Inherent work suit buoyancy distribution: effects on lifejacket self-righting performance.

Aviation, space, and environmental medicine Pub Date : 2014-09-01 DOI:10.3357/ASEM.3991.2014

Martin J Barwood, Geoffrey M Long, Heather Lunt, Michael J Tipton

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引用次数: 1

Abstract

Introduction: Accidental immersion in cold water is an occupational risk. Work suits and life jackets (LJ) should work effectively in combination to keep the airway clear of the water (freeboard) and enable self-righting. We hypothesized that inherent buoyancy, in the suit or LJ, would be beneficial for enabling freeboard, but its distribution may influence LJ self-righting.

Methods: Six participants consented to complete nine immersions. Suits and LJ tested were: flotation suit (FLOAT; 85 N inherent buoyancy); oilskins 1 (OS-1) and 2 (OS-2), both with no inherent buoyancy; LJs (inherent buoyancy/buoyancy after inflation/total buoyancy), LJ-1 50/150/200 N, LJ-2 0/290/290 N, LJ-3 80/190/270 N. Once dressed, the subject entered an immersion pool where uninflated freeboard, self-righting performance, and inflated freeboard were measured. Data were compared using Friedman's test to the 0.05 alpha level.

Results: All suits and LJs enabled uninflated and inflated freeboard, but differences were seen between the suits and LJs. Self-righting was achieved on 43 of 54 occasions, irrespective of suit or LJ. On all occasions that self-righting was not achieved, this occurred in an LJ that included inherent buoyancy (11/54 occasions). Of these 11 failures, 8 occurred (73% of occasions) when the FLOAT suit was being worn.

Discussion: LJs that included inherent buoyancy, that are certified as effective on their own, worked less effectively from the perspective of self-righting in combination with a work suit that also included inherent buoyancy. Equipment that is approved for use in the workplace should be tested in combination to ensure adequate performance in an emergency scenario.

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作业服固有浮力分布对救生衣自扶正性能的影响。

简介:意外浸入冷水是一种职业风险。工作服和救生衣(LJ)应有效地配合工作，以保持气道远离水(干舷)，并使其能够自我扶正。我们假设服或LJ的固有浮力有利于实现干舷，但其分布可能会影响LJ的自扶正。方法:6名参与者同意完成9次浸泡。试验套装和LJ分别为:浮选套装(FLOAT;85牛固有浮力);油皮1 (OS-1)和2 (OS-2)，均无固有浮力;lj(固有浮力/膨胀后浮力/总浮力)、LJ-1 50/150/200 N、LJ-2 0/290/290 N、LJ-3 80/190/270 N。穿上衣服后，受试者进入浸入池，在此测量未充气干舷、自矫正性能和充气干舷。数据比较采用Friedman’s检验至0.05 α水平。结果:所有套装和lj均启用了未充气和充气干舷，但套装和lj之间存在差异。54次中有43次实现了自校正，与西服或LJ无关。在所有情况下，没有实现自扶正，这发生在包含固有浮力的LJ中(11/54)。在这11次故障中，有8次(73%)发生在穿着浮装的时候。讨论:包含固有浮力的lj被证明是有效的，但从自校正的角度来看，与包含固有浮力的工作服相结合，工作效率较低。批准在工作场所使用的设备应进行组合测试，以确保在紧急情况下有足够的性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Aviation, space, and environmental medicine 医学-公共卫生、环境卫生与职业卫生

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审稿时长

1 months