Zhengwei Long scite author profile

To quickly obtain information about airborne infectious disease transmission in enclosed environments is critical in reducing the infection risk to the occupants. This study developed a combined computational fluid dynamics (CFD) and Markov chain method for quickly predicting transient particle transport in enclosed environments. The method first calculated a transition probability matrix using CFD simulations. Next, the Markov chain technique was applied to calculate the transient particle concentration distributions. This investigation used three cases, particle transport in an isothermal clean room, an office with an underfloor air distribution system, and the first-class cabin of an MD-82 airliner, to validate the combined CFD and Markov chain method. The general trends of the particle concentrations vs. time predicted by the Markov chain method agreed with the CFD simulations for these cases. The proposed Markov chain method can provide faster-than-real-time information about particle transport in enclosed environments. Furthermore, for a fixed airflow field, when the source location is changed, the Markov chain method can be used to avoid recalculation of the particle transport equation and thus reduce computing costs.

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Filtration characteristics of fibrous filter following an electrostatic precipitator

Feng

Long

2016

Journal of Electrostatics

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Evaluation of various particle charging models for simulating particle dynamics in electrostatic precipitators

Long

Yao

2010

Journal of Aerosol Science

110

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Experimental and theoretical study of a novel electrostatic enhanced air filter (EEAF) for fine particles

Feng

Long

2016

Journal of Aerosol Science

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Zhengwei Long

Evaluation of various categories of turbulence models for predicting air distribution in an airliner cabin

Assessment of various CFD models for predicting airflow and pressure drop through pleated filter system

Outdoor space quality: A field study in an urban residential community in central China

Influence of surrounding buildings on wind flow around a building predicted by CFD simulations

Predicting transient particle transport in enclosed environments with the combined computational fluid dynamics and Markov chain method

Filtration characteristics of fibrous filter following an electrostatic precipitator

Evaluation of various particle charging models for simulating particle dynamics in electrostatic precipitators

Experimental and theoretical study of a novel electrostatic enhanced air filter (EEAF) for fine particles

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