The Project Gutenberg eBook of Survival at Altitude for Heavy and Very Heavy Bomber Crews

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NOTES ON THE USE OF OXYGEN EQUIPMENT
IN THE B-17, B-24, & B-29 FOR COMAT CREWS

* * * * * * * * * * * * * *

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FOREWORD

These notes were originally intended as a source of general reference concerning OXYGEN EQUIPMENT AND ITS USE by members of crews of the B-17 and B-24 heavy bomber. With the advent of the B-29 as a combat bomber, the section on THE B-29 AT HIGH ALTITUDE (Page ) was added to supply certain specialized information concerning this ship. Every B-29 crew member should be familiar with the INTRODUCTION and the section on THE DEMAND OXYGEN SYSTEM as well as this specialized information. The subject matter is presented from a PRACTICAL point of view, based upon actual experiences encountered on altitude missions. Detailed information on oxygen equipment may be found in the following TECHNICAL ORDERS.

03-50-1	Use of Oxygen and Oxygen Equipment.
03-50A-5	Type A-12 Demand Oxygen Regulator (Pioneer).
03-50A-8	Type A-12 Demand Oxygen Regulator (Airco).
03-50B-1	Type A-10 Revised Oxygen Mask.
03-50B-6	Type A-14 Demand Oxygen Mask.
03-50C-3	Low Pressure Oxygen Cylinders.
03-50D-1	Oxygen Pressure Signal Assembly.
03-50D-2	Oxygen Flow Indicator Type A-1.
03-50D-4	Oxygen Flow Indicator Type A-3.
03-50D-5	Oxygen Pressure Gage Type K-1.

INTRODUCTION

As a member of a heavy bomber team, in combat you will be living and fighting in a world where man has no business--from three to six miles above the environment for which nature designed you.

Successful and effective operation of combat crews at altitudes in excess of 15,000 feet requires that EVERY crew member be familiar with altitude problems. You must be so thoroughly familiar with your oxygen equipment that you will use it PROPERLY without giving it a thought. The time to acquire this experience is during operational training not after you have pulled several boners in combat.

Through long hours of tiring training you have developed superior judgment, ability to make decisions quickly, and efficiently in firing and in other duties. Most of your training has been confined to relatively low altitudes in a relatively "normal" environment. Now you are going to continue this training "upstairs". To maintain the superiority and efficiency you possess OXYGEN MUST BE USED above 10,000 feet. Above 18,000 feet oxygen must be used to maintain consciousness and life itself.

It is mandatory that every member of a heavy combat crew be highly trained in oxygen discipline. It is urged that oxygen "drill" be practiced by ALL crew members for at least 15 minutes on routine training flights before altitude missions are ever undertaken. Practice using and re-filling the walk-around bottle at various stations. Practice changing masks (page 12) and become expert at using oxygen from emergency sources (page 27). Practice reviving some crewmate who has supposedly passed out from oxygen lack. Practice going to your escape hatch on a walk-around bottle with parachute in place. Practice all emergencies that may arise some day in combat and when they arise they won't be emergencies.

The following responsibilities will fall upon every member of a combat crew. The airplane commander should satisfy himself that the following points are observed or provided for:

The "demand" oxygen system in your ship insures a fully adequate oxygen supply except under the most extreme conditions. It was developed to supply you, AUTOMATICALLY, as much oxygen as you need when you need it--at all altitudes and under all conditions.

The A-14 mask is standard issue for staging and combat areas, and operational or replacement training schools.

The A-10-A mask is used in training where sufficient A-14 masks are not available.

Both the A-10-A and the A-14 masks are suspended from the summer and winter flying helmets.

NOTE: It is important that AERIAL GUNNERS obtain a properly fitting mask, fit to both summer and winter helmets at the first station available. Because of the extreme cold to which gunners are subjected under combat conditions, you MUST learn to remove and replace the mask quickly and accurately WEARING HEAVY GLOVES. It is not easy to manipulate a mask or unjam a .50 cal. gun with numb fingers in heavy flying gloves. PRACTICE these things on every training flight with gloves ON.

