Average Gas Consumption

What is your average RMV?

  • less than 0.3 cu ft/min, 8.5 l/min

    Votes: 12 1.6%
  • 0.3-0.39 cu ft/min, 8.5-11.2 l/min

    Votes: 85 11.5%
  • 0.4-0.49 cu ft/min, 11.3-14.1 l/min

    Votes: 193 26.2%
  • 0.5-0.59 cu ft/min, 14.2-16.9 l/min

    Votes: 228 30.9%
  • 0.6-0.69 cu ft/min, 17.0-19.7 l/min

    Votes: 107 14.5%
  • 0.7-0.79 cu ft/min, 19.8-22.5 l/min

    Votes: 77 10.4%
  • 0.8-0.89 cu ft/min, 22.6-25.4 l/min

    Votes: 15 2.0%
  • 0.9-0.99 cu ft/min, 25.5-28.2 l/min

    Votes: 7 0.9%
  • greater than or equal to 1.0 cu ft/min, 28.3 l/min

    Votes: 13 1.8%

  • Total voters
    737

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scubadada

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There has been extensive discussion lately regarding average gas consumption. A poll may help give us a better idea of what the normal distribution of RMVs is.

1 cu ft = 28.3 liters
1 liter = 0.035 cu ft

<0.3 cu ft/min = <8.5 l/min
0.3-0.39 cu ft/min = 8.5-11.0 l/min
0.4-0.49 cu ft/min = 11.3-13.9 l/min
0.5-0.59 cu ft/min = 14.2-16.7 l/min
0.6-0.69 cu ft/min = 17.0-19.5 l/min
0.7-0.79 cu ft/min = 19.8-22.4 l/min
0.8-0.89 cu ft/min = 22.6-25.2 l/min
0.9-0.99 cu ft/min = 25.5-28.0 l/min
>1.0 cu ft/min = >28.3 l/min
 
Last edited:
1 liter = 0.35 cu ft, should be 0.035 cu ft.
 
There has been extensive discussion lately regarding average gas consumption. A poll may help give us a better idea of what the normal distribution of RMVs is.

Asking for a clarification, because everyone seems to have a different idea what RMV means: do you mean consumption rate while sitting on a couch, or the calculated average surface consumption for a leisurely dive. ( I responded assuming the latter. )
 
And here's an exercise on the difference between Volume SAC Rate (also known as RMV) and Pressure SAC Rate, and how to actually use Pressure Sac rate for the cylinder that you are breathing.

Example:
Given a Volume Sac Rate of 22 liters/min*ATA, divide it by the Tank Factor Rating of the Cylinder in use. For an AL80 cylinder with a tank factor rating of 11 liters/bar:

22 liters/min*ATA divided-by 11 liters/bar = 2 bar/min*ATA Pressure Sac Rate

Now instead of a single AL80 with an 11 liters/bar tank factor rating, use a twinset (double AL80's) for a total of 22 liters/bar tank factor rating, and let's see what happens to the Pressure Sac Rate:

22 liters/min*ATA divided-by 22 liters/bar = 1 bar/min*ATA Pressure Sac Rate.

So the point is: your Volume Sac Rate of 22 liters/min is constant across all tank sizes & capacities, but it is your Pressure Sac Rate that will change with the sizes & capacities (i.e. tank rating factors) of the cylinders that you actually use.

______
Below are some example pressure Surface Consumption Rate (SCR) values for a variety of common cylinders with a given arbitrary volume SCR (also known as volume SAC rate or RMV):

Given a arbitrary nominal volume SCR of 22 liters/min per ATA (that's 0.78 cuft/min per ATA in US Imperial Units, a reasonable & achievable volume SCR for most novice divers):

Cylinder Size | Pressure SCR
11L/bar tank (AL80): 2bar/min per ATA;
12L/bar tank (Steel HP100): 1.8bar/min per ATA;
13L/bar tank (AL100): 1.7bar/min per ATA;
15L/bar tank (Steel HP119): 1.5bar/min per ATA;
16L/bar tank (Steel HP130): 1.4bar/min per ATA;
11L Twins (Double AL80's): 1bar/min per ATA;
12L Twins (Double HP100's): 0.9bar/min per ATA;
16L Twins (Double HP130's): 0.7bar/min per ATA.

