1313 Sighted an outrigger canoe with a sail bearing 144° true. Approached and photographed same. It appeared to have a whole family aboard.

1400 With all contacts pretty well out of sight, periscope liberty was announced for those who might be interested. Approximately 75 crew members came into the conning tower to say a fond hello and sad farewell to Bah of the beauteous damsels. They will at least be able to say they have seen it.

1630 Entered the Indian Ocean. Next stop—Cape of Good Hope.

From the Log, Wednesday, 6 April 1960:

There is one bit of good news to report today. Using substitute materials exclusively and manufacturing all the special tools needed, Herbert Hardman has rewound the control-air-compressor motor. It became, in fact, a special project, dubbed “practical instructions for electricians.” Under Hardman’s tutelage, George Bloomingdale, Jessie Vail and Herbert Zeller, all Electrician’s Mates First Class, have really turned-to in their off-watch hours, and all four deserve much credit. It was a mean job, the motor being a 10 horsepower 3-phase type. Merely digging out all the ruined windings and cleaning up the stator took over a week. When assembled, the motor ran perfectly the first time it was tried.

During the past several weeks our urgent need for a fathometer has been somewhat allayed because of the very fine performance of the active ranging sonar equipment; so the complete lack of success of our intensive efforts to devise a new fathometer is philosophically accepted. At this point, my biggest regret is the disappointment the failure must be causing to Simpson, Docker and Blaede, who have put so many hours into the project. When we get back to New London, we’ll give their sound head a thorough evaluation, just for the experience of seeing it work.

2339 As we make this observation, our sense of well-being is shattered again: the active sonar is reported out of commission; cause not yet determined. It is the report I have been dreading most. We still have thousands of miles to travel through not-too-well-sounded waters. Without a fathometer, it is essential that we keep our active sonar in commission.

Thursday, 7 April 1960 0050 A thorough check of the active sonar has revealed that a tube has failed from long continuous usage. With a new tube installed, the equipment is functioning as well as ever, and Will Adams, Bob Bulmer and I are greatly relieved. Bob, having officially relieved Will as Navigator when we left Lombok behind, finally feels light hearted enough to accuse his mentor of having deliberately caused the sonar failure to take place at this precise moment. Will grins. “Of course I did,” he says. At which point I don’t know whether to believe these clowns or not.

Sunday, 10 April 1960 0000 Ventilation secured after a thorough sweep-out of the atmosphere of the ship. One of the requirements of the cruise is to conduct a sealed-ship test under controlled conditions for observation of certain phenomena. Our time with a sealed atmosphere will not approach that of Seawolf in 1958, mainly because of the expense of all that oxygen, nor does it need to, so far as this test is concerned. But since we are a brand-new ship, this is one of the things we need to accomplish merely to develop our own techniques and limiting factors.

Until now, except for short periods for testing of our equipment, it had been our practice to come to periscope depth every night for about an hour, and run up the ventilation pipe for a sweep-out of the bad air and replacement with fresh sea air. Life under these conditions had its rigorous aspects. Little by little, during the day, the oxygen content of our atmosphere was reduced as the 183 men on board Triton slowly consumed it. Toward the end of the day, it usually had become oppressively low.

We were not concerned about the accumulation of carbon dioxide, for one or more of the carbon-dioxide-removal apparatuses was run continuously and we had no difficulty in keeping the carbon-dioxide content under control. The average consumption of oxygen by active persons, however, is just under a cubic foot of oxygen per man per hour, and a very close correlation was immediately found to exist between our oxygen consumption and the days of the week. On Sundays, when there was very little going on beyond normal ship cruising routine, the oxygen consumption per man approximated seven-tenths of a cubic foot per hour. Friday was Field Day, with all hands up and turning to, and the average consumption this day was always about one cubic foot per hour. As a consequence, one of the disadvantages of our Friday Field Days was the labored breathing which afflicted all hands the last few hours prior to running up the snorkel pipe.

We discovered other phenomena, too. For example, increasing the pressure of the ship’s internal atmosphere had no effect upon the percentage of oxygen it contained, but it did have an effect upon the total amount of oxygen in each cubic foot of atmosphere. Thus, deliberately increasing the air pressure in the ship by a pound or so per square inch greatly improved the ability of our laboring lungs to draw in oxygen, and consequently everyone felt better. The difficulty with this scheme was that as soon as we began ventilating to the atmosphere, the pressure would reduce to normal. If we luxuriated in hyper-pressure atmosphere for too long a period, some of us might temporarily be exposed to an atmosphere below the minimum allowed oxygen content before our ventilation blowers had managed to sweep out the bad air.

It is remarkable how much stability the human body requires within the wide range of the possible conditions of nature. Ideally, man should be in a temperature of around 70°; by various stratagems, he is able to exist over a temperature range of perhaps 120°, centered on the 70° midpoint. But temperatures in nature can go down to a minus 459° F—which it does in outer space—or up into the thousands of degrees.

Man is acclimated to twenty-one percent of oxygen in the air at normal pressure. He suffers acutely if the oxygen percentage drops only a few points, to seventeen percent, for example, or rises much above twenty-one percent. At the time that we in Triton began to feel distressed, we would have consumed only one-sixth of the available oxygen in the atmosphere of the ship. Were the oxygen percentage to rise above the norm of twenty-one, we should probably experience most of the effects of ordinary intoxication.

There was really nothing unusual in these “discoveries” which we were making; submariners have known and applied the principles for years. But there is no substitute for experience, which opens many new avenues of inquiry.

For example, there was the question whether gradual oxygen reduction each day for a prolonged period would have any damaging consequences on us. The effects of depriving the human body of oxygen all at once to an excessive degree are well known. But what about minor deprivation for many days? No observable deleterious effects have been noted, but many highly qualified medical people have recently been devoting considerable research to this question. The problem ranges from the physical to the psychological, from an environment of oxygen deficiency to one in which the entire atmosphere is mechanically controlled and stabilized at some optimum point.

From the Log:

The Medical Research Laboratory in New London has been pursuing this particular project for a long time, the first announced test being Operation Hideout in the mothballed submarine Haddock in 1953. Doctors Ben Weybrew and Jim Stark have been discussing the sealed-atmosphere test for several days, and finally have proposed a procedure. We will remain sealed for approximately 2 weeks, running various physical and psychological tests among selected volunteers from the crew. Somewhere during the mid-point of this period we will put out the smoking lamp for an extended time. Careful checking of all factors will continue for several more days before terminating the study.