Natural human exhalation flows such as coughing, sneezing and breathing can be considered as ‘jet-like’ airflows in the sense that they are produced from a single source in a single exhalation effort, with a relatively symmetrical, conical geometry. Although coughing and sneezing have garnered much attention as potential, explosive sources of infectious aerosols, these are relatively rare events during daily life, whereas breathing is necessary for life and is performed continuously. Real-time shadowgraph imaging was used to visualise and capture high-speed images of healthy volunteers sneezing and breathing (through the nose – nasally, and through the mouth - orally). Six volunteers, who were able to respond to the pepper sneeze stimulus, were recruited for the sneezing experiments (2 women: 27.5±6.36 years; 4 men: 29.25±10.53 years). The maximum visible distance over which the sneeze plumes (or puffs) travelled was 0.6 m, the maximum sneeze velocity derived from these measured distances was 4.5 m/s. The maximum 2-dimensional (2-D) area of dissemination of these sneezes was 0.2 m2. The corresponding derived parameter, the maximum 2-D area expansion rate of these sneezes was 2 m2/s. For nasal breathing, the maximum propagation distance and derived velocity were 0.6 m and 1.4 m/s, respectively. The maximum 2-D area of dissemination and derived expansion rate were 0.11 m2 and 0.16 m2/s, respectively. Similarly, for mouth breathing, the maximum propagation distance and derived velocity were 0.8 m and 1.3 m/s, respectively. The maximum 2-D area of dissemination and derived expansion rate were 0.18 m2 and 0.17 m2/s, respectively. Surprisingly, a comparison of the maximum exit velocities of sneezing reported here with those obtained from coughing (published previously) demonstrated that they are relatively similar, and not extremely high. This is in contrast with some earlier estimates of sneeze velocities, and some reasons for this difference are discussed.
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机译:自然的人类呼气气流(例如咳嗽,打喷嚏和呼吸)可以被认为是“喷射状”气流,从某种意义上讲,它们是由单一来源通过一次呼气产生的,具有相对对称的圆锥形几何形状。尽管咳嗽和打喷嚏作为传染性气溶胶的潜在爆炸源引起了广泛关注,但在日常生活中这是相对罕见的事件,而呼吸是生命所必需的,并且是连续进行的。实时阴影图成像用于可视化和捕获健康志愿者打喷嚏和呼吸的高速图像(通过鼻子-鼻,和通过嘴-口腔)。招募了六名能够对胡椒喷嚏刺激做出反应的志愿者进行喷嚏实验(2名女性:27.5±6.36岁; 4名男性:29.25±10.53岁)。喷嚏羽(或粉扑)传播的最大可见距离为0.6 m,从这些测量距离得出的最大喷嚏速度为4.5 m / s。这些喷嚏的最大二维(2-D)传播面积为0.2 m 2 。相应的推导参数,即这些喷嚏的最大二维区域扩展率是2 m 2 / s。对于鼻呼吸,最大传播距离和派生速度分别为0.6 m和1.4 m / s。最大的二维传播面积和导出的扩展速率分别为0.11 m 2 和0.16 m 2 / s。同样,对于口呼吸,最大传播距离和导出速度分别为0.8 m和1.3 m / s。最大的二维散布面积和导出的扩展速率分别为0.18 m 2 和0.17 m 2 / s。令人惊讶的是,此处报告的最大打喷嚏出口速度与从咳嗽中获得的最大出口速度的比较(先前发布)表明,它们相对相似,但不是很高。这与一些较早的打喷嚏速度估计相反,并讨论了造成这种差异的一些原因。
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