FITTING THE MASK TO THE FACE -- There are two considerations in obtaining a proper fit:

The A-10-A and A-14 masks come in three sizes. Roughly, 60% of flyers will require the STANDARD (medium) size mask, 30% the LARGE mask, and the remaining 10% the SMALLER sizes. General instructions concerning fitting are.

REMOVING MASK AT ALTITUDE -- There are many reasons why your oxygen mask will be removed above 20,000 feet. This has been responsible for countless "accidents" in heavy bomber crews IN advanced training and in combat. LEARN THE PROPER TECHNIC NOW, wearing heavy gloves. You can take your oxygen mask off at 30,000 feet and be as safe as you are on the ground, PROVIDING YOU HOLD YOUR BREATH and don't breathe the "thin" outside air. The following are a few of the reasons why you will remove your mask at high altitude. DON'T REMOVE YOUR GLOVES, for freezing occurs almost instantaneously and painlessly at temperatures of 30 below and lower.

TECHNIC -- NEVER breathe when mask is off face or is loosened from helmet. PRACTICE THIS with a mirror: (See Fig. 2,3 & 4)

IS THE RUBBER GASKET IN PLACE? Without the gasket an air-tight seal at this joint is impossible. Dangerous oxygen-lack will result above 24,000 feet. With a leak at this altitude serious mental and physical inefficiency will develop, even though you may not pass out. Above 28,000 feet you will quickly become punch drunk, and the pass-out will soon follow.

USE THE CLIP ON THE REGULATOR TUBING--It is there to remove tension on this connection which could (1) cause serious mask leak by pulling the mask down on the face, or (2) cause mask tubing to become disconnected. In combat these things would fail to attract your attention. Without warning you are first slap-happy and then drop unconscious.

THE RAPID DISCONNECT REQUIRES CONSTANT ATTENTION whether you are plugged into a fixed station or into a walk-around bottle. A pull of at least 12 pounds should be required to separate the male and female connection of the rapid disconnect. The security of the connection can be increased by spreading the groups at the tip of the male connection. (See diagram, pre-flight check, page 39).

CONNECTION OP HOSE TO REGULATOR IS NOT A SWIVEL JOIN--Above 24,000 feet the collar must be turned up tightly to prevent a dangerous leak of air.

Make sure that the regulator hose is wired securely to the goose neck on the regulator.

In principle the demand regulator is a diaphragm-operated flow valve which is opened by the user's inspiration and closes automatically when the suction ceases. This gives you as much oxygen as you ask for. All you do is breathe. A short breath draws a short squirt of oxygen, while deep, rapid breathing brings forth large shots in rapid succession.

The regulator can be set to conserve oxygen, or to give you 100% oxygen, regardless of the altitude you are flying. This is governed by the position of the "Auto-Mix" (AIR) lever.

AUTO-MIX (AIR) "ON" (or NORMAL OXYGEN) is the position for routine use. This saves oxygen.

AUTO-MIX (AIR) "OFF (or 100% oxygen) -- used when ordered by first pilot, and on special occasions.

THE "EMERGENCY" VALVE IS DANGEROUS -- it should be used with extreme caution. A whole system can be depleted of oxygen in an hour or less if the "emergency" is opened only a quarter of a turn. Emergency "ON" changes regulator into a constant flow system and wastes precious oxygen. Use only to revive an unconscious crew member or to check line to make sure it is clear. Always make sure that "Emergency" is TIGHTLY TURNED OFF before ship leaves the ground.

Don't be confused by the difference in appearance of demand regulators manufactured by various companies (see Fig. 9). THEY ALL WORK THE SAME.

A PORTABLE RECHARGER HOSE is available at every station in the ship. Every crew member should know their location so well that they can be located immediately, even on the darkest night. In addition, there is a long recharger hose for filling the ball turret oxygen cylinder. (B-17-F).

When drawing oxygen through a portable recharger the refiller valve must engage the filler nozzle TIGHTLY, otherwise oxygen leaks around the connection and is lost. The oxygen supply of an entire system has been wasted in this manner.

