Hydreliox


Hydreliox is an exotic breathing gas mixture of hydrogen, helium, and oxygen. For the Hydra VIII mission at 50 atmospheres of ambient pressure, the mixture used was 49% hydrogen, 50.2% helium, and 0.8% oxygen.
It is used primarily for research and scientific deep diving, usually below. Below this depth, extended breathing of heliox gas mixtures may cause high [pressure nervous syndrome]. Two gas mixtures exist that attempt to combat this problem: trimix and hydreliox. Like trimix, hydreliox contains helium and oxygen and a third gas to counteract HPNS. The third gas in trimix is nitrogen and the third gas in hydreliox is hydrogen. Because hydrogen is the lightest gas, it is easier to breathe than nitrogen under high pressure. To avoid the risk of explosion, as a rule of thumb hydrogen is only considered for use in breathing mixtures if the proportion of oxygen in the mixture is less than 5%. However, the pressure during the dive must be such that the partial pressure of 5% oxygen is sufficient to sustain the diver.
The diving depth record for off-shore diving was achieved in 1988 by a team of professional divers of the Comex S.A., industrial deep-sea diving company performing pipe line connection exercises at a depth of of seawater in the Mediterranean Sea as part of the Hydra VIII programme.
Hydreliox has been tested in 1992 to a simulated depth of by COMEX S.A. diver Théo Mavrostomos in an on-shore hyperbaric chamber as part of the Hydra X programme. The Hydra X team Théo Mavrostomos belonged to spent 3 days at the simulated depth. After the rest of this team were held incapacitated at 675 m depth, Mavrostomos took a short 2-hour excursion at the simulated depth, and took 43 days to complete the record experimental dive.
Although breathing hydreliox improves the symptoms seen in HPNS, tests have shown that hydrogen narcosis becomes a factor at depths of.
Hydrogen can reduce the effects of high pressure nervous syndrome, reduce work of breathing, and may be a partial alternative to helium. Use of hydrogen can make it possible to dive deeper, descend faster, and stay at depth longer. Lower work of breathing allows higher levels of exertion by the diver.
Hydrogen is limited to below 4% in normoxic environments or oxygen content is limited to below 6% in high-hydrogen environments.