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Diving Hyperb Med. 2018 Jun 30;48(2):96-101. doi: 10.28920/dhm48.2.96-101.
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The valid time of soda lime could be safely prolonged according to the inspired pressure of carbon dioxide.根据二氧化碳的吸入压力,苏打石灰的有效时间可以安全延长。
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本文引用的文献

1
The duration of two carbon dioxide absorbents in a closed-circuit rebreather diving system.闭路再循环呼吸器潜水系统中两种二氧化碳吸收剂的持续时间。
Diving Hyperb Med. 2016 Jun;46(2):92-7.
2
Recreational technical diving part 1: an introduction to technical diving methods and activities.休闲技术潜水第1部分:技术潜水方法与活动介绍。
Diving Hyperb Med. 2013 Jun;43(2):86-93.
3
Hyperbaric conditions.高压环境。
Compr Physiol. 2011 Jan;1(1):163-201. doi: 10.1002/cphy.c091004.
4
Exercise carbon dioxide (CO2) retention with inhaled CO2 and breathing resistance.通过吸入二氧化碳和呼吸阻力进行运动性二氧化碳(CO₂)潴留。
Undersea Hyperb Med. 2012 Jul-Aug;39(4):815-28.
5
Medical screening of recreational divers for cardiovascular disease: consensus discussion at the Divers Alert Network Fatality Workshop.休闲潜水员心血管疾病的医学筛查:潜水员警报网络死亡研讨会的共识讨论
Undersea Hyperb Med. 2011 Jul-Aug;38(4):289-96.
6
[Soda lime reaction and moisture. 1. Studies on the influence of moisture of soda lime upon the absorption activity of non-flowing carbon dioxide gas].[苏打石灰反应与水分。1. 苏打石灰水分对非流动二氧化碳气体吸收活性影响的研究]
Masui. 1965 Oct;14(10):920-7.

部分使用过的闭路式再呼吸二氧化碳吸收罐的储存。

Storage of partly used closed-circuit rebreather carbon dioxide absorbent canisters.

作者信息

Pollock Neal W, Gant Nicholas, Harvey David, Mesley Peter, Hart Jason, Mitchell Simon J

机构信息

Department of Kinesiology, Université Laval, Quebec, Canada.

Service de Médecine Hyperbare, Centre de Médecine de Plongée du Québec, Hôtel-Dieu de Lévis, Levis, Quebec.

出版信息

Diving Hyperb Med. 2018 Jun 30;48(2):96-101. doi: 10.28920/dhm48.2.96-101.

DOI:10.28920/dhm48.2.96-101
PMID:29888381
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6156827/
Abstract

INTRODUCTION

Diving rebreathers use "scrubber" canisters containing soda lime to remove carbon dioxide (CO) from the expired gas. Soda lime has a finite ability to absorb CO. We undertook an experiment to determine whether the manner of storage of a partly used scrubber affected subsequent CO absorption.

METHODS

An Evolution Plus™ rebreather was mechanically ventilated in a benchtop circuit. Respiratory minute volume was 45 L·min and CO was introduced to the expiratory limb at 2 L·min. The scrubber canister was packed with 2.64 kg of Sofnolime 797™. Scrubbers were run in this circuit for 90 minutes then removed from the rebreather and stored in packed form under one of three conditions: "open" (unsealed) for 28 days (n = 4); vacuum "sealed" in an airtight plastic bag for 28 days (n = 5); or open overnight (n = 5). Following storage the scrubber canisters were placed back in the rebreather and run as above until the PCO in the inspired gas exceeded 1 kPa. The total duration of operation to reach this end-point in each storage condition was compared.

RESULTS

The mean run times to reach an inspired CO of 1 kPa were 188, 241, and 239 minutes in the open-28-day, the sealed-28-day and the open-overnight storage conditions, respectively.

CONCLUSION

Rebreather divers should consider placing partially used soda lime scrubber canisters in vacuum-sealed plastic bags if storing them for longer periods than overnight. If a partially used scrubber canister is to be used again the next day then the storage modality is unlikely to influence scrubber efficacy.

摘要

引言

潜水循环呼吸器使用装有碱石灰的“洗涤器”罐来去除呼出气体中的二氧化碳(CO₂)。碱石灰吸收CO₂的能力有限。我们进行了一项实验,以确定部分使用过的洗涤器的储存方式是否会影响后续的CO₂吸收。

方法

在台式回路中对Evolution Plus™循环呼吸器进行机械通气。呼吸分钟通气量为45L·min,CO₂以2L·min的速度引入呼气支路。洗涤器罐中装有2.64kg的Sofnolime 797™。洗涤器在该回路中运行90分钟,然后从循环呼吸器中取出,并在以下三种条件之一的包装形式下储存:“开放”(未密封)28天(n = 4);真空“密封”在气密塑料袋中28天(n = 5);或开放过夜(n = 5)。储存后,将洗涤器罐放回循环呼吸器中,并按上述方式运行,直到吸入气体中的PCO₂超过1kPa。比较了每种储存条件下达到该终点的总运行时间。

结果

在开放28天、密封28天和开放过夜的储存条件下,达到吸入CO₂为1kPa的平均运行时间分别为188分钟、241分钟和239分钟。

结论

循环呼吸器潜水员如果要将部分使用过的碱石灰洗涤器罐储存超过一夜的时间,应考虑将其放在真空密封的塑料袋中。如果部分使用过的洗涤器罐第二天要再次使用,那么储存方式不太可能影响洗涤器的功效。