Skip to main content
x

Buoyancy Control Tips When Scuba Diving

Check out these scuba diving techniques to help you achieve neutral buoyancy.
By Scuba Diving staff | Published On September 10, 2007
Share This Article :

Buoyancy Control Tips When Scuba Diving

Secrets Of Buoyancy Control

Secrets Of Buoyancy Control
Neutral buoyancy is nirvana once you get the hang of it.

Ty Sawyer

On one hand, divemasters constantly urge us to look for the detail in the reef, the small critters like the blennies and the cleaner shrimp which may be no more than an inch long. That implies getting really "up close and personal" with the reef.

On the other hand, the same divemasters constantly warn us, "Don't touch anything!" And there's the problem: It's fairly easy to get close without touching, by swimming forward gently. But backing up again without hammering the reef with your fins, your knees or your elbows can be difficult.

The close-up view is just another of life's many situations that are easier to get into than out of. Nevertheless, skilled underwater photographers (and skilled sightseers too) are able, time and again, to get their masks within inches of a delicate soft coral and retreat without doing harm. What's the secret?

There are many tricks, but pinpoint buoyancy control is the fundamental skill. Precise control of your buoyancy is what enables you to hover completely motionless, then back out of the area without using your hands at all.

You can back out by simply ascending if you've approached from above, with your head well below your fins. And you can ascend without adding air to your BC by controlling your breathing. In fact, you'll improve your buoyancy control by using your BC less, not more.

At first glance, buoyancy control looks like a simple matter of balancing the downward force of your ballast weights against the upward force of your BC inflation. When the two cancel out, you're neutral and can hover in the water. Since the weight on your belt doesn't change after you enter the water, it seems as though you have only one variable to contend with: the upward thrust of your BC. It sounds easy, so why isn't it?

In fact, pinpoint buoyancy control requires getting at least six things right. There's good news, though: Once you get all six variables dialed in, it's easy.

The six factors that affect your buoyancy are your ballast weight and your BC inflation, of course, and also your trim, your exposure suit buoyancy, your depth and your breath control. Your ballast weight and your trim are the only two factors that, once you've selected them, stay put. All the others are variables, changing during the dive along with time or depth or both. Some you can control, some you can't. Buoyancy control isn't as easy as it looks.

Ballast Weight

The ballast weight you carry doesn't change during a dive, but it's often the biggest problem. Many if not most divers are overweighted, carrying more lead than they need. That makes buoyancy control more difficult because every extra pound of lead has to be balanced with an extra pound of buoyancy. To displace a pound of water and balance the pound of lead requires an air bubble in the BC of about one pint in volume.

But because an air bubble expands and contracts with depth changes, you have to be constantly adding or subtracting air from the bubble to keep its volume at one pint. Five extra pounds, which is not uncommon, means a five-pint bubble that grows and shrinks five times as much with depth changes and needs five times as much adjustment in order for you to maintain neutral buoyancy. So extra lead means extra thrust up or down when you change depth, and requires extra fiddling with your BC valve controls. Sometimes it means nearly constant fiddling.

Most dive instructors agree that overweighting is a common problem, and a few admit that it's their fault. The instructor is worried about embolizing his students, and he overweights his students for the same reason your dad put training wheels on your first bike. Like the training wheels, the extra weight has to come off before you can graduate from the novice stage. Unfortunately, once you complete your checkout dives, your dive instructor typically moves on to other students. You have to take off the training wheels yourself.

The first step is to just do it--take off two pounds before your next dive. Can't get below the surface? Before you reach for the lead again, make sure you really need it. Getting below the surface, especially on the first dive of the day, can be surprisingly difficult and can trick you into carrying more lead than you really need. Here are a few tips:

Be patient. The plush lining of a dry wetsuit can trap a surprising amount of air, and therefore buoyancy, in its fibers, and it takes a minute or so to get fully wet.

Reach up. Hold the inflator hose over your head and stretch it upward a little so its attachment point to your BC is highest. At the same time, says Linda Van Velson, a PADI course director, "dip your right shoulder and squeeze the BC against your chest with your right arm." This maneuver encourages the last few bubbles to find the exit.

