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1Title:  The proposed Fissile Material Cutoff Treaty (FMCT) and its potential impact on U.S. Navy nuclear propulsion programs Add
 Summary:  This Naval Postgraduate School thesis, written by Marion Burgess, Jr., examines the possible impact of the Fissile Material Cut-off Treaty (FMCT) upon the Navy's nuclear propulsion program. Burgess notes that the United States' naval nuclear reactors use enriched uranium, material that falls under the limits defined in FMCT. For a host of reasons, including verification impracticalities, the author asserts that "the United States government should not, and probably will not, endorse an FMCT that would affect the production of fissile materials for naval nuclear propulsion" (56). 
 Source:  http://www.worldcat.org/title/proposed-fissile-material-cutoff-treaty-fmct-and-its-potential-impact-on-us-navy-nuclear-propulsion-programs/oclc/610056176 
 Date:   2010 
 Subject(s):  Highly enriched uranium (HEU) | Naval Reactors 
 Type:  Text 
 Format:  PDF 
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2Title:  Department of Energy FY 2011 Congressional budget request: National Nuclear Security Administration Add
 Summary:  The fiscal year budget request for Naval Reactors, included as part of the National Nuclear Security Agency (NNSA) request. The Naval Reactors request for FY 2011 was just over $1 billion. The "Validation and Verification" section notes NNSA's role in evaluating the Naval Reactors program through its Programming, Planning, Budgeting and Evaluation (PPBE) process. Strategic areas of emphasis for FY 2011 included: Reactor plant design for the successor to the Ohio-class ballistic missile submarine; refueling of the S8G prototype, to support the development of advanced core technology; and, enhancing the spent fuel infrastructure at the Naval Reactors Facility, located at the Idaho National Laboratory. 
 Source:  http://www.cfo.doe.gov/budget/11budget/Content/Volume%201.pdf 
 Date:   2010 
 Subject(s):  Budgetary information | Naval Reactors 
 Type:  Text 
 Format:  PDF 
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3Title:  Navy Virginia (SSN-774) class attack submarine procurement: Background and issues for Congress Add
 Summary:  This Congressional Research Service report, authored by naval affairs specialist Ronald O'Rourke, describes procurement issues relating to Virginia-class attack submarines. O'Rourke describes the joint production arrangement for the Virginia class: "GD/EB builds certain parts of each boat, Newport News builds certain other parts of each boat, and the yards take turns building the reactor compartments and performing final assembly of the boats" (4). One crucial benefit of this arrangement, in the two U.S. shipyards currently qualified to build nuclear submarines, is that it "preserves both yards' ability to build submarine reactor compartments (a key capability for a submarine-construction yard) and perform submarine final-assembly work" (4). The joint arrangement is in the context of the Virginia-class program, in which submarines are "being procured at a relatively low annual rate" of 1-2 boats per year (4). The author also describes a projected shortfall in available U.S. attack submarines (the number of available submarines is expected to dip to a low of 39 in 2030) and some steps that could mitigate this shortfall, including reducing the length of shipyard construction time for Virginia-class boats from 72 to 60 months. 
 Source:  http://opencrs.com/document/RL32418/ 
 Date:   2010 
 Subject(s):  S9G | Naval Reactors 
 Type:  Text 
 Format:  PDF 
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4Title:  Occupational radiation exposure from Naval Reactors' Department of Energy facilities Add
 Summary:  This report focuses on radiation exposure at facilities managed by the Department of Energy's Office of Naval Reactors. As noted in the report, "the policy of the Naval Reactors Program is to reduce exposure to personnel from ionizing radiation associated with Naval Reactors' Department of Energy facilities to a level as low as reasonably achievable" (5). Naval Reacors "operates two Department of Energy laboratories; one Department of Energy site with two operating and one inactive prototype naval nuclear propulsion plants; one Department of Energy site that operates the Expended Core Facility (for dispositioning of naval fuel and examination of irradiated test specimens) and has three inactive prototype nuclear propulsion plants; and nuclear component engineering and procurement organizations" (1). These facilities provide support for the United States Navy's 82 combatant vessels (submarines and aircraft carriers). For the prototype plants, the major source of radiation expoure is maintenance inside the reactor compartments during shutdown periods, specifically "cobalt-60 deposited inside the [primary] piping systems" (6). The report describes the sources of exposure at other facilities, such as the Idaho National Laboratory's Expended Core Facility. It also provides information on exposure at the Shippingport Atomic Power Station, which operated from 1957 to 1982. The use of the Light Water Breeder Reactor (LWBR) core at Shippingport (the first core that successfully bred fuel in a water-cooled reactor) led to extremely high radiation exposures as the core was fabricated; this exposure, which dramatically increased total exposure in the 1974-1976 time period, is shown in figure 1. Finally, the report includes information on dosimetry devices used in the program and the training required of civilian specialists who support prototype operations. Note that the report does not include exposure information for the moored S5W training prototype plants operated by the Navy in Charleston, South Carolina. 
