Difference between revisions of "Collection of example input files"
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| 2D BWR fuel assembly geometry | | 2D BWR fuel assembly geometry | ||
| [[2D BWR fuel assembly geometry|Serpent input file]] | | [[2D BWR fuel assembly geometry|Serpent input file]] | ||
− | | Demonstrates basic features for geometry, material and | + | | Demonstrates basic features for geometry, material and burnup |
| JLe / VTT | | JLe / VTT | ||
| 15/11/26 | | 15/11/26 | ||
Line 31: | Line 31: | ||
| JLe / VTT | | JLe / VTT | ||
| 15/11/26 | | 15/11/26 | ||
+ | |- | ||
+ | |2D 4-HEX super-cell lattice geometry | ||
+ | | [[2D 4-HEX super-cell lattice geometry|Serpent input file]] | ||
+ | | Demonstrates the use of triangular lattices derived from a hexagonal lattice | ||
+ | | AJa / VTT | ||
+ | | 2021 | ||
|} | |} | ||
== Simple burnup examples == | == Simple burnup examples == | ||
+ | {|class="wikitable" style="text-align: left;" | ||
+ | ! Description | ||
+ | ! Files | ||
+ | ! Notes | ||
+ | ! Added by | ||
+ | ! Date | ||
+ | |- | ||
+ | | 2D PWR pin-cell burnup example | ||
+ | | [[2D PWR pin-cell burnup example|Serpent input file]] | ||
+ | | Demonstrates basic burnup input | ||
+ | | JLe / VTT | ||
+ | | 15/11/30 | ||
+ | |- | ||
+ | | 2D PWR assembly burnup example | ||
+ | | [[2D PWR assembly burnup example (Serpent 1 style division)|Serpent input file]] | ||
+ | | 17x17 assembly with burnable absorber, "Serpent 1" style division into depletion zones | ||
+ | | JLe / VTT | ||
+ | | 15/11/30 | ||
+ | |- | ||
+ | | 2D PWR assembly burnup example | ||
+ | | [[2D PWR assembly burnup example (division with div-card)|Serpent input file]] | ||
+ | | 17x17 assembly with burnable absorber, division into depletion zones using the [[Input syntax manual#div (divisor definition)|div card]] | ||
+ | | JLe / VTT | ||
+ | | 15/11/30 | ||
+ | |- | ||
+ | | HTGR particle-cell burnup example | ||
+ | | [[HTGR particle-cell burnup example|Serpent input file]] | ||
+ | | Single HTGR fuel particle in an infinite lattice | ||
+ | | JLe / VTT | ||
+ | | 18/04/09 | ||
+ | |- | ||
+ | | HTGR fuel pebble burnup example | ||
+ | | [[HTGR fuel pebble burnup example|Serpent input file]] | ||
+ | | Single HTGR fuel pebble in an infinite lattice, demonstrates the explicit particle fuel model | ||
+ | | JLe / VTT | ||
+ | | 18/04/09 | ||
+ | |||
+ | |- | ||
+ | | HTGR fuel compact burnup example | ||
+ | | [[HTGR fuel compact burnup example|Serpent input file]] | ||
+ | | Single HTGR fuel compact in an infinite lattice, demonstrates the explicit particle fuel model | ||
+ | | JLe / VTT | ||
+ | | 18/04/09 | ||
+ | |} | ||
+ | |||
+ | == Group constant generation == | ||
+ | {|class="wikitable" style="text-align: left;" | ||
+ | ! Description | ||
+ | ! Files | ||
+ | ! Notes | ||
+ | ! Added by | ||
+ | ! Date | ||
+ | |- | ||
+ | | 2D PWR assembly | ||
+ | | [[Automated burnup sequence example 1#Input|Serpent input file]], [[Automated burnup sequence example 1#Output|Partial output]] | ||
+ | | Demonstrates the basic features of the automated burnup sequence with coefficient matrix | ||
+ | | JLe / VTT | ||
+ | | 16/02/21 | ||
+ | |- | ||
+ | | 2D PWR assembly | ||
+ | | [[Automated burnup sequence example 2#Input|Serpent input file]], [[Automated burnup sequence example 2#Output|Partial output]] | ||
+ | | Demonstrates the basic features of the automated burnup sequence with casematrix | ||
+ | | ARi / VTT | ||
+ | | 22/05/13 | ||
+ | |} | ||
− | == | + | == Simple transient examples == |
{|class="wikitable" style="text-align: left;" | {|class="wikitable" style="text-align: left;" | ||
