Naval ReactorsNaval Reactors (NR), which administers the Naval Nuclear Propulsion Program,[1] is an umbrella term for the U.S. government office that has comprehensive responsibility for the safe and reliable operation of the United States Navy's nuclear reactors "from womb to tomb."[2][3] A single entity, it has authority and reporting responsibilities within both the Naval Sea Systems Command (SEA 08)[4] and the National Nuclear Security Administration (NA-30).[5][6] Moreover, the Director of Naval Reactors also serves as a special assistant to the Chief of Naval Operations for Naval Nuclear Propulsion (Code N00N).[7] Naval Reactors is headed by a Navy four-star admiral. The director serves for a nominal eight-year term of office, the longest standard assignment in the U.S. military.[8][9] The program was originally created under Executive Order 12344[10] by the President Ronald Reagan, on February 1, 1982. The director was concurrently assigned as the deputy administrator for Naval Reactors for the National Nuclear Security Administration via Pub. L. 98–525 (50 U.S.C. § 2406) on October 19, 1984 in order to assist them in the research, design, development, health, and safety matters pertaining to naval nuclear propulsion plants via 42 U.S.C. § 7158. Executive Order 12344 was made a permanent federal program via Pub. L. 106–65 (text) (PDF) of October 5, 1999 (50 U.S.C. § 2511).[11] HistoryIn June 1946, the Chief of Naval Operations, Fleet Adm. Chester W. Nimitz decided to send five officers (including then Captain Hyman Rickover) and three civilians to Oak Ridge, Tennessee, to study the potential of using nuclear energy to power ships. The Navy group organized themselves under then Captain Rickover and embraced Philip Abelson's concept of a nuclear-powered submarine. [12] The consensus of the group was that the technical difficulties could be overcome, and nuclear power could be used as a means for propelling Navy ships.[13] On January 1, 1947, Congress established the Atomic Energy Commission and assigning it responsibilities for nuclear reactor plant development. Later that month, Chief of Naval Operations, Fleet Adm. Chester W. Nimitz, approved a program for the design and development of nuclear power plants in submarines. [13] As of 1947, there was only limited experience with nuclear reactors. The United States had three reactors for producing nuclear material for atomic weapons, and five small research reactors. There was no readily available knowledge on operating a reactor that would produce power in a usable form. Developing a power reactor would require new corrosion resistant metals which could sustain prolonged periods of intense radiation, thick shielding to protect personnel from radiation, and new components which would operate safely and reliably.[13][14] These problems were even more difficult for submarine application since the reactor and its associated steam plant had to fit within the confines of the comparatively small hull, and be able to withstand extreme battle shock incident to the operation of combatant ships. The propulsion plant had to be operated and maintained at sea by Naval officers and enlisted men who, although specially trained, were not physicists or scientists. Although application of nuclear power to submarines was a major challenge, it was generally recognized that success would transform submarine warfare. Submerged operation of submarines of the World War II era was limited by battery power and was measured in hours to a few days. Because nuclear fission produced heat without consuming oxygen, a true submarine was possible, one which could remain submerged and steam at sustained high speed for long periods.[13][14] Captain (later Admiral) Hyman G. Rickover quickly became the principal early advocate of nuclear marine propulsion. In February 1949 he received an assignment to the Division of Reactor Development, United States Atomic Energy Commission and then assumed control of the Navy's effort as Director of the Naval Reactors Branch in the Bureau of Ships.[15] Progress was made quickly with countless technological and engineering questions being raised, assessed, and resolved. The whole program was a prime example of what would now be called concurrent engineering with the prototype being prepared as the design progressed and construction of the first nuclear powered submarine (SSN 571 Nautilus) progressing close behind. The results were an astoundingly successful and a testament to Rickover's style of management and getting complex engineering done. The results achieved from 1949 - 1955 speak for themselves:[15]
Within seven years of its inception, the organization had moved from almost nothing to put into operation the nation's first power reactor in an astounding engineering achievement. The following four years would see three more nuclear submarines and two reactor plant prototypes operating and another seven ships and two prototypes being built. [15]To date, more reactors have been built and safely operated by the NR program than any other US program. The office was originally a joint activity of the U.S. Atomic Energy Commission (AEC) and the U.S. Navy's Bureau of Ships. When the AEC was abolished, Naval Reactors became a joint effort of the Navy and the Energy Research and Development Administration, which partly replaced the AEC. In 1977, ERDA was combined with the Federal Energy Administration to form the U.S. Department of Energy. On the Navy side of the organization, the Bureau of Ships has transitioned since the 1950s to become the Naval Sea Systems Command (NAVSEA), within which NR is Code 08, usually abbreviated NAVSEA 08 or SEA 08. Admiral Rickover parlayed an impressive personal publicity effort and intensive links with the United States Congress into an unprecedented tenure as head of Naval Reactors whereby he could not be relieved by conventional military procedures.[16] He was promoted, partially as a result of Congressional involvement, until he reached the rank of full Admiral and held the position for over 30 years from 1949 to February 1, 1982 (when he was retired). The history of nuclear propulsion and Rickover's influence and involvement is substantial. Due to the importance and impact of nuclear power, the AEC commissioned the creation of two related historical records to capture important facts of both naval nuclear propulsion and the Shippingport commercial reactor. Both of these official documents necessarily contain a good deal of information on Rickover's choices, methods and technical philosophy in the development of practical nuclear power, but are not biographies. While Rickover cooperated to provide real-time access to facilities, people and records, according to the authors he did not edit; Rickover was in-fact deceased before the second document was completed. These are: (1) Nuclear Navy, 1946-1962 by AEC staff historians Richard G. Hewlett and Francis Duncan, and (2) Rickover and the Nuclear Navy: The Discipline of Technology by Francis Duncan.[15] The AEC makes both of these documents directly available to the public in digital form. Management and personnel principlesMany books (including those referenced below) and articles have been written about core NR management principles such as attention to detail and adherence to rigidly-defined standards and specifications, as well as the organization's unique (for government) personnel practices. NR staff and alumni (including Admiral Rickover himself) have often been called by Congress, the President and other government agencies to provide expert opinion and management support to other important government programs, most notably the large scale reviews following the destruction of the Space Shuttles Columbia and Challenger. NR alumni have also founded or led numerous corporate and industrial organizations, for example MPR Associates, Inc. [1], founded by three of Admiral Rickover's leading technical managers in NR's early days. Program elements
List of directorsThe Director of Naval Reactors also concurrently serves as a Deputy Administrator of the National Nuclear Security Administration.[11]
Notes
References
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