Development of a Semi-Closed Underwater Breathing Apparatus, the "eOBA"

Abstract

Nippon Sanso K.K developed a compact semi-closed underwater breathing apparatus, the eOBA. It consists of a mouthpiece, manifold with a purge valve, two spring-loaded flexible tubes, a small CO₂ absorbent canister (net wt.= 190g), and two compact high pressure bottles (50ccx2 : 190kglcm² : 80%O₂, 20%N₂) with a regulator which supplies the gas at the constant flow rate of 1.5 l/min and lasts for 10 min. Thus, a counterlung is not incorporated. However, spring-loaded tubes act as a counterlung since its volume increases to 3.5 1 when fully inflated. Dives to a depth of 5m are also recommended because of no bypass valve. This new eOBA was tested using the mechanical breathing machine and CO₂ suppiy system to the circuit. For the various combinations of tidal volumes (0.5-2.51) and respiratory rates (l0-20 breaths/min), the pressure at the mouthpiece, respiratory volume and the CO₂ level were continuously monitored. The CO₂ absorption rates were then calculated. The thin sloping P-V loops demonstrate that the eOBA is a flow dependent type of apparatus. It was found that the extemal work of breathing (0.1 kg.m/l at 30 g/min) were allowbale. The CO₂ absorption rates were sufficient when minute ventilation increased to 30l/min. Thus, results show that the eOBA must be suitable for shallow and short dives.