FREEZING or STICKING of refiller valve is not uncommon at extremely low temperatures. Always check this after refilling your walk-around. A stuck valve will quickly deplete the entire supply of oxygen in that system. If the valve is stuck plug in a walk-around bottle and leave it there.

USES OF THE WALK-AROUND BOTTLE -- (1) As an ACCESSORY REGULATOR -- the A-13 regulator on the walk-around bottle is a demand type regulator without the "auto-mix" feature. It gives 100% oxygen on inspiration regardless of the altitude. By connecting the walk-around bottle FIRMLY into the portable recharger valve, one has an extra source of oxygen at that particular station. As long as the oxygen gauge at the station registers oxygen pressure the user is assured a supply of pure oxygen ... his supply is coming directly from the system. Remember this when reviving a passed out crew mate in the waist in the vicinity of the ball turret--the long recharger hose used to charge the oxygen bottle on the ball turret can be plugged directly into a walk-around bottle attached to the unconscious crew member's mask.

If other long recharger hoses can be obtained from Tech Supply they will be extremely handy attached at the pilots station, in the bomb bay and to the recharger outlet at the right waist gunner's station. This would permit the engineer, who in flight is continuously filling his walk-around bottle, considerable liberty. He could cover most of the ship, staked out on a long recharger hose connected to his walk-around bottle. It would also provide a readily accessible source of oxygen to revive crew members who pick such out-of-the-way places to pass out as: the bomb bay cat-walk, the bomb bay doors, under the flight deck, or in some remote part of the waist.

One or two extension portable recharger hoses shown in photograph page 22 should be standard equipment in heavy bombers.

(2) SOURCE OF OXYGEN FOR BAIL-OUT -- Above 20,000 feet, breathing of oxygen is necessary to reach your particular escape hatch. After this spot is gained you won't need oxygen ... unless you start fiddling with the rip-cord too soon. Go to your exit on the walk-around bottle, fill your lungs deeply five or six times from the bottle, HOLD YOUR BREATH, and take the dive. Continue to hold your breath during the descent as long as possible. By the time your lungs are bursting for air you'll be from 8 to 10,000 feet nearer the ground and won't need extra oxygen. Leave the mask on--it will protect your face. If the skies are filled with enemy planes it may be wise to continue the free fall. By now you can start breathing without danger of serious oxygen-lack. Any dimming of mental acuity would be of such short duration that you'd have plenty of time to pull the ripcord.

PRACTICE GOING TO YOUR ESCAPE HATCH ON A WALK-AROUND BOTTLE DURING OPERATIONAL TRAINING -- PRACTICE ON JUST HOW YOU WOULD CLEAR THE SHIP -- GO THROUGH ALL OF THE ROUTINE EXCEPT THE BAILOUT -- and that might not be time wasted, at least just once before the time comes when you might have to!

Above 30,000 feet you wouldn't want to open your 'chute even if you had plenty of oxygen. You'd freeze a hand or foot or both if you did. Under these conditions you'd free fall, holding your breath, as long as possible. Then, after three or four breaths of "thin" air, pull the rip cord. Your altitude should be in the vicinity of 10,000 to 12,000 feet below that when you abandoned ship, and the degree of oxygen-lack encountered here wouldn't be of dangerous consequence. You'll avoid freezing, and perhaps the gunfire of enemy interceptors.

(3) TO MOVE ABOUT THE SHIP For this the walk-around bottle is very useful ... and very tricky! The trouble is that the thing is good only as long as it gives oxygen. It will rarely, if ever, be fully charged so forget that 8 to 12 minute stuff. You can't fill your bottle any fuller than the pressure in the line you'll be drawing from. And the only time that will be fully charged is when the ship is on the ground, freshly charged with oxygen, ready for the take-off. When you need the walk-around bottle, three or four hours will have passed ... and the pressure in your filling line will be some fraction of the full charge. As a rule you'll do well to get the bottle half charged. And you're going to be moving about at altitude and needing 3 to 5 times as much oxygen as if you were sitting quietly in a corner. So plan on the walk-around supply lasting 1½ to 2 minutes ... then you won't be caught short! Refill the bottle frequently. Refill it every time you pass a portable recharger hose ... and there's one at every station. Failure to do this has caused more pass-outs in second and third phase training than any other single cause ... unless you include carelessness. And careless people don't last long in the kind of work you're specializing in! There's a check-valve on the walk-around bottle, so you won't lose anything if you plug into a system that reads less than the gauge on the bottle.

