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If there is anything about the redoubtable Vice-Admiral Rick-over which is predictable, it must be his insistence upon the most thorough training, the most complete familiarity with operational and design procedures, the most meticulously careful engineering practice by the designers, builders, and personnel who operate nuclear machinery. A magnificent record of trouble-free operation of his nuclear power plants is one of the results. It is attained by vigilance on the part of all personnel involved—and of all of them, the most vigilant is Vice-Admiral Rickover himself.

In the case of the Triton, by the time the ship first put to sea in September, 1959, some of her crew had been training for a period of two years or more. Officers and enlisted men alike had to go through a rigorous program, carefully tailored for the needs of each individual case.

Executive Officer Will Adams and I, for instance, received what we later decided was the most strenuous and yet the most satisfying period of training, testing, and qualification either of us had ever experienced. Before we were finished, we had mapped out the entire power plant of the Nautilus prototype near Arco, Idaho, and had done the same thing for Triton’s own prototype, more recently completed at West Milton, New York. We spent eight weeks in Idaho, during the hot summer of 1958, studying from sixteen to eighteen hours a day, seven days a week, Sundays and holidays included. At the conclusion of this period Adams and I took a comprehensive written examination which, in my case at least, took fourteen hours to complete (Will, to my dismay, walked out of the examination room two hours before me). At West Milton, our eight weeks of training was split up, partly because the prototype had barely begun to operate; but here, too, we made the same slow careful checkout of all systems.

By the time we arrived at the Electric Boat Division of the General Dynamics Corporation, in Groton, Connecticut, to participate in the launching of our new ship, which took place on August 19, 1958, we had received the best possible training in the techniques of operating her highly complicated machinery and handling all conceivable functions and malfunctions.

As time went on, and we came to know them intimately, Adams and I developed a deep admiration for the designers of our fantastic power plant, and it is probably proper at this point to state that Lieutenant Commander David Leighton, USN, stands second only to Admiral Rickover in our appreciation of the job done. We also developed a strong regard for the officers and men of Triton’s crew, who had already spent so many days learning how to man her.

Already, she had created difficulties because of her great size. Among the problems faced by the builders was that her huge bow blocked the space reserved for the railroad which ran just forward of the building ways. This railroad was needed to haul regular loads of ship-building supplies which were needed in the Yard. It had to be kept operating. The problem was solved by cutting away a part of the lower section of Triton’s bow to clear the trains, and replacing it barely a few days before the launching.

At the other end of the ship, her stern projected so far out over the Thames River that efficient construction was not possible. Therefore, to the considerable consternation of the people on the New London side of the river, who could see only a great unfinished cavern where Triton’s stern should have been, her last fifty-foot section was constructed on the adjoining ways. After the stern was built, a pair of tremendous overhead cranes hauled it into its proper place. (Before this was done, Electric Boat was many times playfully reminded of the importance of finishing a ship before launching her.)

One segment of the ship could not, however, be installed before the launching ceremony. Triton stood on the ways about seven stories above the ground, too high to slide under the giant overhead cranes of the building ways; the top twelve feet of her sail (the great vertical structure carrying her periscopes and retractable masts) had to be cut off and reinstalled after launching.

The outstanding feature of Triton, responsible for her unprecedented length and displacement, was that for the first time not one but two reactors were included in a nuclear submarine. The forward reactor would supply steam to the forward engine room and drive the starboard propeller; number two reactor would supply steam to the after engine room and drive the port propeller. The two plants, identical in design, were entirely independent and separate, but could, of course, be cross-connected if necessary. Designed for high speed on the surface as well as beneath it, she had a long slender hull in contrast to the short, fat shape best suited to underwater speed alone. Triton was 447½ feet long, more than a hundred feet longer than any previous US submarine, almost as long as Dad’s lost Memphis of some forty years before. But where the Memphis had over sixty feet of beam, Triton had only thirty-seven. Her surface displacement was approximately six thousand tons; submerged, she would displace eight thousand tons, about twice as much as any other submarine.

As Triton stood ready for launching, her mammoth hull equaled in size a light cruiser of World War II. Inside, her reactors and machinery were of the most sophisticated design and development yet achieved by any nuclear power plant.

