Hospital ventilation simulation for the study of potential exposure to contaminants

Balocco, Carla

doi:10.1007/s12273-011-0019-6

Cited by 17 publications

(12 citation statements)

References 32 publications

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“…Computational fluid dynamics (CFD) simulation tools have been frequently utilised for the simulation of the transportation of contaminants with ventilation flows [8][9][10][11][12]. These studies are capable of indicating various factors responsible for aerosol dispersion, as well as examining the source and airflow characteristics of the room that are driven by ventilation and temperature gradients.…”

Section: Introductionmentioning

confidence: 99%

The impact of the air distribution method in ventilated rooms on the aerosol particle dispersion and removal: The experimental approach

Jurelionis¹,

Gagyte²,

Prasauskas³

et al. 2015

Energy and Buildings

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Section: Introductionmentioning

confidence: 99%

The impact of the air distribution method in ventilated rooms on the aerosol particle dispersion and removal: The experimental approach

Jurelionis¹,

Gagyte²,

Prasauskas³

et al. 2015

Energy and Buildings

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“…Considering different events of the patients like coughing or second breathing, three 3D models are prepared and studied. For simulating dispersal of bacteriacarrying droplets, particle tracing and diffusion model was developed 6 . CDF was used by various civil engineering project to solve the critical problems in civil engineering.…”

Section: Original Articlementioning

confidence: 99%

Effect of Windows Sizes on Air Circulation inside Building using CFD Simulation

al.¹

2017

IJCSEIERD

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“…Computational fluid dynamics (CFD) has been recently used to study the transport and dispersion of airborne microorganisms as well as to evaluate opportunities for the disinfection of healthcare facilities. CFD results have predicted potential exposure to contaminants in many healthcare facilities, such as patient rooms (Balocco, 2011). Not only have CFD results been used to predict potential exposure to contaminants, but they have also been used to establish a connection between the airborne transport of microorganisms and the outbreak of widespread diseases such as SARS (Yu et al, 2004).…”

Section: Introductionmentioning

confidence: 99%

Computational fluid dynamics modelling of UR-UVGI lamp effectiveness to promote disinfection of airborne microorganisms

Heidarinejad

Srebric

2013

WRSTSD

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This paper focuses on using computational fluid dynamics (CFD) modelling methods to study the effectiveness of upper-room ultraviolet germicidal irradiation (UR-UVGI) lamps in healthcare facilities. This work develops and uses simplifications for boundary conditions in CFD, while details of UR-UVGI lamps and microorganism characteristics were obtained from existing experimental studies. Three approximation methods were developed to implement the effects of UR-UVGI lamps on microorganism dispersion patterns represented with the Eulerian and the Lagrangian methods in CFD simulations. Then, a non-dimensional parameter, the UR-UVGI effectiveness, was introduced to study the effectiveness of UR-UVGI lamp(s) disinfection process with respect to the combined effect of UR-UVGI lamp(s) and ventilation systems. Although comparisons of results obtained from CFD simulations and experimental data show that local microorganism numbers/concentrations depend on boundary condition modelling methods, global variables such as the fraction of remaining microorganisms remain relatively unchanged and in a good agreement with the measured data.

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Hospital ventilation simulation for the study of potential exposure to contaminants

Cited by 17 publications

References 32 publications

The impact of the air distribution method in ventilated rooms on the aerosol particle dispersion and removal: The experimental approach

The impact of the air distribution method in ventilated rooms on the aerosol particle dispersion and removal: The experimental approach

Effect of Windows Sizes on Air Circulation inside Building using CFD Simulation

Computational fluid dynamics modelling of UR-UVGI lamp effectiveness to promote disinfection of airborne microorganisms

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