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90 Matching Results
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Sodium pool fire phenomena, sodium pool fire modeling in SOFIRE II, and SOFIRE II calculations for the AFR-100
None
Date:
November 12, 2012
Creator:
Sienicki, J. J. & Moisseytsev, A. (Nuclear Engineering Division)
Object Type:
Report
System:
The UNT Digital Library
Safeguards Approaches for Very Long-Term Storage of Spent Fuel
None
Date:
October 11, 2013
Creator:
Kollar, L.; Mendez-Torres, A.; Diaz Marcano, H.; Therios, I. (Nuclear Engineering Division) Nuclear Engineering Division & Laboratory), (Savannah River National
Object Type:
Report
System:
The UNT Digital Library
Transportation Research and Analysis Computing Center (TRACC) Year 5 Quarter 4 Progress Report.
None
Date:
January 23, 2012
Creator:
Ley, H. (Energy Systems)
Object Type:
Report
System:
The UNT Digital Library
NEAMS: The Nuclear Energy Advanced Modeling and Simulation Program
None
Date:
June 17, 2013
Creator:
Bradley, K.
Object Type:
Report
System:
The UNT Digital Library
Irradiation Experiment Conceptual Design Parameters for MITR LEU U-Mo Fuel Conversion
None
Date:
July 16, 2013
Creator:
Wilson, E. H.; Newton, T. H.; Hu, L.; Dunn, F. E. (Nuclear Engineering Division) & Laboratory), (MIT Nuclear Reactor
Object Type:
Report
System:
The UNT Digital Library
Report on thermal aging effects on tensile properties of advanced austenitic steels.
None
Date:
August 23, 2012
Creator:
Li, M.; Natesan, K.; Soppet, W.K.; Listwan, J.T. & Rink, D.L. (Nuclear Engineering Division)
Object Type:
Report
System:
The UNT Digital Library
Soil carbon response to rising temperature
None
Date:
September 7, 2012
Creator:
Montz, A.; Kotamarthi, V. R. & Bellout, H.
Object Type:
Report
System:
The UNT Digital Library
Preliminary Accident Analyses for Conversion of the University of Missouri Research Reactor (MURR) from Highly-Enriched to Low-Enriched Uranium Prepared by
None
Date:
July 8, 2013
Creator:
Feldman, E. E.; Foyto, L. P.; Kutikkad, K.; McKibben, J. C.; Peters, N. J.; Stevens, J. G. et al.
Object Type:
Report
System:
The UNT Digital Library
Irradiation Experiment Conceptual Design Parameters for MURR LEU U-Mo Fuel Conversion Revision
None
Date:
June 28, 2013
Creator:
Stillman, J.; Feldman, E.; Stevens, J.; Wilson, E.; Foyto, L.; Kutikkad, K. et al.
Object Type:
Report
System:
The UNT Digital Library
Guidelines for beamline and front-end radiation shielding design at the Advanced Photon Source, rev. 4
None
Date:
November 29, 2012
Creator:
Fernandez, P. (APS Engineering Support Division)
Object Type:
Report
System:
The UNT Digital Library
Verification and validation of the PLTEMP/ANL code for thermal hydraulic analysis of experimental and test reactors
None
Date:
December 3, 2012
Creator:
Kalimullah, M.; Olson, A.O.; Feldman, E.E.; Hanan, N. & Dionne, B. (Nuclear Engineering Division)
Object Type:
Report
System:
The UNT Digital Library
NEAMS Update. Quarterly Report for October - December 2012
None
Date:
March 12, 2013
Creator:
Bradley, K.
Object Type:
Report
System:
The UNT Digital Library
Water resource assessment of geothermal resources and water use in geopressured geothermal systems.
None
Date:
March 11, 2013
Creator:
Clark, C. E.; Harto, C. B. & Troppe, W. A.
Object Type:
Report
System:
The UNT Digital Library
Verification test suite for systems analysis tools
None
Date:
February 21, 2013
Creator:
Sumner, T.; Hu, R. & Fanning, T. H. (Nuclear Engineering Division)
Object Type:
Report
System:
The UNT Digital Library
Performance analysis of Darshan 2.2.3 on the Cray XE6 platform.
None
Date:
November 15, 2012
Creator:
Carns, P.; Harms, K.; Latham, R. & Ross, R. (Mathematics and Computer Science)
Object Type:
Report
System:
The UNT Digital Library
Resolution of qualification issues for existing structural materials.
None
Date:
August 6, 2012
Creator:
Natesan, K.; Li, M.; Majumdar, S.; Nanstad, R. K. & Sham, T. -L.
Object Type:
Report
System:
The UNT Digital Library
Generation IV Nuclear Energy System Initiative; Air-Cooled Option Rccs Studies and NSTF Preparation.
