Skip Ribbon Commands
Skip to main content
Sign In

 

 

An Adaptable Software Toolkit for Dynamic Human Reliability Analysis: Progress Toward HUNTER 2234747An Adaptable Software Toolkit for Dynamic Human Reliability Analysis: Progress Toward HUNTER 2, INL/EXT-21-64525, R. Boring, T. Ulrich, J. Park, T. Mortenson, J. Ahn, R. Lew, September 2021.An Adaptable Software Toolkit for Dynamic Human Reliability Analysis: Progress Toward HUNTER 2, INL/EXT-21-64525, R. Boring, T. Ulrich, J. Park, T. Mortenson, J. Ahn, R. Lew, September 2021.9/30/2021 9:21:38 PMINL/EXT-21-64525 Light Water Reactor Sustainability Program An Adaptable Software Toolkit for Dynamic Human Reliability Analysis: Progress Toward HUNTER 2 September 2021 U.S. 12https://lwrs.inl.gov/RiskInformed Safety Margin Characterization/Forms/AllItems.aspxpdfFalsepdf
Enhancement of Industry Legacy Probabilistic Risk Assessment Methods and Tools234761Enhancement of Industry Legacy Probabilistic Risk Assessment Methods and Tools, INL/EXT-21-64448, K. Vedros, R. Boring, S. Hess, J. Knudsen, S. Lawrence, D. Mandelli, A. Miller, N. Aoki, J. Park, S. Prescott, C. Smith, September 2021.Enhancement of Industry Legacy Probabilistic Risk Assessment Methods and Tools, INL/EXT-21-64448, K. Vedros, R. Boring, S. Hess, J. Knudsen, S. Lawrence, D. Mandelli, A. Miller, N. Aoki, J. Park, S. Prescott, C. Smith, September 2021.9/29/2021 8:03:58 PMU.S. Department of Energy Office of Nuclear Energy This information was prepared as an account of work sponsored by an agency of the U.S. Government The need for research to address 16https://lwrs.inl.gov/RiskInformed Safety Margin Characterization/Forms/AllItems.aspxpdfFalsepdf
Risk-Informed Multi-Physics Best-Estimate Plus Uncertainties (BEPU): Demonstration of LOCA Scenario-Based Reflood Phenomena234768Risk-Informed Multi-Physics Best-Estimate Plus Uncertainties (BEPU): Demonstration of LOCA Scenario-Based Reflood Phenomena, INL/EXT-21-64450, E. So, C. Parisi, Y. Choi, September 2021.Risk-Informed Multi-Physics Best-Estimate Plus Uncertainties (BEPU): Demonstration of LOCA Scenario-Based Reflood Phenomena, INL/EXT-21-64450, E. So, C. Parisi, Y. Choi, September 2021.9/23/2021 9:52:39 PMU.S. Department of Energy Office of Nuclear Energy This information was prepared as an account of work sponsored by an agency of the U.S. Government The LWRS Program is promoting a 12https://lwrs.inl.gov/RiskInformed Safety Margin Characterization/Forms/AllItems.aspxpdfFalsepdf
Demonstration of the Plant Fuel Reload Process Optimization for an Operating PWR234769Demonstration of the Plant Fuel Reload Process Optimization for an Operating PWR, INL/EXT-21-64549, Y. Choi, M. Abdo, D. Mandelli, A. Epiney, J. Valeri, C. Gosdin, C. Frepoli, A. Alfonsi, September 2021.Demonstration of the Plant Fuel Reload Process Optimization for an Operating PWR, INL/EXT-21-64549, Y. Choi, M. Abdo, D. Mandelli, A. Epiney, J. Valeri, C. Gosdin, C. Frepoli, A. Alfonsi, September 2021.9/29/2021 4:12:16 PMU.S. Department of Energy Office of Nuclear Energy This information was prepared as an account of work sponsored by an agency of the U.S. Government The LWRS Program is promoting a 19https://lwrs.inl.gov/RiskInformed Safety Margin Characterization/Forms/AllItems.aspxpdfFalsepdf
Technical Maturity Assessment of MOOSE-Based Tools: MASTODON, BISON and Grizzly234770Technical Maturity Assessment of MOOSE-Based Tools: MASTODON, BISON and Grizzly, INL/EXT-21-64451, Y. Choi, September 2021.Technical Maturity Assessment of MOOSE-Based Tools: MASTODON, BISON and Grizzly, INL/EXT-21-64451, Y. Choi, September 2021.9/22/2021 9:45:44 PMU.S. Department of Energy Office of Nuclear Energy This information was prepared as an account of work sponsored by an agency of the U.S. Government The LWRS Program is promoting a 10https://lwrs.inl.gov/RiskInformed Safety Margin Characterization/Forms/AllItems.aspxpdfFalsepdf
