Engineering and Physics Optimization of Breed and Burn Fast Reactor Systems; NUCLEAR ENERGY RESEARCH INITIATIVE (NERI) QUARTERLY PROGRESS REPORT
Engineering and Physics Optimization of Breed and Burn Fast Reactor Systems; NUCLEAR ENERGY RESEARCH INITIATIVE (NERI) QUARTERLY PROGRESS REPORT
This project is organized under four major tasks (each of which has two or more subtasks) with contributions among the three collaborating organizations (MIT, INEEL and ANL-West): Task A: Core Physics and Fuel Cycle; Task B: Core Thermal Hydraulics; Task C: Plant Design; Task D: Fuel Design The lead PI, Michael J. Driscoll, has consolidated and summarized the technical progress submissions provided by the contributing investigators from all sites, under the above principal task headings.
- University of North Texas United States
Optimization, Design, Progress Report, Physics, Policy And Economy, 73 Nuclear Physics And Radiation Physics, 21 Specific Nuclear Reactors And Associated Plants, Nuclear Energy, 11 Nuclear Fuel Cycle And Fuel Materials, Thermal Hydraulics Engineering And Physics Optimization Of Breed And Burn Fast Reactor Systems, Fast Reactors, 29 Energy Planning, Fuel Cycle, Nuclear, Engineering And Physics Optimization Of Breed And Burn Fast Reactor Systems
Optimization, Design, Progress Report, Physics, Policy And Economy, 73 Nuclear Physics And Radiation Physics, 21 Specific Nuclear Reactors And Associated Plants, Nuclear Energy, 11 Nuclear Fuel Cycle And Fuel Materials, Thermal Hydraulics Engineering And Physics Optimization Of Breed And Burn Fast Reactor Systems, Fast Reactors, 29 Energy Planning, Fuel Cycle, Nuclear, Engineering And Physics Optimization Of Breed And Burn Fast Reactor Systems
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