NOTE TO ENGINEERS: Because of its limited supply, the standard walk-around bottle is next to useless for many of your jobs which must be done in flight on a walk-around bottle. The ENGINEER NEEDS A LARGER WALK-AROUND BOTTLE. One, having a supply 5 TIMES AS GREAT as the standard portable cylinder, can be obtained as follows:

Obtain a D-2 oxygen cylinder (stock No. 5500-344020 - class 03K) from Air Corps Supply. Remove the A-13 regulator assembly from a standard walk-around bottle. Remove the spud from one end of the D-2 cylinder and screw the A-13 regulator in tightly. Fill to 400 p.s.i. and leave overnight to determine if pressure is maintained or lost due to a leak. (A drop of 25 to 50 pounds will occur in the absence of a leak due to cooling of the oxygen which warmed up when the cylinder was charged).

For leaks here or elsewhere in an oxygen system use the following anti-sieze and sealing compound on the pipe threads: Pioneer Antisieze No. 2., Class 96B, Stock no. 7500-050800. Never use a sealing compound which contains oil.

A satisfactory bag with shoulder strap for carrying the walk-around bottle when in use can be made from heavy twill or canvas by the parachute department.

In addition to your ship's regular oxygen supply, you will take emergency oxygen rations along on combat missions. If practical you will also have several extra masks on board. Know where they are stored.

Your oxygen pressure gage registers from 450 pounds to zero. WATCH YOUR PRESSURE GAGE! Except under extreme emergency, don't run the pressure down under 50 pounds .... if you do there's danger of moisture getting into your refiller line. Then the next time you go to high altitude you'll have trouble with freezing in the oxygen line.

Either the bouncing ball or blinking eye will be at each station, depending on the vintage of your ship. Only older ships will be equipped with the bouncing ball which is no longer manufactured. These indicators do not tell HOW MUCH oxygen you are getting ... they merely indicate that some oxygen is flowing through the system when you take a breath. They may be working O.K. even though your oxygen supply is inadequate. The COLOR OF YOUR FINGER NAILS is a better guide to the amount of oxygen you are getting, providing your hands are warm. If they become bluish above 20,000 feet check mask and connections for leak. Naturally, you won't remove your gloves to look at your finger nails if the temperature is 20 or 30 degrees below zero. If no leak is found, switch the "Auto-Mix" to the OFF position and note if things improve. INFORM YOUR PILOT IF AUTO MIX IF LEFT "OFF" and your mission is a long one.

The Army Air Forces use the low pressure system (maximum charge 450 pounds per square inch) in preference to the high pressure system (1800 pounds per square inch) for these reasons:

A diagrammatic sketch of the FOUR different oxygen systems is shown on page 38. EVERY crew member should thoroughly familiarize himself with the location of each regulator and each portable recharger hose.

The four systems, arranged two on a side, offer great advantages in combat over a single system. It is possible to redistribute crew members whose system has been shot out and stay in formation. Everyone must know these alternate positions. (page 41 for B-17, page 45 for B-24).

NOTE: Based on combat experiences, continuous changes are being made in the oxygen systems and oxygen supply in heavy bombers. The following considerations apply only to the type of ship specified. Newer models and ships modified at staging areas may be different both in arrangement and number of oxygen cylinders. KNOW the oxygen supply for YOUR STATION IN YOUR SHIP.

Two types are found in the B-17. EIGHTEEN G-1 cylinders contain the main supply which is distributed through the four systems. All are filled through a single recharging line.