Rock backward a little. Many BCs trap a bubble of air just behind your head. Rocking backward as if you are in a La-Z-Boy recliner moves the exhaust hose over the bubble and lets it escape.

Relax. Many of us move our hands and feet more than we realize, especially at the beginning of the dive. It's nerves: Without realizing it, your body is trying to climb out of the water. That generates upward thrust, making you seem lighter than you are. To counteract that, hold your right arm still at your side (your left is holding up your exhaust hose), extend your legs and point your fins straight down so they have the least resistance to sinking.

Exhale. Another manifestation of nervousness is a tendency to hold your breath, and a lungful of air adds as much as 10 pounds of buoyancy. Exhale and hold it until you start sinking, then take shallow inhales until you get below five feet.

Force it. Another option is to use your body weight to generate some downward momentum by lifting part of it out of the water, then letting it fall back. Lying on your face, jackknife your upper body downward, then lift one leg, then another, out of the water. The weight of your legs will drive you downward, and once your fins are in the water you can kick down.

What's the ideal amount of weight? With a nearly empty tank, say 500 psi, with lungs half full and with no air in your BC, you should be close to neutral at the surface--floating with the water at eye level, for example--and only slightly negative at your 15-foot safety stop. Some divers will be even lighter than that, so they're neutral at 15 feet. That makes them slightly positive as they ascend to the surface, but they can counter that by holding less air in their lungs and taking only shallow breaths. With a full tank, you should be about five pounds heavier, the weight of the other 2,500 psi of air. There are sometimes reasons to be heavier. When there is a lot of surge, some extra lead helps you stay glued to the bottom, for example. But in general, buoyancy control is easiest with the minimum amount of ballast weight.

Once you get close to the right amount of lead, you can fine-tune it at your safety stop when your tank is nearly empty and you don't have much else to do for three minutes anyway. Here's one way:

  • Carry your smallest weight, one or two pounds, loose in a pocket or clipped to a D-ring so you can take it off easily.

  • When you reach your safety stop with 500 psi left, hand it to your buddy temporarily or put it on the bottom if the water is shallow.

  • Now, try to get neutral again. Remember to keep your hands and fins as still as possible. Do the test next to the mooring rope for security if you want, but remember you can always overcome a pound or so of positive buoyancy by exhaling and kicking downward. When you're making adjustments so small, there's no reason to fear an uncontrolled ascent. If you can stay neutral at 15 feet without that small weight you took off, you don't need it, and your next dive will be easier without it.

  • Now retrieve your weight from your buddy and do the same favor for him.

Trim

The next variable to worry about is your trim--the position your body takes in the water when you're neutral and still. This matters for buoyancy because if your fins are lower than your body, kicking to go forward will also make you go up. It will seem that you've suddenly become buoyant, so you'll vent air from your BC. Then, when you stop kicking, you'll be too heavy and you'll sink.

In order for your kicking not to disrupt your buoyancy, your body needs to be trimmed so your legs are nearly horizontal and your fins push you only forward. Here's how to check your trim:

Once you are exactly neutral, hold your body absolutely still with your legs stretched out behind you. If your legs sink, you should move a little weight from your waist to a point higher on your body.

Tank Weight

Your scuba cylinder gets lighter as you dive and use up the air in it. The 80 cubic feet of air pumped into your full tank weighs almost exactly six pounds, and when you breathe it down to 500 psi, you've used up five pounds of that air, so the tank weighs five pounds less. That's a buoyancy shift that has to be countered by venting five pounds of buoyancy from your BC. And that explains why you have to start the dive five pounds heavy--so you have five pounds of buoyancy in your BC to lose and be neutral at the safety stop.

Fortunately, this weight loss and buoyancy gain is gradual. If a tank can last you 60 minutes, it gains only one pound in 10 minutes and you hardly notice it. Also, the tank's buoyancy gain is affected by depth only in the sense that you use up air faster when you are deeper. Because the tank is rigid, its buoyancy does not change immediately just by going 20 feet deeper or shallower.