Her underwater body showed a dull olive green when the scaffolding was cleared and she stood in solitaire on two ribbons of shiny tan-colored wax. Around her towered the black skeletonlike framework of the overhead cranes, and crowning her entire length was a double-strength steel superstructure, painted a brilliant orange. Perched on top of this was the bulky lower section of the sail, truncated by removal of the upper half but still seeming high enough to strike the cranes above.

Launching a ship is an important point in her construction program. Contrary to the impression some people may have, a ship is far from fully constructed when she is launched. With the exception of small pleasure craft, no ship can be completed before she is floating in the water, for even the most careful calculations cannot foretell the precise manner in which the hull will take up the stresses of being waterborne. Certain extremely precise technical work, such as final boring of the propeller-shaft tubes and lining up turbines and reduction gears on their foundations, cannot be accomplished until after the ship is afloat. Otherwise, a tiny deflection of a sixteenth or a thirty-second of an inch—easily possible in a hull the length of ours—might throw the reduction gears or propeller shafting out of line.

On the nineteenth of August, 1958, a warm New England summer day, thirty-five thousand guests had come to the Electric Boat Division to see Triton launched—the biggest crowd ever assembled at EB, so the papers said, for the biggest submarine ever built. It was a great day for Triton, for Electric Boat, for Triton’s crew, and for me.

About half our crew were aboard for the ceremony, in close formation on the forecastle, resplendent in their dress-white uniforms. Also in whites, I waited above them on a makeshift platform provided at the half-level of the decapitated bridge. A few planks had been nailed together to make a platform near the forward end, and this was where I stood. Unfortunately, it was so low I could barely see over the side, but I found that by standing on top of the ship’s whistle, built into the forward section of the sail, and holding onto a girder at its edge, I was able to get a pretty good view of the ceremonies. I could not, however, see the launching platform or the festivities going on there beneath the Triton’s bow.

The gaily dressed crowd on the ground below spread out in all directions, spilled over the temporary barriers erected by Electric Boat, crowded on top of the stacked lumber and building materials on both sides. Some of them even stood on the roofs of nearby buildings. As I watched, I was amused to see an Electric Boat officer climb to the top of one of the buildings and chase away a number of teen-agers. Most of the uniforms were whites, the prescribed attire for the occasion. There were sailors from other ships acting as ushers; a sprinkling of blue and gray-green-uniformed police officers scattered about, preserving order. Nearly half the crowd were women; and there were a number of children about, too, most of them clutching the hands of their parents. One or two of the smaller tots perched on the shoulders of a uniformed father, and a few raced around in games of tag or follow-the-leader.

My own children were somewhere in the crowd, I knew, but I searched for them without success. They were supposed to be up near the launching platform in the care of a secretary of Electric Boat, for Ingrid, my wife, could not be here. She was in Boston with her father, whose postoperative condition had suddenly become critical.

Excited, high-pitched chatter wafted up to me, but soon the crowd grew silent, and I heard the loudspeakers rumble with the voice of one of the presiding dignitaries. Not a word of what was being said could be distinguished, but from the timetable I had studied that morning, I knew that Admiral Jerauld Wright, Commander in Chief of the United States Atlantic Fleet and Supreme Allied Commander, Atlantic, was about to deliver the principal address. After Admiral Wright finished, there would be an invocation, and then Triton would be christened by Louise Will, wife of Vice-Admiral John Will, USN (ret.), with the traditional shattering of a bottle of champagne. Then, at long last, the trigger holding the launching cradle would be released, and we would slide backward into the water.

There was a scattering of applause from below, then silence again. The drone of the loudspeakers went on and off several times. Some people near the invisible launching platform bowed their heads. Still not an intelligible word came through the loudspeakers, and I could only assume that the launching was drawing closer. Instinctively, I took a firmer grip on the handrail.

There is always a little apprehension when a ship is launched. Will she start when the trigger is released? Will the motion be accompanied by a jolt which might knock personnel off their feet or over the side? Poised only on two slender slides for her entry into water, our ship was in its most vulnerable condition. Any miscalculation, any error in fixing the location of the stresses, could easily result in damage. Unthinkable, but conceivable—she might even topple over. Surface ships, usually broader than they are tall and essentially flat-bottomed, are not prone to such mishaps, but submarines are taller than they are wide and their bottoms are round. The catastrophe of rolling over on the crowds below would be appalling. A fine time for me to come up with this, I thought; surely the Electric Boat people ought to know how to launch a submarine, even one as big as Triton.

