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用于计算闭路式氧气再呼吸装置中氧气浓度的数学模型。

Mathematical model for the calculation of oxygen concentrations in a closed circuit oxygen rebreathing apparatus.

作者信息

Neubauer B, Zander R, Tetzlaff K

机构信息

Federal German Navy Weapons Diver Battalion, Eckernförde, Germany.

出版信息

Aviat Space Environ Med. 1997 Aug;68(8):722-5.

PMID:9262815
Abstract

BACKGROUND

Closed circuit oxygen rebreathing diving apparatus are used by armed forces in special tasks because of their advantages of long endurance, low noise and minimal gas escape. There is little knowledge about the administered oxygen concentrations in these systems. Closed circuit oxygen rebreathing apparatus are also used as a first aid device for the treatment of severe disorders. Because of similar constructive components, these rebreathing apparatus are comparable to the Dräger LAR V model.

HYPOTHESIS

This study was conducted to measure the oxygen concentrations in the LAR V and estimate the correlation between oxygen concentration and pre-breathing purges.

METHOD

Subjects were 12 males who performed the pre-breathing procedure. The oxygen concentrations in the breathing loop were measured after each purge.

RESULTS

The oxygen concentrations depended on the volume of the apparatus dead space, the total capacity of the divers breathing system respective to the volume of the breathing purges and the number of pre-breathing purges. The maximum oxygen concentration was reached after eight purges (O2 = 85%). An equation to estimate the oxygen concentration inside the LAR V and first aid rebreather was derived.

CONCLUSIONS

The results indicated that the present purging procedure (three purges) before diving is normally not sufficient to remove the nitrogen totally from the deadspace of the LAR V, the divers airways and lungs. Only a small modification (six purges) is necessary to improve the safety of the diver in case of a diving apparatus malfunction during the mission profile.

摘要

背景

闭路式氧气再循环潜水装备因其续航时间长、噪音低和气体泄漏极少等优点,被武装部队用于特殊任务。人们对这些系统中所输送的氧气浓度了解甚少。闭路式氧气再循环装备也用作治疗严重疾病的急救设备。由于结构部件相似,这些再循环装备可与德尔格LAR V型相媲美。

假设

本研究旨在测量LAR V型中的氧气浓度,并估算氧气浓度与预呼吸吹扫之间的相关性。

方法

12名男性受试者进行预呼吸程序。每次吹扫后测量呼吸回路中的氧气浓度。

结果

氧气浓度取决于装备死腔的容积、潜水员呼吸系统的总容量与呼吸吹扫量的关系以及预呼吸吹扫的次数。八次吹扫后达到最大氧气浓度(O2 = 85%)。得出了一个估算LAR V型和急救再循环呼吸器内氧气浓度的方程式。

结论

结果表明,目前潜水前的吹扫程序(三次吹扫)通常不足以将氮气完全从LAR V型的死腔、潜水员的气道和肺部清除。在任务过程中潜水装备发生故障的情况下,只需稍作修改(六次吹扫)就能提高潜水员的安全性。

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