The G-1 cylinder has a volume of 2100 cubic inches and contains 30 cubic feet of oxygen when charged to a pressure of 450 pounds per square inch. In combat the cylinders are charged to 450 pounds or better (all cylinders have been tested to withstand 700 pounds pressure). Each cylinder is check-valved so that one of a bank of cylinders may be shot out with loss of no oxygen from the remaining intact cylinders. Between 20,000 and 30,000 feet, one G-1 cylinder charged to 450 pounds will last one man approximately 5 hours (Auto-Mix "on").

The turrets on the earlier models (B-17F) are supplied with F-l type cylinders having a capacity of approximately 14 cubic feet when fully charged to 450 pounds. Under these conditions a fully charged bottle lasts one man approximately 2 hours. (Note: these bottles are recharged from the ship's supply during flight, so it will not be possible to fully charge them after several hours of flight on oxygen. They will be no fuller than the pressure in the system from which they are charged--front left system for top turret; rear left system for ball turret).

B-17G models are modified so that the turrets are supplied oxygen directly through a flexible hose -- the top turret from the front left system -- the ball turret from the rear right system. The same changes may be found in the ball turret of the B-24.

Several members of the crew must be able to calculate the duration of the oxygen supply. The following simple procedure will permit a fairly accurate estimate of each systems duration. The figures are based on altitudes between 20,000 and 30,000 feet where the majority of your combat flying will take place.

FORMULA: 5 (man hours) x number of intact cylinders x actual pressure/400 divided by number of men using oxygen from system = DURATION in hours.

Like the B-17, the B-24 is equipped with a low pressure oxygen system. Location of the cylinders and distribution of the lines, however, is entirely different. The oxygen system varies somewhat in the different model ships and in individual ships. In the B-24 D (beginning with Serial No. 42-40218) to the B-24 H, however, the system is essentially as described below. Some of the minor variations will be noted, including changes to the supply for the nose positions in late T models. FAMILIARIZE YOURSELF WITH THE OXYGEN SYSTEM IN YOUR OWN SHIP.

There are 22 type G-1 cylinders arranged in eight systems (see diagram on page 47B). Sixteen cylinders are banked above the bomb-bay. The remaining six are buried in the floor of the rear fuselage compartment. There are also two smaller (type D2) cylinders attached to the chair of the top-turret gunner. These are not connected to the main system but must be charged from a portable recharger line. The main system is charged from a single filler valve located in the left side of the bomb bay. Each G-1 cylinder, when charged to 450 pounds per square inch, contains 30 cubic feet of oxygen, and will last one man approximately 5 hours between 20,000 and 30,000 feet (Auto-Mix "on").

The systems differ radically from those of the B-17. In models up through H to early J each individual draws from at least two or three cylinders. With the exception of the nose positions there is a maximum of two men on the same system. As shown in the diagramatic sketch (page 47B), the pilot, co-pilot, side gunners, and tail gunner each have their own individual system of at least two G-1 bottles.

In the G, H and early J series the three regulators in the nose are supplied by a single system containing only three oxygen cylinders. (diagram page 47B). This is inadequate. The later J models have a modified system to the nose wherein the bomb bay - radio operator system is Tee'd into the supply to the nose positions. This brings to a total of six oxygen cylinders for the five stations. (diagram page 47A). Since the regulators at the radio operator and bomb bay stations are not used continuously during combat missions, this modification to the nose positions is adequate. Further, the connections in the lines leading to the nose are such that the nose positions are supplied individually as well as collectively so that loss of the supply to one system does not necessarily deplete the other systems. KNOW THE OXYGEN SYSTEM IN YOUR SHIP.

The bottom turret and camera tunnel regulators are supplied by the same system containing three cylinders.

In case of loss of the entire oxygen supply of any one system, the affected crew member may move to any other convenient regulator in the ship with these exceptions:

This is true because every station, with these three exceptions, has its own individual oxygen supply. The use of the walk-around bottle is the same as that described for the B-17. (Page 20).

With the present system in the B-24, each man has approximately 9 hours oxygen supply at 30,000 feet with the Auto-Mix on. However, it occasionally becomes necessary in emergencies to calculate the residual oxygen supply. This can be done by the simple formula given on page 24:

5 (man hours) x no. of intact cylinders x actual pressure/400 divided by no. of men using the system.