Given a arbitrary nominal volume SCR of 15 liters/min per ATA (0.53 cuft/min per ATA in US Imperial Units):

11L/bar tank (AL80): 1.4bar/min per ATA;
12L/bar tank (Steel HP100): 1.3bar/min per ATA;
13L/bar tank (AL100): 1.2bar/min per ATA;
15L/bar tank (Steel HP119): 1bar/min per ATA;
16L/bar tank (Steel HP130): 0.9bar/min per ATA;
11L Twins (Double AL80's): 0.7bar/min per ATA;
12L Twins (Double HP100's): 0.6bar/min per ATA;
16L Twins (Double HP130's): 0.5bar/min per ATA.

Given a arbitrary nominal volume SCR of 11 liters/min per ATA (0.39 cuft/min per ATA in US Imperial Units):

11L/bar tank (AL80): 1bar/min per ATA;
12L/bar tank (Steel HP100): 0.9bar/min per ATA;
13L/bar tank (AL100): 0.8bar/min per ATA;
15L/bar tank (Steel HP119): 0.73bar/min per ATA;
16L/bar tank (Steel HP130): 0.68bar/min per ATA;
11L Twins (Double AL80's): 0.5bar/min per ATA;
12L Twins (Double HP100's): 0.45bar/min per ATA;
16L Twins (Double HP130's): 0.3bar/min per ATA.

----
If you know your nominal bar/min consumption rate at depth for the particular cylinder used --you already know by rote what your SPG is going to read after a five or ten minute interval of time. So if I started the dive with a full cylinder at 200bar, and have a depth consumption rate of 8bar/min, I know I will consume 80 bar in ten minutes and the SPG will read 120bar remaining pressure. If I then come up multi-level shallower to a new depth where my consumption rate is 4bar/min, I know in another ten minute interval I'll consume 40bar and the SPG will show 80bar remaining. By normal habit and experience over many dives --you just automatically begin to do this iterative subtraction & SPG tracking process. When you finally reach Min Gas Reserve pressure and confirm it on your SPG, you then start your ending ascent to safety stops & the surface. . . IOW, the SPG is telling you, confirming what you already know and figured in terms of remaining gas pressure.
 
Last edited:
And here's an exercise on the difference between Volume SAC Rate (also known as RMV) and Pressure SAC Rate, and how to actually use Pressure Sac rate for the cylinder that you are breathing.

Example:
Given a Volume Sac Rate of 22 liters/min*ATA, divide it by the Tank Factor Rating of the Cylinder in use. For an AL80 cylinder with a tank factor rating of 11 liters/bar:

22 liters/min*ATA divided-by 11 liters/bar = 2 bar/min*ATA Pressure Sac Rate

Now instead of a single AL80 with an 11 liters/bar tank factor rating, use a twinset (double AL80's) for a total of 22 liters/bar tank factor rating, and let's see what happens to the Pressure Sac Rate:

22 liters/min*ATA divided-by 22 liters/bar = 1 bar/min*ATA Pressure Sac Rate.

So the point is: your Volume Sac Rate of 22 liters/min is constant across all tank sizes & capacities, but it is your Pressure Sac Rate that will change with the sizes & capacities (i.e. tank rating factors) of the cylinders that you actually use.

______
Below are some example pressure Surface Consumption Rate (SCR) values for a variety of common cylinders with a given arbitrary volume SCR (also known as volume SAC rate or RMV):

Given a arbitrary nominal volume SCR of 22 liters/min per ATA (that's 0.78 cuft/min per ATA in US Imperial Units, a reasonable & achievable volume SCR for most novice divers):

Cylinder Size | Pressure SCR
11L/bar tank (AL80): 2bar/min per ATA;
12L/bar tank (Steel HP100): 1.8bar/min per ATA;
13L/bar tank (AL100): 1.7bar/min per ATA;
15L/bar tank (Steel HP119): 1.5bar/min per ATA;
16L/bar tank (Steel HP130): 1.4bar/min per ATA;
11L Twins (Double AL80's): 1bar/min per ATA;
12L Twins (Double HP100's): 0.9bar/min per ATA;
16L Twins (Double HP130's): 0.7bar/min per ATA.