Being idle, I also had time to concern myself over how the new ship would behave when she entered the water. Were the many hull openings all closed? Submarines are designed to lie low in the water. Might Triton not partially submerge as she entered her element? It had happened before.

The speakers went off again. There was a moment’s interruption, then the blare of a steam whistle and a siren, joined immediately by several others. I felt nothing: no tremor, no shift of weight, no indication of motion—nothing. And then the steel General Dynamics sign on the structure of one of the crane tracks began to glide away. For a long moment I watched it, wondering whether it was really moving or whether it was simply that I wanted it to move. But the sign was actually receding, and within seconds, the vertical stanchions that lined the building ways were flying by.

I turned around just in time to see our stern enter the water with a great froth of white spray, as the propellers dug in. An insignificant amount of water came up over the turtle back and part of the main deck aft—not far. On either side of us, long streamers of white wake marked our dash. And now we were in the river; small boats and pleasure craft of all sorts, heretofore maintaining a cautious distance, raced toward us for a closer look. Up ahead was water, and the naked ways. Triton was fully waterborne.

In reporting the ceremony and the launching, the New London Day commented that as she slid down the ways, Triton attained a speed higher than she would ever see again. Having spent the past seven months studying the power-packed ship, I had some reservations about the accuracy of that statement.

After launching, there is a long period of further construction, called “fitting out”—a holdover from traditions of the days of sail when “fitting out” amounted to installing masts and guns in a completed hull. It is not the launching, but the commissioning of a ship which signifies her acceptance for service. And, although launched on the nineteenth of August, 1958, Triton did not go to sea on trials until September, 1959. She was commissioned into the Naval Service on the tenth of November, 1959.

This period between launching and commissioning is critically important, for this is when the bulk of the crew is assembled and organized into a cohesive ship’s company. In forming a crew, nuclear ships have a special advantage, thanks to Admiral Rickover’s foresight. All our engineering personnel came directly from the Triton’s prototype at West Milton, New York, where they had been put through a rigorous training schedule on the dry-land reactor and engine room the Atomic Energy Commission had built there at the Admiral’s behest. These men were already thoroughly trained and qualified in their primary functions. Nuclear ships are unique—and among the special aspects was that our engineering department, in effect, was handed to us ready-made. Its personnel could not have been better prepared for their duties. Proper preparation to take the ship to sea would have been impossible otherwise.

Some of the men came from other submarines, but most of them were in no way connected with the propulsion plant. One, Chester Raymond Fitzjarrald, a Chief Torpedoman’s Mate with some eighteen years service, had last been in my old ship, Trigger II, where he had held the position of Chief of the Boat. (In submarines, the “Chief of the Boat” is the key enlisted man, direct assistant to the Executive Officer.) Fitzjarrald was a natural for this post, and was so assigned in Triton. In deference to her size, we promoted him a notch and made him “Chief of the Ship.”

Another old shipmate who had been Chief Fire Controlman in Trigger II, Loyd L. Garlock, was given a similar job in Triton. A third, William E. Constantine, had been in the Amberjack in 1948 and ’49.

It was heartening to have these old friends serving with me, but it was not any of my doing; the Navy cannot operate with favoritism and personal interest. The submarine force is so small (it represents only three percent of the entire US Navy—approximately the same size as the WAVES) that after a few years, one may have served with almost everyone in the force at one time or another.

I did assert myself in one case, however: Lawrence W. Beckhaus, the Gunner’s Mate who had dived from Salamonie’s deck into fifty-foot waves to rescue a man swept overboard from another ship, had since become a submariner. He also reported aboard.

Triton’s crew had begun standing watches on our ship before she was launched; and as our personnel increased, we set up additional watches, not to make more work for ourselves, but because they were necessary. There were two officers on duty at all times, one for engineering and one for the rest of the ship. There was a “below-decks” watch whose job was to patrol the interior of the unfinished ship to guard against unexpected hazards, such as flooding, fire, gas, or failing ventilation; and we set up a crew with regular watches, under the Engineering Officer, to carry out those parts of the nuclear test program which were our immediate concern. The watches went on twenty-four hours a day, seven days a week. They are going on still—and will—until Triton is decommissioned.

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