As an instructor, I’ve found myself correcting countless students who are under the impression that nitrox diving enables a person to go deeper than with normal air. This is just one of the common misconceptions about nitrox diving. Although you need specific training before diving nitrox for the first time, these basic facts will help to make more sense of what it is and what it can do for you.
What is nitrox diving?
Quite literally, nitrox refers to a mix of nitrogen and oxygen, regardless of the percentage of each in the mix. We should properly call the nitrox we use while diving “enriched-air” nitrox. It refers to any blend of nitrogen and oxygen in which the oxygen concentration is greater than that of normal air. This means an oxygen level of 22 percent or higher, although the most common enriched-air nitrox blend is 32 percent. The recreational diving limit is 40 percent oxygen.
What does it do?
As every entry-level diver knows, increased pressure at depth causes our bodies to dissolve the nitrogen in the air we breathe into our bloodstream. This nitrogen absorption limits the time that we can spend underwater. As we dive deeper and for longer, we absorb more nitrogen at a greater rate. Our no-decompression limit correlates to the amount of nitrogen our bodies can absorb before we must perform compulsory decompression stops or suffer the consequences of decompression sickness.
Enriched-air nitrox slows down the nitrogen dissolution rate in our bloodstream, because there is less nitrogen in the mix that we’re breathing. The higher the percentage of your enriched-air blend, the more extra oxygen will replace nitrogen.
Benefits of nitrox diving
Divers use enriched-air nitrox for several reasons. An increased no-decompression limit means longer bottom times. The lower percentage of nitrogen in the nitrox you’re breathing means your bloodstream is also absorbing nitrogen more slowly. For example, on normal air a diver has a no-decompression limit of 50 minutes at 60 feet; using a 36 percent enriched-air mix at the same depth will extend this limit to 130 minutes. In terms of increasing bottom time, enriched air is most useful for depths between 50 and 100 feet; any shallower and no-decompression limits are already so long that divers usually have no need to extend them.
Surface intervals are usually shorter on nitrox as well. Since there is less nitrogen to off-gas, a diver on enriched air will be able to re-enter the water sooner than a diver using normal air after completing the same profile. This also means that divers using enriched air typically have longer maximum bottom times on repetitive dives. Enriched-air divers are often less tired at the end of the day as well because of less off-gassing.
Enriched air can be a valuable safety buffer for divers who choose to use it while following normal air tables, computers, profiles and procedures. Doing so creates a considerable conservative margin that further reduces the risk of decompression sickness. Anyone who may be susceptible to DCS, such as those who are tired, overweight, older, have suffered decompression sickness before, or are diving with injuries, should consider this.
Myths, considerations and dangers
Although the benefits of diving with enriched air are significant, doing so also involves certain risks. One of the most common misconceptions about enriched air nitrox is that users can dive deeper than with normal air; in fact the opposite is true. Under pressure, oxygen becomes toxic. The percentage of oxygen in normal air (21 percent) only becomes toxic at depths greater than the recreational limit. But the increased percentages of oxygen in enriched air mean that toxicity can become a problem at much shallower depths.
Toxicity causes convulsions that put a diver at risk of losing his regulator and subsequently drowning. However, enriched-air courses teach divers how to work out their maximum operating depth using the percentage and partial pressure of the oxygen in their mix. As long as you adhere to the maximum operating depth, oxygen toxicity should not be a problem.
Although it is safe to use standard scuba equipment with air blends containing up to 40 percent oxygen, the process by which an enriched-air cylinder is filled often involves much higher concentrations. Partial-pressure blending exposes the cylinder to pure oxygen that techs later dilute with normal air. If they are not treated for exposure to such high levels of oxygen, cylinders can explode. Therefore, any part of the cylinder that comes in to contact with pure oxygen needs to be “oxygen clean.” You cannot interchange cylinders used for enriched air and normal air. Enriched-air cylinders require decals or stickers to differentiate them from normal ones; service them annually.
There are a few other equipment considerations to bear in mind when thinking about enriched-air diving. Before each dive, you are personally responsible for checking the percentage of oxygen in your cylinder. If it is even slightly off, your maximum-operating depth calculations will be too. You will need an analyzer to check. Although you can usually borrow one from your dive center, it’s a good idea to have your own if you intend to dive nitrox regularly.
If you dive with a computer, you need to make sure that yours has enriched-air settings. It must correlate to the details of your mix before beginning each dive. Remember that enriched air does not improve air consumption, and neither does it give immunity to decompression sickness. Continue to check your gauges, depth and time limits as often as you would when diving on normal air.
With these precautions and the necessary training, nitrox diving is a fantastic way to get the most out of your diving experience. You’ll spend more time in the water, and less time waiting to get back in.