diff --git a/modules/doc/content/training/index.md b/modules/doc/content/training/index.md index c451fd48e0fc..67493df88f72 100644 --- a/modules/doc/content/training/index.md +++ b/modules/doc/content/training/index.md @@ -4,13 +4,15 @@ Upcoming MOOSE related training in chronological order: !style-end! -- [ART/NEAMS M&S Molten Salt Reactors @PHYSOR24 (2024 April 21)](more_detail/PHYSOR_MS_2024_04_21.md) -- [ART/NEAMS M&S Pebble Bed Reactors @PHYSOR24 (2024 April 21)](more_detail/PHYSOR_PB_2024_04_21.md) - [MOOSE Framework Fundamentals (2024 June 4-6, Idaho Falls)](more_detail/MOOSE_2024_06_04-06_IF.md) - [MOOSE Framework Fundamentals (2024 October 15-17, University of Illinois Urbana-Champaign)](more_detail/MOOSE_2024_10_15-17_UIUC.md) Past Training: +- ART/NEAMS M&S Molten Salt Reactors @PHYSOR24 (2024 April 21) + +- ART/NEAMS M&S Pebble Bed Reactors @PHYSOR24 (2024 April 21) + - MOOSE Framework Fundamentals (2024 April 2-4, Oregon State University) - MOOSE Solid Mechanics Workshop (2024 March 11-12, Duke University) diff --git a/modules/doc/content/training/more_detail/PHYSOR_MS_2024_04_21.md b/modules/doc/content/training/more_detail/PHYSOR_MS_2024_04_21.md deleted file mode 100644 index 1270c932eb6f..000000000000 --- a/modules/doc/content/training/more_detail/PHYSOR_MS_2024_04_21.md +++ /dev/null @@ -1,28 +0,0 @@ -#### ART/NEAMS M&S Molten Salt Reactors @PHYSOR24 April 21, 2024 - -!style! halign=left -!include training/more_detail/registration_link.md -!style-end! - -#### Course Description - -!style! halign=left -The goal of the training session is to demonstrate the application of MOOSE-based tools for coupled -neutronics – thermal-hydraulics modeling of liquid fuel molten salt reactors (MSRs). The training -session will be focused on developing a multiphysics model for a simplified model of the Molten Salt -Reactor Experiment (MSRE) by coupling neutronics based on the Griffin neutronics code, and thermal -hydraulics based on Pronghorn/SAM codes. Steady-state and a flow driven transient will be modeled -with demonstration of the delayed neutron precursor impacts. -!style-end! - -+Course Coordinator:+ Javier Ortensi - -+Course Coordinator Email:+ javier.ortensi@inl.gov - -+In-Person Venue Location:+ Hilton San Francisco Union Square - -+In-Person Course Address:+ 333 O'Farrell Street - -+City/Region:+ San Francisco - -+State/Province:+ CA diff --git a/modules/doc/content/training/more_detail/PHYSOR_PB_2024_04_21.md b/modules/doc/content/training/more_detail/PHYSOR_PB_2024_04_21.md deleted file mode 100644 index 9d7a493cf43a..000000000000 --- a/modules/doc/content/training/more_detail/PHYSOR_PB_2024_04_21.md +++ /dev/null @@ -1,32 +0,0 @@ -#### ART/NEAMS M&S Pebble Bed Reactors @PHYSOR24 April 21, 2024 - -!style! halign=left -!include training/more_detail/registration_link.md -!style-end! - -#### Course Description - -!style! halign=left -The goal of the training session is to gain familiarity modeling the running-in phase of pebble bed -reactors (PBRs) with the MOOSE-based tools Griffin and Pronghorn. Griffin includes capabilities for -neutronics and depletion calculations and provides power densities to Pronghorn. Pronghorn uses the -power densities to calculate temperatures using a porous medium flow model and user-input -thermal-hydraulic conditions as well as simplified models for the pebble bed reactor structures. -Griffin can use pregenerated multigroup libraries for cross sections or a new feature that enables -using its own cross sections generated online. This workshop will provide hands-on exercises for -online cross section generation, run-in phase modeling with Griffin, thermal-hydraulics modeling -with Pronghorn, and multiphysics running-in modeling including a control rod withdrawal event from -a non- equilibrium core. -!style-end! - -+Course Coordinator:+ Javier Ortensi - -+Course Coordinator Email:+ javier.ortensi@inl.gov - -+In-Person Venue Location:+ Hilton San Francisco Union Square - -+In-Person Course Address:+ 333 O'Farrell Street - -+City/Region:+ San Francisco - -+State/Province:+ CA