Marco Perino scite author profile

Airborne transmission of infectious respiratory diseases in indoor environments has drawn our attention for decades, and this issue is revitalized with the outbreak of severe acute respiratory syndrome (SARS). One of the concerns is that there may be multiple transmission routes across households in high-rise residential buildings, one of which is the natural ventilative airflow through open windows between flats, caused by buoyancy effects. Our early on-site measurement using tracer gases confirmed qualitatively and quantitatively that the re-entry of the exhaust-polluted air from the window of the lower floor into the adjacent upper floor is a fact. This study presents the modeling of this cascade effect using computational fluid dynamics (CFD) technique. It is found that the presence of the pollutants generated in the lower floor is generally lower in the immediate upper floor by two orders of magnitude, but the risk of infection calculated by the Wells-Riley equation is only around one order of magnitude lower. It is found that, with single-side openwindow conditions, wind blowing perpendicularly to the building may either reinforce or suppress the upward transport, depending on the wind speed. High-speed winds can restrain the convective transfer of heat and mass between flats, functioning like an air curtain. Despite the complexities of the air flow involved, it is clear that this transmission route should be taken into account in infection control. r

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The airborne transmission of infection between flats in high-rise residential buildings: Particle simulation

Gao

Niu

Perino

et al. 2009

Building and Environment

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a b s t r a c tSeveral case clusters occurred in high-rise residential buildings in Hong Kong in the 2003 SARS (the severe acute respiratory syndrome) epidemic, which motivated a series of engineering investigations into the possible airborne transport routes. It is suspected that, driven by buoyancy force, the polluted air that exits the window of the lower floor may re-enter the immediate upper floor through the window on the same side. This cascade effect has been quantified and reported in a previous paper, and it is found that, by tracer gas concentration analysis, the room in the adjacent upstairs may contain up to 7% of the air directly from the downstairs room. In this study, after validation against the experimental data from literatures, Eulerian and Lagrangian approaches are both adopted to numerically investigate the dispersion of expiratory aerosols between two vertically adjacent flats. It is found that the particle concentration in the upper floor is two to three orders of magnitude lower than in the source floor. 1.0 mm particles disperse like gaseous pollutants. For coarse particles larger than 20.0 mm, strong deposition on solid surfaces and gravitational settling effect greatly limit their upward transport.

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Optimizing the configuration of a façade module for office buildings by means of integrated thermal and lighting simulations in a total energy perspective

2013

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Integrated thermal-daylighting simulations on a low energy building are performed. Optimal WWR of the façade that minimize the total energy demand is searched. Optimal WWR were found in the range 35-45%, regardless the orientation. If state-of-the-art technologies are used, WWR play a crucial role (maximum influence: 11%). The optimal configurations are tested against different building geometries and HVAC efficiencies.

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Experimental analysis of the energy performance of a full-scale PCM glazing prototype

2014

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A numerical model to evaluate the thermal behaviour of PCM glazing system configurations

Goia

Perino

Haase

2012

Energy and Buildings

125

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Marco Perino

The airborne transmission of infection between flats in high-rise residential buildings: Tracer gas simulation

The airborne transmission of infection between flats in high-rise residential buildings: Particle simulation

Optimizing the configuration of a façade module for office buildings by means of integrated thermal and lighting simulations in a total energy perspective

Experimental analysis of the energy performance of a full-scale PCM glazing prototype

A numerical model to evaluate the thermal behaviour of PCM glazing system configurations

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