负压室设计的参数优化分析

IF 2.1 Q2 CONSTRUCTION & BUILDING TECHNOLOGY
Ghaim Man Oo, K. Kotmool, M. Mongkolwongrojn
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引用次数: 0

摘要

负压室对于预防传染病的传播至关重要。本研究采用ANSYS-Fluent有限体积法(FVM),结合瞬态条件下的标准k λ湍流、物质输运和离散相模型,旨在减少负压室内空气污染的数量。在目前的设计中,考虑了10的面积比和1 - 30pa的静态供电压力。最佳条件为面积比为9和13换气量/小时(ACHs), CO2浓度降低96%,排气速度为3 m/s,供气压力为(10)Pa,最小功耗为247 W。通过对流线和速度矢量分布的分析,在安全环境下观察到有效的直接气流型。为了防止传染性病毒的传播,分析了咳嗽飞沫的颗粒跟踪,可以在3 s内提取100%的气溶胶颗粒。开门效应表明,即使长时间开门,也能保持所需的负压。这项工作将有利于设计任何负压室的工程师,并为医务人员提供安全的工作环境。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Analysis of parametric optimization on the design of negative pressure room
ABSTRACT Negative pressure rooms are crucial for the prevention of the dispersion of infectious diseases. Using the ANSYS-Fluent finite volume method (FVM), standard k ϵ turbulent, species transport, and discrete phase model with the transient condition, this research aims to reduce the amount of airborne contamination inside the negative pressure room. In the current design, both 10 area ratios and static supply pressures 1 – 30 Pa are considered. The optimum condition is reached at an area ratio of 9 and 13 Air change per hours (ACHs) with a 96% reduction in CO2 concentration and an exhaust velocity of 3 m/s and a minimum power consumption of 247 W at a supply pressure of ( 10) Pa. The effective direct airflow pattern is observed as a safe environment by analyzing the streamlines and velocity vector distributions. To prevent the infectious viruses spread, the particle tracking of coughed droplets is analyzed so that 100% of aerosol particles can be extracted within 3 s. The door-opening effect showed that the desired negative pressure could be maintained even if the door opened for a long time. This work will benefit the design engineers for any intended negative pressure room and provide a secure working environment for the medical personnel.
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来源期刊
Advances in Building Energy Research
Advances in Building Energy Research CONSTRUCTION & BUILDING TECHNOLOGY-
CiteScore
4.80
自引率
5.00%
发文量
11
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