⏱️ Gas Planning

Tank Duration / Gas Planning Calculator

Estimate how long your tank will last at any depth based on your SAC or RMV rate. Includes rule-of-thirds turn pressure, depth comparison table, and no-deco limit warnings.

🦺 Safety Notice: This calculator is a planning aid only and is NOT a substitute for proper dive training, certification, and planning with qualified instructors. Always verify calculations with your dive computer, buddy, and instructor before any dive. Never exceed your training level.
Calculator Settings
?
SAC (Surface Air Consumption) is measured in bar/min or psi/min — it's pressure-based and depends on the tank you used. Simple to calculate from a dive log.

RMV (Respiratory Minute Volume) is measured in L/min or cu ft/min — it's volume-based and tank-independent. Preferred for technical diving and multi-tank planning.
Estimated Tank Duration
— min
Turn Pressure
Rule of thirds
Usable Gas
bar above reserve
Depth Pressure
ATA at target depth
Depth Comparison — Duration at Different Depths
Depth (m) ATA Duration (min) Turn Press. NDL Limit

How Long Will Your Tank Last?

One of the most fundamental questions in dive planning is: how much bottom time does my tank give me? The answer depends on three things working together — how much usable gas you have, how fast you breathe it, and how much pressure the water adds to every breath at depth.

A standard AL80 tank filled to 207 bar might give a calm diver 60 minutes at 10 meters, but only 20 minutes at 30 meters. Understanding this relationship before you enter the water is essential for safe gas management.

The Rule of Thirds

The rule of thirds is the gold standard of gas planning for recreational and cave/overhead diving. The principle is simple: divide your usable gas into three equal parts.

This calculator automatically computes your turn pressure — the pressure at which you must begin heading back. For example, if you enter with 200 bar and keep 50 bar reserve, your usable gas is 150 bar. One third of 150 bar is 50 bar, so your turn pressure is 200 − 50 = 150 bar.

The rule of thirds is mandatory in cave and cavern diving, and strongly recommended for all diving. It gives you a clear, unambiguous decision point that doesn't require mental arithmetic at depth.

How SAC Rate Affects Tank Duration

Your SAC rate (Surface Air Consumption) is how many bar of gas you consume per minute breathing at the surface. It's unique to you and varies with your fitness, experience, water temperature, current, and workload.

Your RMV (Respiratory Minute Volume) is the same concept expressed in litres per minute, independent of which tank you're using. A typical RMV is 12–20 L/min at the surface. Because RMV is tank-agnostic, it's the preferred metric for technical gas planning.

The relationship between the two: RMV = SAC (bar/min) × tank internal volume (L). For example, a SAC of 1.8 bar/min on an AL80 (11.1 L) gives an RMV of about 20 L/min. This calculator accepts either format so you can use whichever you have from your dive log.

Depth vs. Tank Duration: The ATA Relationship

Pressure is the core reason depth has such a dramatic effect on tank duration. The atmosphere exerts about 1 bar of pressure at sea level. Water adds roughly 1 bar for every 10 meters of depth (10.06 m in seawater, 10.33 m in freshwater).

The total pressure you breathe at depth is expressed in ATA (Atmospheres Absolute):

This means if you have a SAC of 2 bar/min at the surface, you're consuming 8 bar/min at 30 metres. A full AL80 with 157 bar of usable gas that would last 78 minutes at the surface lasts only about 20 minutes at that depth. The depth comparison table in this calculator makes that relationship immediately visible across common recreational depths.

Tips for Better Air Management

1. Log your SAC rate after every dive

Use the SAC Rate Calculator to compute your SAC from your dive log data. Track it over time — as you gain experience and reduce anxiety, your SAC will naturally drop.

2. Streamline your gear

Drag and poor trim significantly increase your workload. A horizontal body position, tucked hoses, and no dangling equipment can reduce air consumption by 15–25%.

3. Slow, deep breaths

Shallow rapid breathing wastes gas. Breathe fully and slowly — inhale for 3–4 seconds, pause briefly, exhale for 4–5 seconds. Never skip a breath cycle, especially on ascent.

4. Stay warm

Cold increases your metabolic rate and causes you to breathe more. A properly sized wetsuit or drysuit appropriate to the water temperature pays dividends in both comfort and bottom time.

5. Agree on turn pressure before you dive

Brief your buddy on your turn pressure and the minimum pressure at which you'll begin a safety stop. If either diver hits their turn pressure first, both divers turn. No arguments underwater.

6. Account for gas sharing drills

If you plan to practice out-of-air scenarios or donate air, factor that into your gas plan. Your reserve third is not for practice — it is genuinely for emergencies.

Frequently Asked Questions

How long does a typical AL80 last at 18 meters?
With a SAC of 2 bar/min and a full fill to 207 bar (keeping 50 bar reserve), you have 157 bar of usable gas. At 18 m the ATA is 2.8, giving a consumption rate of about 5.6 bar/min. That yields roughly 28 minutes. An experienced diver with a 1.5 bar/min SAC would get about 37 minutes from the same tank.
What is a good SAC rate for a recreational diver?
For recreational divers, a SAC rate of 1.5–2.5 bar/min on a standard AL80 is considered normal. Below 1.5 bar/min is excellent. Above 3 bar/min usually indicates a diver who is working hard, stressed, cold, or has not yet relaxed into the environment. SAC typically improves with every logged dive.
Should I use SAC or RMV for gas planning?
Both work well. SAC is easier to compute from a dive log (just record start pressure, end pressure, tank size, depth, and time). RMV is better if you dive different tank sizes frequently, because it's independent of cylinder volume. Technical divers and those who plan multi-tank dives almost always use RMV.
Does the rule of thirds apply to recreational diving?
Yes, and it's strongly recommended even for open-water recreational divers. Many agencies teach a simpler "half-tank turn" for linear dives, which is the rule of halves. The rule of thirds originated in cave diving but is widely adopted by advanced recreational and technical divers because it provides a genuine emergency reserve rather than just a turnaround buffer.
What does it mean if the calculator shows a no-deco limit warning?
The NDL warning means your gas supply theoretically lasts longer than the no-decompression limit for that depth. In practice, this means nitrogen absorption, not gas supply, will determine when you must ascend. You will need to leave the bottom well before your tank is near reserve — and you must still observe the rule of thirds for your turn pressure regardless of NDL.
How accurate is this calculator?
This calculator uses standard ATA-based gas planning formulas used throughout recreational and technical diver training. However, it cannot account for exertion level changes during the dive, buoyancy problems, current, sharing gas, gear issues, or anxiety — all of which increase consumption. Always treat the result as an optimistic upper bound and apply a personal safety margin.

Related Calculators

Use these tools together for complete dive planning:

💨 SAC / RMV Calculator ⚗️ Gas Blending Calculator 🫧 Nitrox / MOD Calculator 🤿 All Scuba Tools