! Description | ! Description | ||
Line 43: | Line 114: | ||
! Date | ! Date | ||
|- | |- | ||
− | | Pu-flattop and STACY critical experiments (PU-MET-FAST-006 and LEU-SOL-THERM-007 | + | | Infinite homogeneous LWR-like system (source generation) |
+ | | [[Infinite_homogeneous_LWR-like_reactor_transient_example#Generating_the_steady_state_source_distributions|Serpent input file]] | ||
+ | | Demonstrates the source generation for transient simulations | ||
+ | | VVa / VTT | ||
+ | | 16/05/09 | ||
+ | |- | ||
+ | | Infinite homogeneous LWR-like system (0$ transient) | ||
+ | | [[Infinite_homogeneous_LWR-like_reactor_transient_example#Time_dependent_simulation_(no_reactivity_insertion)|Serpent input file]] | ||
+ | | Demonstrates the transient simulation mode | ||
+ | | VVa / VTT | ||
+ | | 16/05/09 | ||
+ | |- | ||
+ | | Infinite homogeneous LWR-like system (0.85$ transient) | ||
+ | | [[Infinite_homogeneous_LWR-like_reactor_transient_example#Time_dependent_simulation_.280.85.24_reactivity_insertion.29|Serpent input file]] | ||
+ | | Demonstrates the transient simulation mode | ||
+ | | VVa / VTT | ||
+ | | 16/05/09 | ||
+ | |- | ||
+ | | Peach Bottom 2 3D assembly (source generation) | ||
+ | | [[3D_PWR_assembly_transient_example#Generating_the_steady_state_source_distributions|Main input file]], [[3D_PWR_assembly_transient_example#pins|Pin definition file]], [[3D_PWR_assembly_transient_example#geometry|Geometry definition file]], [[3D_PWR_assembly_transient_example#materials|Pin definition file]] | ||
+ | | Axially finite heterogeneous 3D assembly | ||
+ | | VVa / VTT | ||
+ | | 16/05/09 | ||
+ | |- | ||
+ | | Peach Bottom 2 3D assembly (0$ transient) | ||
+ | | [[3D_PWR_assembly_transient_example#Time_dependent_simulation_.28no_reactivity_insertion.29|Main input file]], [[3D_PWR_assembly_transient_example#pins|Pin definition file]], [[3D_PWR_assembly_transient_example#geometry|Geometry definition file]], [[3D_PWR_assembly_transient_example#materials|Pin definition file]] | ||
+ | | Axially finite heterogeneous 3D assembly | ||
+ | | VVa / VTT | ||
+ | | 16/05/09 | ||
+ | |} | ||
+ | |||
+ | == Miscellaneous == | ||
+ | {|class="wikitable" style="text-align: left;" | ||
+ | ! Description | ||
+ | ! Files | ||
+ | ! Notes | ||
+ | ! Added by | ||
+ | ! Date | ||
+ | |- | ||
+ | | Pu-flattop and STACY critical experiments (PU-MET-FAST-006 and LEU-SOL-THERM-007 from the ICSBEP Handbook<ref name="icsbep"/>) | ||
| [[M%26C_2013_example_inputs|Serpent and MCNP input files]] | | [[M%26C_2013_example_inputs|Serpent and MCNP input files]] | ||
| Used for demonstarting the [[Dynamic external source simulation mode|dynamic simulation mode]] introduced at the M&C 2013 conference<ref>Leppänen, J. ''"Development of a dynamic simulation mode in the Serpent 2 Monte Carlo code."'' In proc. M&C 2013, Sun Valley, ID, May 5-9, 2013.</ref> | | Used for demonstarting the [[Dynamic external source simulation mode|dynamic simulation mode]] introduced at the M&C 2013 conference<ref>Leppänen, J. ''"Development of a dynamic simulation mode in the Serpent 2 Monte Carlo code."'' In proc. M&C 2013, Sun Valley, ID, May 5-9, 2013.</ref> | ||
+ | | JLe / VTT | ||
+ | | 15/11/26 | ||
+ | |- | ||
+ | | [http://blog.nuclearsecrecy.com/2015/04/10/critical-mass/ Godiva] (HEU-MET-FAST-001 from the ICSBEP Handbook<ref name="icsbep"/>) | ||
+ | | [[Godiva_inputs|Serpent, KENO, and MCNP input files]] | ||
+ | | Simple input files for students who start to learn about Monte Carlo codes | ||
+ | | Ondrej Chvala | ||
+ | | 2016-02-23 | ||
+ | |- | ||
