling cyclone, creating a negative pressure differential which causes continuous suction of sorption liquid from its reservoir into the cyclone. The liquid swirls with the air vortex and rises spirally along the sampler wall in the form of a thin film. In the presence of an excess pressure differential, the liquid goes over the upper edge of the cyclone (overflow mode) and flows back to the bottom of the sampler. As a result, there is a continuous circulation of the sorption liquid in the sampler, which enhances the efficacy of capturing viable aerosol particles from incoming air. In this study, mathematical models using simplified Navier-Stokes equations are developed to describe the behavior of the airflow, the formation of the liquid film, and the precipitation process of the aerosol particles. Numerical solutions are presented as an approximation to these complex air and liquid flow streams in the whirlwind cyclone. Based on the theoretical assessment, practical design criteria for a novel sampler were formulated and a series of prototype samplers were fabricated and evaluated. In this report, experimental findings concerning the thickness of the air vortex, the pressure profile in the cyclone, and the apex height of the liquid film are presented. The results are in good agreement with theoretical prediction. However, the theory seems to overestimate the capturing efficiency for particles around

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Performance evaluation of two personal bioaerosol samplers

Tolchinsky¹,

Sigaev²,

Varfolomeev³

et al. 2011

Journal of Environmental Science and Health, Part A

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In this study, the performance of two newly developed personal bioaerosol samplers for monitoring the level of environmental and occupational airborne microorganisms was evaluated. These new personal bioaerosol samplers were designed based on a swirling cyclone with recirculating liquid film. The performance evaluation included collection efficiency tests using inert aerosols, the bioaerosol survival test using viable airborne microorganism, and the evaluation of using non-aqueous collection liquid for long-period sampling. The test results showed that these two newly developed personal bioaerosol samplers are capable of doing high efficiency, aerosol sampling (the cutoff diameters are around 0.7 μm for both samplers), and have proven to provide acceptable survival for the collected bioaerosols. By using an appropriate non-aqueous collection liquid, these two personal bioaerosol samplers should be able to permit continuous, long-period bioaerosol sampling with considerable viability for the captured bioaerosols.

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Development of a Personal Bioaerosol Sampler Based on a Conical Cyclone with Recirculating Liquid Film

Tolchinsky¹,

Sigaev²,

Sigaev

et al. 2009

Journal of Occupational and Environmental Hygiene

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This article describes the development of a novel, high-performance personal aerosol sampler intended to monitor occupational air pollution, specifically, microbial constituents. This prototype sampler has a horizontally positioned conical cyclone with recirculating liquid film and an ejection supply of adsorptive liquid into the inlet nozzle. Airborne pollutants were collected in the adsorptive liquid, thus improving the survivability of microbiological aerosol samples. Experimental modules of different dimensions were first evaluated. Based on the test results, a prototype sampler was fabricated and tested. Evaluation of the collection efficiency of the prototype unit indicated a higher than 90% collection efficiency for particles > 1.0 microm. The 50% cutoff diameter was between 0.70-0.75 microm. For assessment of the sampling process effect on the collected microorganisms, Bacillus thuringiensis was tested at a concentration of about 1.0 x 10(6) cells per cm(3). The viability in the prototype sampler decreased to 78% after 60 min of operation.

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P1.9.7 MEMS system for fire detection in the forest

Guarnieri¹,

Pedrotti²,

Tomasoni³

et al. 2012

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Calculation of head characteristics of centrifugal well pumps

Dyagilev¹,

Varfolomeev²

1977

Chem Petrol Eng

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A. N. Varfolomeev

Development of a Cyclone-Based Aerosol Sampler with Recirculating Liquid Film: Theory and Experiment

Performance evaluation of two personal bioaerosol samplers

Development of a Personal Bioaerosol Sampler Based on a Conical Cyclone with Recirculating Liquid Film

P1.9.7 MEMS system for fire detection in the forest

Calculation of head characteristics of centrifugal well pumps

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