Industry Use Cases for Risk-Informed System Health and Asset Management234746Industry Use Cases for Risk-Informed System Health and Asset Management, INL-EXT-21-64377, D. Mandelli, C. Wang, M. Abdo, K. Vedros, J. Cogliati, J. Farber, A. Al Rashdan, S. Lawrence, D. Morton, I. Pova, S. Hess, C. Pope, J. Miller, S. Ercanbrack, September 2021.Industry Use Cases for Risk-Informed System Health and Asset Management, INL-EXT-21-64377, D. Mandelli, C. Wang, M. Abdo, K. Vedros, J. Cogliati, J. Farber, A. Al Rashdan, S. Lawrence, D. Morton, I. Pova, S. Hess, C. Pope, J. Miller, S. Ercanbrack, September 2021.9/29/2021 11:54:49 PMINL-EXT-21-64377 Light Water Reactor Sustainability Program Industry Use Cases for Risk-Informed System Health and Asset Management September 2021 U.S. Department of Energy 27https://lwrs.inl.gov/RiskInformed Safety Margin Characterization/Forms/AllItems.aspxpdfFalsepdf
Risk-Informed Analysis for Enhanced Resilient Nuclear Power Plant with Initiatives including ATF, FLEX, and Advanced Battery Technology234758Risk-Informed Analysis for Enhanced Resilient Nuclear Power Plant with Initiatives including ATF, FLEX, and Advanced Battery Technology INL-EXT-21-64546, S. Zhang, H. Zhang, J. Park, T. Liu, T. Ulrich, R. Boring, Z. Ma, September 2021.Risk-Informed Analysis for Enhanced Resilient Nuclear Power Plant with Initiatives including ATF, FLEX, and Advanced Battery Technology INL-EXT-21-64546, S. Zhang, H. Zhang, J. Park, T. Liu, T. Ulrich, R. Boring, Z. Ma, September 2021.9/29/2021 6:47:28 PMU.S. Department of Energy Office of Nuclear Energy This information was prepared as an account of work sponsored by an agency of the U.S. Government The purpose of the RISA Pathway 9https://lwrs.inl.gov/RiskInformed Safety Margin Characterization/Forms/AllItems.aspxpdfFalsepdf
Investigating Application of LiDAR for Nuclear Power Plants234760Investigating Application of LiDAR for Nuclear Power Plants, INL/EXT-21-64452, S. Prescott, M. Ziccarelli, E. Allen, September 2021.Investigating Application of LiDAR for Nuclear Power Plants, INL/EXT-21-64452, S. Prescott, M. Ziccarelli, E. Allen, September 2021.9/29/2021 5:37:07 PMINL/EXT-21-64452 Light Water Reactor Sustainability Program INVESTIGATING APPLICATION OF LiDAR FOR NUCLEAR POWER PLANTS September 2021 DOE Office of Nuclear EnergyDISCLAIMER This 7https://lwrs.inl.gov/RiskInformed Safety Margin Characterization/Forms/AllItems.aspxpdfFalsepdf
Quantitative Risk Analysis of High Safety [1]significant Safety-related Digital Instrumentation and Control Systems in Nuclear Power Plants using IRADIC Technology231564Quantitative Risk Analysis of High Safety [1]significant Safety-related Digital Instrumentation and Control Systems in Nuclear Power Plants using IRADIC Technology, INL/EXT-21-64039, H. bao, T. Shorthill, E Chen, H. Zhang, August 2021.Quantitative Risk Analysis of High Safety [1]significant Safety-related Digital Instrumentation and Control Systems in Nuclear Power Plants using IRADIC Technology, INL/EXT-21-64039, H. bao, T. Shorthill, E Chen, H. Zhang, August 2021.8/31/2021 3:22:07 AMU.S. Department of Energy Office of Nuclear Energy This information was prepared as an account of work sponsored by an agency of the U.S. Government Han Bao 1 , Tate Shorthill 2 48https://lwrs.inl.gov/RiskInformed Safety Margin Characterization/Forms/AllItems.aspxpdfFalsepdf
Industry Level Integrated Fire Modeling Using Fire Risk Investigation in 3D (FRI3D)231565Industry Level Integrated Fire Modeling Using Fire Risk Investigation in 3D (FRI3D), INL/EXT-21-64079, S. Prescott, R. Christian, R. Sampath, J. Biersdorf, S. Lawrence, August 2021.Industry Level Integrated Fire Modeling Using Fire Risk Investigation in 3D (FRI3D), INL/EXT-21-64079, S. Prescott, R. Christian, R. Sampath, J. Biersdorf, S. Lawrence, August 2021.8/31/2021 10:47:33 PMINL/EXT-21-604079 Light Water Reactor Sustainability Program Industry Level Integrated Fire Modeling Using Fire Risk Investigation in 3D (FRI3D) August 2021 U.S. Department of 25https://lwrs.inl.gov/RiskInformed Safety Margin Characterization/Forms/AllItems.aspxpdfFalsepdf

 
‚Äč