Given a arbitrary nominal volume SCR of 15 liters/min per ATA (0.53 cuft/min per ATA in US Imperial Units):

11L/bar tank (AL80): 1.4bar/min per ATA;
12L/bar tank (Steel HP100): 1.3bar/min per ATA;
13L/bar tank (AL100): 1.2bar/min per ATA;
15L/bar tank (Steel HP119): 1bar/min per ATA;
16L/bar tank (Steel HP130): 0.9bar/min per ATA;
11L Twins (Double AL80's): 0.7bar/min per ATA;
12L Twins (Double HP100's): 0.6bar/min per ATA;
16L Twins (Double HP130's): 0.5bar/min per ATA.

Given a arbitrary nominal volume SCR of 11 liters/min per ATA (0.39 cuft/min per ATA in US Imperial Units):

11L/bar tank (AL80): 1bar/min per ATA;
12L/bar tank (Steel HP100): 0.9bar/min per ATA;
13L/bar tank (AL100): 0.8bar/min per ATA;
15L/bar tank (Steel HP119): 0.73bar/min per ATA;
16L/bar tank (Steel HP130): 0.68bar/min per ATA;
11L Twins (Double AL80's): 0.5bar/min per ATA;
12L Twins (Double HP100's): 0.45bar/min per ATA;
16L Twins (Double HP130's): 0.3bar/min per ATA.

----
If you know your nominal bar/min consumption rate at depth for the particular cylinder used --you already know by rote what your SPG is going to read after a five or ten minute interval of time. So if I started the dive with a full cylinder at 200bar, and have a depth consumption rate of 8bar/min, I know I will consume 80 bar in ten minutes and the SPG will read 120bar remaining pressure. If I then come up multi-level shallower to a new depth where my consumption rate is 4bar/min, I know in another ten minute interval I'll consume 40bar and the SPG will show 80bar remaining. By normal habit and experience over many dives --you just automatically begin to do this iterative subtraction & SPG tracking process. When you finally reach Min Gas Reserve pressure and confirm it on your SPG, you then start your ending ascent to safety stops & the surface. . . IOW, the SPG is telling you, confirming what you already know and figured in terms of remaining gas pressure.

Wow! Seems like a great explanation. Could you please explain this in CuFt and PSI. It would make it much simpler for those of us who have always used the Imperial System.
 
I put my gas consumption as 12l/min (0.4cfm?)

I have seen nearly 35l/min on my computer when in a down current fighting not to be pushed any further than 50m (the sand was at 120m)

My wife has an average (after checking the stats on her computer of 7.5l/min)

The Data for both of us is based upon the last 230 dives where we've had accurate logging from the computers and averaged by Mac dive.

No guessing here....
 
Asking for a clarification, because everyone seems to have a different idea what RMV means: do you mean consumption rate while sitting on a couch, or the calculated average surface consumption for a leisurely dive. ( I responded assuming the latter. )

I meant the latter, your response was what I wanted
 
I put my gas consumption as 12l/min (0.4cfm?)

I have seen nearly 35l/min on my computer when in a down current fighting not to be pushed any further than 50m (the sand was at 120m)

My wife has an average (after checking the stats on her computer of 7.5l/min)

The Data for both of us is based upon the last 230 dives where we've had accurate logging from the computers and averaged by Mac dive.

No guessing here....

Right, 12 l/min would be 0.42 cu ft/min. Your wife would be 0.27 cu ft/min
 
It anyone participates in the poll and then decides their answer was incorrect, the "Change Your Vote" function has been enabled and your answer can be corrected.
 

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