Shih−Cheng Hu scite author profile

In many hospitals, isolation rooms are used to contain patients who are highly infectious, and the spread of air and bacteria within the isolation room is closely relates to room air distribution. This article uses the computational fluid dynamics (CFD) method to investigate the effects of a moving person and the opening and closing of a sliding door on room air distribution, including velocity, pressure and contaminant fields. Dynamic meshes are employed to simulate the movement of the walking person and sliding door. According to numerical results, the impact of those moving objects on room air distribution is addressed in this study. r

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Power consumption of semiconductor fabs in Taiwan

Chuah

2003

Energy

112

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An experimental study on ventilation efficiency of isolation room

Tung

Tsai

et al. 2009

Building and Environment

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Influence of bathroom ventilation rates and toilet location on odor removal

Tung

Tsai

2009

Building and Environment

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Numerical study on the dispersion of airborne contaminants from an isolation room in the case of door opening

Tung

Shih

2009

Applied Thermal Engineering

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a b s t r a c tA negative pressure isolation room is built to accommodate and cure patients with highly infectious diseases. An absolutely airtight space effectively prevents infectious diseases from leaking out of the isolation room. Opening the door leads to a breakdown in isolation conditions and causes the dispersion of infectious air out of the isolation room. Extensively employed to manage smoke in cases of fires at subway and highway tunnels, a concept of controlling airflow is applied to the study. This study proposes a design of ventilation system to control air flow rate for containing airborne contaminant and preventing its spread to the adjacent rooms when the door to the isolation room is opened and closed. This paper employs computational fluid dynamics (CFD) as a more effective approach to examine the concentration maps of airborne contaminants and the airflow patterns of room air and discuss the influence of temperature differences between two rooms on airborne dispersion. Results show that an air velocity above 0.2 m/s via a doorway effectively prevents the spread of airborne contaminants out of the isolation room in the state of door opening.

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Shih−Cheng Hu

Dynamic airflow simulation within an isolation room

Power consumption of semiconductor fabs in Taiwan

An experimental study on ventilation efficiency of isolation room

Influence of bathroom ventilation rates and toilet location on odor removal

Numerical study on the dispersion of airborne contaminants from an isolation room in the case of door opening

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