+ | | Monte Carlo performance benchmark<ref>Hoogenboom, E., Martin, W. and Petrovic, B. ''"Monte Carlo Performance Benchmark for Detailed Power Density Calculation in a Full Size Reactor Core."'' Rev. 1.2, OECD/NEA, 2011 (http://www.oecd-nea.org/dbprog/MonteCarloPerformanceBenchmark.htm).</ref> | ||
+ | | [[Monte Carlo performance benchmark|Serpent input file]] | ||
+ | | Simplified 3D PWR core for testing the performance of Monte Carlo codes | ||
+ | | JLe / VTT | ||
+ | | 16/03/03 | ||
|- | |- | ||
+ | |Tank filled with molten salt with natural circulation based distributions from <ref>Leppänen, J. et al. ''"Unstructured mesh based multi-physics interface for CFD code coupling in the Serpent 2 Monte Carlo code"'' In proc. PHYSOR 2014, Kyoto, Japan, Sept. 28 - Oct. 3, 2014.</ref> | ||
+ | | [[Molten salt tank with natural circulation|Serpent input files]] | ||
+ | | Simplified molten salt tank with temperature and density distributions to test the unstructured mesh based interface | ||
+ | | JLe / VTT + Manuele Aufiero | ||
+ | | 2014 | ||
+ | |- | ||
+ | | A 37 assembly SMR sized reactor core. | ||
+ | | [[Kraken SMR progression problem|Serpent input files]] | ||
+ | | A rather detailed SMR sized reactor core based on data from the BEAVRS benchmark and a core size as well as radial reflector structure from the NuScale reactor concept. | ||
+ | | ULa / VTT | ||
+ | | 2019 | ||
+ | |- | ||
+ | | HTTR full core model | ||
+ | | [[HTTR full core model|Serpent input files]] | ||
+ | | 3D model of the Japanese gas-cooled High Temperature Engineering Test Reactor (HTTR). | ||
| JLe / VTT | | JLe / VTT | ||
− | | | + | | 2020 |
+ | |- | ||
|} | |} | ||
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<ref name="icsbep">https://www.oecd-nea.org/science/wpncs/icsbep/handbook.html</ref> | <ref name="icsbep">https://www.oecd-nea.org/science/wpncs/icsbep/handbook.html</ref> | ||
</references> | </references> | ||
+ | |||
+ | [[Category:Example input files|*]] |
Latest revision as of 15:46, 11 February 2024
Contents
Simple 2D assembly geometry examples
Description | Files | Notes | Added by | Date |
---|---|---|---|---|
2D BWR fuel assembly geometry | Serpent input file | Demonstrates basic features for geometry, material and burnup | JLe / VTT | 15/11/26 |
2D CANDU fuel bundle geometry | Serpent input file | Demonstrates the circular array structure | JLe / VTT | 15/11/26 |
2D VVER-440 fuel assembly geometry | Serpent input file | Demonstrates the hexagonal lattice and calculation of flux and reaction rate spectra | JLe / VTT | 15/11/26 |
2D PWR MOX/UOX lattice geometry | Serpent input file | Demonstrates the use of two nested lattices (pins in assembly and assemblies in colorset) | JLe / VTT | 15/11/26 |
2D 4-HEX super-cell lattice geometry | Serpent input file | Demonstrates the use of triangular lattices derived from a hexagonal lattice | AJa / VTT | 2021 |
Simple burnup examples
Description | Files | Notes | Added by | Date |
---|---|---|---|---|
2D PWR pin-cell burnup example | Serpent input file | Demonstrates basic burnup input | JLe / VTT | 15/11/30 |
2D PWR assembly burnup example | Serpent input file | 17x17 assembly with burnable absorber, "Serpent 1" style division into depletion zones | JLe / VTT | 15/11/30 |
2D PWR assembly burnup example | Serpent input file | 17x17 assembly with burnable absorber, division into depletion zones using the div card | JLe / VTT | 15/11/30 |
HTGR particle-cell burnup example | Serpent input file | Single HTGR fuel particle in an infinite lattice | JLe / VTT | 18/04/09 |
HTGR fuel pebble burnup example | Serpent input file | Single HTGR fuel pebble in an infinite lattice, demonstrates the explicit particle fuel model | JLe / VTT | 18/04/09 |
