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Author: Publisher: ISBN: Category : Languages : en Pages :
Book Description
The Plutonium Immobilization Project (PIP) is one of several fissile materials disposition projects managed by the Department of Energy (DOE) Office of Fissile Materials Disposition (OFMD). The PIP is expected to evolve from the current Development and Testing (D and T) effort, to design, to construction, and finally to operations. Overall management and technical management of the D and T effort resides at the Lead Laboratory, Lawrence Livermore National Laboratory (LLNL), through the LLNL Manager, Fissile Materials Disposition Program (FMDP). Day to day project activities are managed by the D and T Technical Project Office (TPO), which reports to the LLNL Manager, FMDP. The D and T TPO consists of the Technical Manager, the TPO Quality Assurance (QA) Program Manager, and TPO Planning and Support Staff. This Quality Assurance Program Description (QAPD) defines the QA policies and controls that will be implemented by these TPO personnel in their management of D and T activities. This QAPD is consistent with and responsive to the Department of Energy Fissile Materials Disposition Program Quality Assurance Requirements Document (FMDP QARD). As the Project and upper level requirement's documents evolve, this QAPD will be updated as necessary to accurately define and describe the QA Program and Management of the PIP. The TPO has a policy that all development and testing activities be planned, performed and assessed in accordance with its customer's requirements, needs and expectations, and with a commitment to excellence and continuous improvement. The TPO QAPD describes implementation requirements which, when completed, will ensure that the project development and testing activities conform to the appropriate QA requirements. For the program to be effective, the TPO QA Program Manager will ensure that each site participating in D and T activities has developed a QAPD, which meets the customer's requirements, and has a designated quality leader in place. These customer requirements, needs, and expectations are defined in the FMDP QARD. Compliance with the TPO QAPD and procedures will ensure that our D and T deliverables meet the high standards of quality expected by the Department of Energy.
Author: Publisher: ISBN: Category : Languages : en Pages :
Book Description
The Plutonium Immobilization Project (PIP) is one of several fissile materials disposition projects managed by the Department of Energy (DOE) Office of Fissile Materials Disposition (OFMD). The PIP is expected to evolve from the current Development and Testing (D and T) effort, to design, to construction, and finally to operations. Overall management and technical management of the D and T effort resides at the Lead Laboratory, Lawrence Livermore National Laboratory (LLNL), through the LLNL Manager, Fissile Materials Disposition Program (FMDP). Day to day project activities are managed by the D and T Technical Project Office (TPO), which reports to the LLNL Manager, FMDP. The D and T TPO consists of the Technical Manager, the TPO Quality Assurance (QA) Program Manager, and TPO Planning and Support Staff. This Quality Assurance Program Description (QAPD) defines the QA policies and controls that will be implemented by these TPO personnel in their management of D and T activities. This QAPD is consistent with and responsive to the Department of Energy Fissile Materials Disposition Program Quality Assurance Requirements Document (FMDP QARD). As the Project and upper level requirement's documents evolve, this QAPD will be updated as necessary to accurately define and describe the QA Program and Management of the PIP. The TPO has a policy that all development and testing activities be planned, performed and assessed in accordance with its customer's requirements, needs and expectations, and with a commitment to excellence and continuous improvement. The TPO QAPD describes implementation requirements which, when completed, will ensure that the project development and testing activities conform to the appropriate QA requirements. For the program to be effective, the TPO QA Program Manager will ensure that each site participating in D and T activities has developed a QAPD, which meets the customer's requirements, and has a designated quality leader in place. These customer requirements, needs, and expectations are defined in the FMDP QARD. Compliance with the TPO QAPD and procedures will ensure that our D and T deliverables meet the high standards of quality expected by the Department of Energy.
Author: Publisher: ISBN: Category : Languages : en Pages :
Book Description
''The quality assurance activity involves the establishment and implementation of the Quality Assurance Program and the development of a Quality Assurance Plan and Procedures. Quality Assurance provides the plans, procedures and controls that are required for repository acceptance and the immobilization plant licensing and design activities.'' The Plutonium Immobilization Project (PIP) has a policy that all development, testing and operational activities be planned and performed in accordance with its customer's needs and expectations, and with a commitment to excellence and continuous improvement. The Immobilization Development and Testing (D & T) Quality Assurance Program establishes implementation requirements which, when completed, will ensure that the program development and test activities conform to the appropriate QA requirements. In order for the program to be effective, a designated quality lead must be in place at the Project Office and each participating site.
Author: Publisher: ISBN: Category : Languages : en Pages : 5
Book Description
The Plutonium Immobilization Project (PIP) is a program funded by the U.S. Department of Energy to develop technology for dispositioning excess weapons grade plutonium. This program introduces the ''Can-in-Canister'' (CIC) technology that immobilizes the plutonium by encapsulating it in ceramic forms (or pucks) and ultimately surrounding it with high-level waste glass to provide a deterrent to recovery. A cold (non-radioactive) test program was conducted to develop and verify the baseline design for the canister and internal hardware. Tests were conducted in two phases. Phase 1 Cold Pour Tests, conducted in 1999, were scoping tests. This paper describes the Phase 2 tests conducted in 2000 which verified the adequacy of the baseline CIC design and assured that the system would meet repository quality assurance requirements.
Author: Publisher: ISBN: Category : Languages : en Pages :
Book Description
This integrated plan for the DOE Office of Fissile Materials Disposition describes the technology development and major project activities necessary to support the deployment of the immobilization approach for disposition of surplus weapons-usable plutonium. The plan describes details of the development and testing tasks needed to provide technical data for design and operation of a plutonium immobilization plant based on the ceramic can-in-canister technology. The plan also presents tasks for characterization and performance testing of the immobilization form to support a repository licensing application and to develop the basis for repository acceptance of the plutonium form. Essential elements of the plant project (design, construction, facility activation, etc.) are described, but not developed in detail, to indicate how the test results tie into the overall plant project. Given the importance of repository acceptance, specific activities to be conducted by the Office of Civilian Radioactive Waste Management to incorporate the plutonium form in the repository licensing application are provided in this document, together with a summary of how immobilization activities provide input to the license activity and waste qualification. The ultimate goal of the immobilization project is to develop, construct, and operate facilities that will immobilize from about 18 to 50 tonnes of US surplus plutonium materials in a manner that meets the ''spent fuel'' standard and is acceptable for disposal in a geologic repository. The can-in-canister technology is accomplished by encapsulating the plutonium-containing ceramic forms within large canisters of high level waste glass.
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