So you will have to adjust for the tank's buoyancy change, but it won't take you by surprise. You probably won't notice any change until nearly halfway through the dive.

Incidentally, it's not true, as many divers believe, that you can escape this buoyancy gain by using a steel tank. Steel tanks are typically less buoyant than aluminum to begin with so they may end the dive slightly negative while an aluminum tank is positive. But 80 cubic feet of air weighs just as much in either tank, and the buoyancy gain when you use it up is just as much. Using a steel tank allows you to take a few pounds of weight off your belt, but you have to carry some or all of it in the tank itself, which is typically heavier.

Exposure Suit

Wetsuits float. There's no escaping the fact, because the same thing that makes neoprene warm makes it buoyant: the gas trapped in thousands of tiny bubbles. Their buoyancy (and warmth) varies, but, in general, a new men's wetsuit has two to three pounds of buoyancy for every millimeter of thickness. So a thin tropical suit might have less than two pounds of buoyancy at the surface while a thick cold-water suit might have 20 pounds or more.

It's tempting to minimize the neoprene to make buoyancy control easier. Some tropical divers wear no neoprene at all. But that might be a bad bet, because getting cold is fatiguing and increases your risk of decompression sickness.

The buoyancy of your wetsuit won't change noticeably from one dive to the next, but over time it does lose buoyancy because the thousands of tiny bubbles in the neoprene lose their resiliency and collapse or fill with water. At that point, the wetsuit has less buoyancy and less insulation than when new.

The good news here is that if you don't change depth, your wetsuit's buoyancy doesn't change either. Once you have your buoyancy dialed in for a given depth, you can forget it. More good news: The very thin wetsuit you'd wear in the tropics has so little buoyancy to begin with that you can pretty much ignore any changes with depth.

Depth

Whatever the surface buoyancy of your wetsuit, it will change dramatically with depth. Because pressure flattens those thousands of gas bubbles, your wetsuit gets thinner and displaces less water. In effect, it gets heavier. The change is not linear. You lose half of your surface buoyancy in the first 33 feet of your descent and a third in the next 33 feet. Below 66 feet, there's only one-sixth of the original buoyancy left to lose no matter how deep you go. The single larger bubble in your BC behaves the same way.

Buoyancy changes fastest in the first few feet below the surface--three times as fast at one foot as at 60 feet. That's why it's often hard to get submerged, but once you're down five feet or so, you seem to get heavier and sink easily.

Unlike the buoyancy change in your tank, this buoyancy shift is immediate and goes in both directions. When you ascend, you get back the buoyancy of your wetsuit and your BC instantly. So you have to be alert to buoyancy changes whenever you change depth, and especially when you ascend.

Breath Control

Your lungs are a natural buoyancy compensator with about 10 pounds of buoyant lift. A normal, resting breath expands your lungs by about one pint, giving you one pound more buoyancy. Breathing in and out, your buoyancy fluctuates within a range of about one pound. But you can place that one-pound fluctuation almost anywhere in the total 10-pound range. You can breathe from nearly full lungs and cycle between eight and nine pounds of buoyancy, for example, or you can breathe with nearly empty lungs and cycle between two and three pounds. So as long as you are nearly neutral with a half-breath, you can rise or fall at will just by controlling your lungs.

Putting It Together

Once you get your ballast weight and trim dialed in, you've come a long way toward perfect buoyancy control. Now you can fine-tune your BC inflation to compensate for the very predictable changes due to breathing down your tank and changing depth and use only breath control to drop gently down to that cleaner shrimp, hover inches above it as long as you want and lift away from it harmlessly. The divemaster will applaud.

Secrets Of Buoyancy Control

Neutral buoyancy is nirvana once you get the hang of it.

Ty Sawyer

Neutral buoyancy is what enables you to hover completely motionless, enjoying the sensation of "zero gravity." Use these six scuba diving buoyancy control tips to nail this fundamental (and fun!) dive skill

Weight

The weights you wear in your BCD weight system or on a weight belt are often the biggest problem, so that's the place to start.