HTGR fuel compact burnup example | Serpent input file | Single HTGR fuel compact in an infinite lattice, demonstrates the explicit particle fuel model | JLe / VTT | 18/04/09 |
Group constant generation
Description | Files | Notes | Added by | Date |
---|---|---|---|---|
2D PWR assembly | Serpent input file, Partial output | Demonstrates the basic features of the automated burnup sequence with coefficient matrix | JLe / VTT | 16/02/21 |
2D PWR assembly | Serpent input file, Partial output | Demonstrates the basic features of the automated burnup sequence with casematrix | ARi / VTT | 22/05/13 |
Simple transient examples
Description | Files | Notes | Added by | Date |
---|---|---|---|---|
Infinite homogeneous LWR-like system (source generation) | Serpent input file | Demonstrates the source generation for transient simulations | VVa / VTT | 16/05/09 |
Infinite homogeneous LWR-like system (0$ transient) | Serpent input file | Demonstrates the transient simulation mode | VVa / VTT | 16/05/09 |
Infinite homogeneous LWR-like system (0.85$ transient) | Serpent input file | Demonstrates the transient simulation mode | VVa / VTT | 16/05/09 |
Peach Bottom 2 3D assembly (source generation) | Main input file, Pin definition file, Geometry definition file, Pin definition file | Axially finite heterogeneous 3D assembly | VVa / VTT | 16/05/09 |
Peach Bottom 2 3D assembly (0$ transient) | Main input file, Pin definition file, Geometry definition file, Pin definition file | Axially finite heterogeneous 3D assembly | VVa / VTT | 16/05/09 |
Miscellaneous
Description | Files | Notes | Added by | Date |
---|---|---|---|---|
Pu-flattop and STACY critical experiments (PU-MET-FAST-006 and LEU-SOL-THERM-007 from the ICSBEP Handbook[1]) | Serpent and MCNP input files | Used for demonstarting the dynamic simulation mode introduced at the M&C 2013 conference[2] | JLe / VTT | 15/11/26 |
Godiva (HEU-MET-FAST-001 from the ICSBEP Handbook[1]) | Serpent, KENO, and MCNP input files | Simple input files for students who start to learn about Monte Carlo codes | Ondrej Chvala | 2016-02-23 |
Monte Carlo performance benchmark[3] | Serpent input file | Simplified 3D PWR core for testing the performance of Monte Carlo codes | JLe / VTT | 16/03/03 |
Tank filled with molten salt with natural circulation based distributions from [4] | Serpent input files | Simplified molten salt tank with temperature and density distributions to test the unstructured mesh based interface | JLe / VTT + Manuele Aufiero | 2014 |
A 37 assembly SMR sized reactor core. | Serpent input files | A rather detailed SMR sized reactor core based on data from the BEAVRS benchmark and a core size as well as radial reflector structure from the NuScale reactor concept. | ULa / VTT | 2019 |
HTTR full core model | Serpent input files | 3D model of the Japanese gas-cooled High Temperature Engineering Test Reactor (HTTR). | JLe / VTT | 2020 |
References
- ^ https://www.oecd-nea.org/science/wpncs/icsbep/handbook.html
- ^ Leppänen, J. "Development of a dynamic simulation mode in the Serpent 2 Monte Carlo code." In proc. M&C 2013, Sun Valley, ID, May 5-9, 2013.
- ^ Hoogenboom, E., Martin, W. and Petrovic, B. "Monte Carlo Performance Benchmark for Detailed Power Density Calculation in a Full Size Reactor Core." Rev. 1.2, OECD/NEA, 2011 (http://www.oecd-nea.org/dbprog/MonteCarloPerformanceBenchmark.htm).
- ^ Leppänen, J. et al. "Unstructured mesh based multi-physics interface for CFD code coupling in the Serpent 2 Monte Carlo code" In proc. PHYSOR 2014, Kyoto, Japan, Sept. 28 - Oct. 3, 2014.