 Source:  http://nnsa.energy.gov/sites/default/files/nnsa/02-12-multiplefiles/NT-11-2%20FINAL.pdf 
 Date:   2010 
 Subject(s):  Health physics | Naval Reactors 
 Type:  Text 
 Format:  PDF 
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5Title:  Public scoping meeting: Environmental Impact Statement for the recapitalization of infrastructure supporting naval spent nuclear fuel handling and examination at the Idaho National Laboratory Add
 Summary:  An informational brochure that describes the Spent Fuel Handling Recapitalization Project at the Expended Core Facility. It provides an overview of ECF's operations and the importance of spent fuel processing activities to the Naval Reactors program. 
 Source:  http://www.ecfrecapitalization.us/ 
 Date:   2010 
 Subject(s):  Expended Core Facility | Naval Reactors 
 Type:  Text 
 Format:  PDF 
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6Title:  USS Nimitz in drydock Add
 Summary:  The USS Nimitz in drydock at Puget Sound Naval Shipyard, Bremerton, Washington. Two of the Nimitz's four screws are shown. The Nimitz was the second nuclear-powered carrier to be commissioned by the United States Navy. Due primarily to cost concerns, there was more than a six year gap between the commissioning of the USS Enterprise, powered by eight A2W reactors, and the keel-laying of the Nimitz, which is powered by two A4W reactors. 
 Source:  http://www.navy.mil/view_single.asp?id=96870 
 Reference:  Hewlett, Richard G., and Francis Duncan. Nuclear Navy, 1946-1962. Chicago: University of Chicago Press, 1974, page 376. 
 Date:  20 December 2010 
 Subject(s):  A4W | USS Nimitz (CVN-68) | Naval Reactors 
 Type:  Image 
 Format:  JPEG 
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7Title:  The USS George Bush underway Add
 Summary:  The USS George H.W. Bush (CVN-77) at sea in the Atlantic Ocean. The George Bush is the tenth and final Nimitz-class carrier. She is powered by two A4W reactor plants. 
 Source:  http://www.navy.mil/view_single.asp?id=95333 
 Date:  13 December 2010 
 Subject(s):  A4W | USS George H.W. Bush (CVN-77) | Naval Reactors 
 Type:  Image 
 Format:  JPEG 
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8Title:  The Eisenhower (CVN-69), second Nimitz-class carrier Add
 Summary:  The USS Dwight D. Eisenhower (CVN-69) being guided to its berth at the Norfolk Naval Shipyard. The Eisenhower is the second Nimitz-class carrier and is powered by two A4W reactors. 
 Source:  http://www.navy.mil/view_single.asp?id=91454 
 Date:  08 September 2010 
 Subject(s):  A4W | USS Dwight D. Eisenhower (CVN-69) | Naval Reactors 
 Type:  Image 
 Format:  JPEG 
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9Title:  USS Virginia arriving at Portsmouth Naval Shipyard Add
 Summary:  The USS Virginia arrives at Portsmouth Naval Shipyard for a selective restrictive availability period. The Virginia is the lead boat in its class, powered by an S9G reactor. 
 Source:  http://www.navy.mil/view_single.asp?id=91294 
 Date:  07 September 2010 
 Subject(s):  S9G | USS Virginia (SSN-774) | Naval Reactors 
 Type:  Image 
 Format:  JPEG 
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10Title:  The Enterprise and the USS George H.W. Bush Add
 Summary:  The oldest and newest nuclear-powered carriers (Enterprise/left, George H.W. Bush/right) docked at Naval Station, Norfolk, Virginia. 
 Source:  http://www.navy.mil/view_single.asp?id=94745 
 Date:  30 November 2010 
 Subject(s):  A2W | A4W | USS Enterprise (CVN-65) | USS George H.W. Bush (CVN-77) | Naval Reactors 
 Type:  Image 
 Format:  JPEG 
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