None
Date:
November 20, 2012
Creator:
Lomperski, S.; Pointer, W.D.; Tzanos, C.P.; Wei, T.Y.C. & Kraus, A.R. (Nuclear Engineering Division)
Object Type:
Report
System:
The UNT Digital Library
Mechanical Stability Study
None
Date:
July 2010
Creator:
Krahn, Elizabeth O.; Hebden, Andrew S.; Vandegrift, George F.; Chung, Pei-Lun & Wang, Nien-Hwa Linda
Object Type:
Report
System:
The UNT Digital Library
MOCFE-Bone: the 3D MOC mini-application for exascale research
None
Date:
February 13, 2013
Creator:
Wolters, E. & Smith, M. (Nuclear Engineering Division)
Object Type:
Report
System:
The UNT Digital Library
Used fuel management system architecture evaluation, Fiscal Year 2012
None
Date:
February 11, 2013
Creator:
Nutt, M.; Morris, E.; Puig, F.; Carter, J.; Rodwell, P.; Delley, A. et al.
Object Type:
Report
System:
The UNT Digital Library
Vehicle Technologies Program Government Performance and Results Act (GPRA) Report for Fiscal Year 2012
The U.S. Department of Energy's Office of Energy Efficiency and Renewable Energy has defined milestones for its Vehicle Technologies Program (VTP). This report provides estimates of the benefits that would accrue from achieving these milestones relative to a base case that represents a future in which there is no VTP-supported vehicle technology development. Improvements in the fuel economy and reductions in the cost of light- and heavy-duty vehicles were estimated by using Argonne National Laboratory's Autonomie powertrain simulation software and doing some additional analysis. Argonne also estimated the fraction of the fuel economy improvements that were attributable to VTP-supported development in four 'subsystem' technology areas: batteries and electric drives, advanced combustion engines, fuels and lubricants, and materials (i.e., reducing vehicle mass, called 'lightweighting'). Oak Ridge National Laboratory's MA{sup 3}T (Market Acceptance of Advanced Automotive Technologies) tool was used to project the market penetration of light-duty vehicles, and TA Engineering's TRUCK tool was used to project the penetrations of medium- and heavy-duty trucks. Argonne's VISION transportation energy accounting model was used to estimate total fuel savings, reductions in primary energy consumption, and reductions in greenhouse gas emissions that would result from achieving VTP milestones. These projections indicate that by 2030, the …
Date:
August 10, 2012
Creator:
Ward, J.; Stephens, T. S. & Birky, A. K.
Object Type:
Report
System:
The UNT Digital Library
VARI3D & PERSENT: Perturbation and Sensitivity Analysis
None
Date:
August 26, 2013
Creator:
Smith, M. A.; Adams, C.; Yang, W. S. & Lewis, E. E. (Nuclear Engineering Division)
Object Type:
Report
System:
The UNT Digital Library
Ultra-Fast Boriding for Improved Efficiency and Reduced Emissions in Materials Processing Industries
None
Date:
November 13, 2012
Creator:
Erdemir, A.; Eryillmaz, O. & Sista, V. (Energy Systems)
Object Type:
Report
System:
The UNT Digital Library
Material and energy flows in the materials production, assembly, and end-of-life stages of the automotive lithium-ion battery life cycle
This document contains material and energy flows for lithium-ion batteries with an active cathode material of lithium manganese oxide (LiMn{sub 2}O{sub 4}). These data are incorporated into Argonne National Laboratory's Greenhouse gases, Regulated Emissions, and Energy use in Transportation (GREET) model, replacing previous data for lithium-ion batteries that are based on a nickel/cobalt/manganese (Ni/Co/Mn) cathode chemistry. To identify and determine the mass of lithium-ion battery components, we modeled batteries with LiMn{sub 2}O{sub 4} as the cathode material using Argonne's Battery Performance and Cost (BatPaC) model for hybrid electric vehicles, plug-in hybrid electric vehicles, and electric vehicles. As input for GREET, we developed new or updated data for the cathode material and the following materials that are included in its supply chain: soda ash, lime, petroleum-derived ethanol, lithium brine, and lithium carbonate. Also as input to GREET, we calculated new emission factors for equipment (kilns, dryers, and calciners) that were not previously included in the model and developed new material and energy flows for the battery electrolyte, binder, and binder solvent. Finally, we revised the data included in GREET for graphite (the anode active material), battery electronics, and battery assembly. For the first time, we incorporated energy and material flows for …
Date:
June 21, 2012
Creator:
Dunn, J.B.; Gaines, L.; Barnes, M.; Wang, M. & Sullivan, J. (Energy Systems)
Object Type:
Report
System:
The UNT Digital Library