When you have more weight than you need, buoyancy control is more difficult: Every extra pound has to be balanced with about a pint of BCD air. Since this volume expands and contracts with depth changes, you have to constantly compensate to keep the volume at one pint. Five extra pounds (which happens) means five un-need pints of volume that grow and shrink every time you change depth.

To check for proper weighting, with a nearly empty tank (500 psi) and an empty BCD at the surface, hold your breath (reg in mouth in case you sink). You should float at eye level and slowly sink when you exhale. If you check with a full cylinder, add 5 pounds to compensate for the weight change as you use up your air. This is because your cylinder gets lighter as you use the air in it. The air in an aluminum 80 weighs almost exactly 6 pounds and at 500 psi, it's about five pounds less. So, you should start the dive about five pounds heavy.

Despite what many divers think, it is not true that this doesn't apply to steel tanks. Steel tanks are typically less buoyant than aluminum in and of themselves, but 80 cubic feet of air weighs the same regardless of the cylinder type. This means the buoyancy gain from using a given amount is the same. A steel tank allows you to take a few pounds of weight from your weight system because tank itself is heavier, but you have to account for air use the same.

There are specialized situations where you want extra weight, but in general, scuba diving buoyancy control is easiest with the right amount – neither too much nor too little.

Exposure Suit

Wetsuits float because neoprene is rubber with gas trapped in thousands of tiny bubbles – that's how it insulates. Their buoyancy (and warmth) varies, but, in general, a new full wetsuit has two to three pounds of buoyancy for every millimeter of thickness. So a thin tropical suit might have less than two pounds of buoyancy at the surface while a thick cold-water suit might have 20 pounds or more. The suit compresses and loses buoyancy as you descend, which is why you use your BCD throughout a dive wearing a wetsuit.

The change is not linear. Buoyancy changes fastest in the first few feet below the surface—that's why it's often hard to get submerged, but once you're down a bit, you sink easily. Based on gas theory (Boyle's Law) your suit has half its surface buoyancy at 33 feet, a third at 66 feet, a quarter at 99 and so. In reality it's not quite this much reduction because the suit resists compression a little – but not much.


Want to perfect your buoyancy? Get started today with PADI's Peak Performance Buoyancy course.


Of course, this buoyancy change is goes in both directions, which is why you put air into your BCD going down and let it out coming up. Nailing this buoyancy skill requires you be alert to buoyancy changes as you move throughout the water column and adjust accordingly your BCD.

Do note that, while the buoyancy of your wetsuit won't change noticeably from one dive to the next, over time it loses buoyancy as the neoprene ages and as the bubbles in it break down with repeated compression and release. It's not only less buoyant, but also less insulation for the same reason.

Trim

Trim is the position your body takes in the water when you're neutral and still. This can affect buoyancy because if your fins want to be lower than your body line, either kicking forward also sends you up, or more likely you spend a lot of effort staying level. The ideaal is that once you are exactly neutral and hold your body absolutely still with your legs stretched out, you're in a level horizontal swimming position. If your legs sink or rise, shift some weight up or down on your body to balance.

Breath Control

Your lungs are a natural buoyancy compensator with as much as 10 pounds of buoyant lift. A normal, resting breath expands your lungs by about one pint, giving you one pound more buoyancy. Breathing in and out, your buoyancy fluctuates within a range of about one pound. So as long as you are nearly neutral with a half-breath, you can make fine-tune buoyancy adjustments just by controlling how deeply you breathe – but never hold your breath, of course.

Putting It Together

Once you get your weight and trim dialed in, you've come a long way toward perfect buoyancy control. Now fine-tune your BCD as you change depth and use breath control to drop gently down to that cleaner shrimp, hover inches above it as long as you want and lift away from it without disturbing anything. These are the basics, but to really get into the zone straightaway, ask your PADI Instructor about the Peak Performance Buoyancy course. Also, everything you learned here applies to diving with standard recreational dive gear, but buoyancy control is quite different using a closed-circuit rebreather (CCR). As about the PADI Rebreather Diver or Tec 40 CCR Diver courses for more about that.