Application of this formula is much simpler in the B-24, since usually only one, and at the most two, men are using a single system.

The exact location of the demand regulators in a ship is variable, depending upon the model, place of installation, etc. It is extremely important that you familiarize yourself with the location of the regulators in your ship, so that you can move from one to the other in darkness, in case of emergency. Many of the B-24 H models have two extra regulators: one in the nose, and one in the tail. There is also variation in the location of the portable recharging hose for the top-turret bottles. This is located in the right side of the ship in most earlier models, but in the left side in later models. Fundamentally, however, the system in all ships commencing with No. 42-40218, is as described above. It is up to you to familiarize yourself with any minor differences in your ship.

CAUTION: Always have a reducing valve between high pressure supply cylinders and ship's oxygen system.

After the oxygen in the tanks has had time to cool down, pressure should be in the neighborhood of 400 pounds.

The same procedure must be employed even if one or more of the systems is already fully charged since there is no way of equalizing pressure among the different manifolds. Do not attempt to use any system in which the pressure is less than 50 to 75 pounds per square inch. Under these conditions the oxygen flow is very weak. More dangerous is the possibility of moisture getting into the oxygen line through the main recharger valve. This will result in freezing in the line or one of the regulators on the next trip to high altitude.

Leaks in oxygen lines and be detected by painting oxygen tubing with a paintbrush and solution of soap suds--soap bubbles appear at the site of leak.

Connection of oxygen tubing to nipples, elbows, tees, and regulators are made air-tight by applying an anti-sieze, sealing compound to the pipe threads (see note, page 27). DON'T use anything containing OIL.

A good way to check entire oxygen system for a leak is to have systems charged to 450 pounds the night before take-off. If the pressure is less than 400 pounds the next morning a leak is present.

A 50 pound drop in pressure can be anticipated due to cooling off of oxygen after the system is charged.

DON'T use oil with oxygen. The reaction when these two substances come in contact is more violent than igniting dynamite. Keep oil or grease away from oxygen cylinders, cylinder valves, and other equipment. Clean hands of oil or grease before using oxygen apparatus.

DON'T wear greasy clothes, gloves, etc., when working with oxygen. Oxygen will cause substances with merely a trace of oil or grease thereon to burn with great intensity.

DON'T use inflammable substances near oxygen. Oxygen itself will not burn but will greatly accelerate combustion.

There are two ways to use oxygen equipment at altitude -- a right and wrong. Don't be a fish out of water when you fly above 18,000 feet. Learn how to use oxygen the right way NOW - then you won't have to re-learn the hard way after an unpleasant experience or two.

A few points on reviving a fellow crew member who has passed out due to oxygen lack--an opportunity that may well be yours some day!

Caution: Above 20,000 feet, get assistance to give artificial respiration. It will be strenuous work -- a job for several men, not one. Take turns of one to three minutes each.

The B-29 is designed to permit you to fly at high altitude without the usual disadvantages of extreme cold, diminished pressure, and decreased oxygen. This is done by the use of pressurized, heated compartments. A highly efficient oxygen system is also incorporated in the ship for use when the cabins are unpressurized.

There are three pressure compartments in your ship: Forword, Aft, and Tail. (See Fig. 13). The forward and aft cabins are connected by a communicating tunnel running over the bomb-bay; the tail compartment is isolated when pressurized.

OPERATION: The cabins are pressurized from the superchargers of the two inboard engines. Your flight engineer controls the air-flow from these superchargers, permitting the cabin Pressure Regulators to automatically regulate the air pressure within the cabin. From ground level to 8,000 ft the cabins are not pressurized. When the cabins are under pressure, your cabin altitude will remain at 8,000 ft, while the ship is flying at any altitude up to 30,000 ft. When your ship gets about 30,000 ft, the cabin pressure will rise proportionately so that it reaches about 12,000 ft when the ship is at 40,000 ft. (See Fig. 14 for this pressure relation). Cabin temperature is controlled by thermostat.

EMERGENCY PRESSURE RELEASE. Since all emergency doors open in, cabin pressure must be released in all emergencies. This is done by a valve controlled by cable from:

Your oxygen system is a low pressure demand system with 14 oxygen stations corresponding to the various crew positions. The system utilizes the same type of equipment described for the Heavy Bombers:

In the earlier B-29's, the oxygen cylinders were located in the center wing section. At present, however, the cylinders are distributed through the aft-portion of the ship. Regardless of the location of cylinders, distribution is essentially the same. This distribution is highly efficient. The entire loss of the O₂ supply to several crew positions has been practically eliminated by the following principle.

Brief study of the diagram of the oxygen supply to a typical B-29 station (Fig. 15) will demonstrate the safety factors of this dual source supply.

Exact location of every oxygen cylinder and supply line may be found in the late tech orders.

See Page 47 for servicing instructions. The filler valve is located on the left side of the fuselage.

With the use of pressurized compartments there is a possibility of explosive decompression. This is most likely to occur if a blister is blown either due to gunfire or a defective blister. Due to the excess capacity of the superchargers, small cabin holes will not cause explosive decompression. If explosive decompression occurred at 30,000 ft, the pressure altitude of the cabins would change from 8,000 ft to 30,000 ft in less than one second. What would happen in such a case?

The human body is affected very little by explosive decompression. IF YOU GET OXYGEN YOU WILL SUFFER NO HARMFUL EFFECT. You may feel a little distension of the belly or a little rush of air from the lungs, but this is generally slight and of no consequence. Your ears should clear automatically since you are going up, not down. The only dangers of explosive decompression are as follows:

The important thing in explosive decompression is to get oxygen rapidly. To get oxygen rapidly you MUST at all times:

In case of explosive decompression, adjust your mask to the face and fasten the hook on your helmet. You will then be O.K.

If you must bail out above 20,000 feet, use the FREEFALL TECHNIQUE described on page 23 except that you have an additional oxygen source for bail out. Use the H-2 cylinder connected to your A-14 mask (Fig. 16) as an oxygen supply DURING FREE FALL. Just before jumping, pull the rip cord release on your H-2 cylinder. DO NOT OPEN YOUR CHUTE AT HIGH ALTITUDE.

--REPRODUCED BY--
Reproduction Dept.
Army Air Field Lincoln, Nebr.
10-18-44 20 M

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Auto-Mix	17
Ceiling, effect of oxygen on	3
Dangers with oxygen	50
Demand oxygen system	7
Demand type masks	8
Duration of oxygen supply
B-17	38
B-24	44
Method of computing	40
Emergency valve	19
Explosive Decompression	61
Flow indicator	32
Hazards of oxygen-lack	1
Leaks in oxygen lines	49
Leaks in regulator	11
Mask, Demand
Fitting to face	9
Technic, at altitude	13
Testing for leaks	10
Mask-Regulator connection	16
Night Vision	2
Oxygen cylinders	37
Oxygen deficiency at altitude	3
Oxygen installation, Servicing of	47
Oxygen discipline	4
Oxygen systems
B-17	36
B-24	43
B-29	57
Oxygen systems, diagrams of
B-17	38
B-24	47A
B-29	60
Oxygen equipment, check of	34
Portable oxygen equipment	20
Precautions with demand system	34
Passing out at altitude	51
Pressure Cabins, B-29	56
Regulator, Demand
A-12	17
A-13	20
Regulator hose clip	16
Revival of passout victim	51
Servicing oxygen installations	47
Signal assembly	32
Sniff-tester	11
Testing for mask leak	10
The B-29 at High Altitude	53
Walk-around bottle	20
Walk-around bottle
Uses of	20
Large, for engineer	25
When to use oxygen	1

ALTITUDE FEET	%OXYGEN BREATHED	EQUIVALENT LEVEL (feet)
18,000	60	ground
26,000	85	ground
30,000	100	ground
33,000	100	8,000
38,000	100	12,000
44,000	100	22,000

The Project Gutenberg eBook of Survival at Altitude for Heavy and Very Heavy Bomber Crews

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