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ver-1d and ver-1ja clean up prompted by ver-1jb case development
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(Close. #145)
(Ref. #12)
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simopier committed Oct 15, 2024
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2 changes: 1 addition & 1 deletion doc/content/verification_and_validation/ver-1d.md
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Expand Up @@ -16,7 +16,7 @@ This verification problem is taken from [!cite](longhurst1992verification). It m
\end{equation}
and
\begin{equation}
C_T^{empty} = (C_{T0} \cdot N - \text{trap\_per\_free} \cdot C_T ) ,
C_T^{empty} = C_{T0} \cdot N - \text{trap\_per\_free} \cdot C_T ,
\end{equation}
where $C_M$ and $C_T$ are the concentrations of the mobile and trapped species respectively, $D$ is the diffusivity of the mobile species, $\alpha_t$ and $\alpha_r$ are the trapping and release rate coefficients, $\text{trap\_per\_free}$ is a factor converting the magnitude of $C_T$ to be closer to $C_M$ for better numerical convergence, $C_{T0}$ is the fraction of host sites that can contribute to trapping, $C_T^{empty}$ is the concentration of empty trapping sites, and $N$ is the host density.

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6 changes: 3 additions & 3 deletions doc/content/verification_and_validation/ver-1ja.md
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# ver-1ja

Two problems (ver-1ja and [ver-1jb](ver-1jb.md)) demonstrate tritium decay, though any other isotope could have been chosen.
The first (ver-1ja) is simple decay of mobile species in a slab.
The second ([ver-1jb](ver-1jb.md)) is decay of trapped atoms in a similar slab but with a distributed trap concentration.
The first (ver-1ja) models simple decay of mobile species in a slab.
The second ([ver-1jb](ver-1jb.md)) models decay of trapped atoms in a similar slab but with a distributed trap concentration.
This page presents ver-1ja.

# Radioactive Decay of Mobile Tritium in a Slab
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### Input file

!style halign=left
The input file for this case can be found at [/ver-1ja.i].
The input file for this case can be found at [/ver-1ja.i], which is also used as test in TMAP8 at [/ver-1ja/tests].

!bibtex bibliography
1 change: 0 additions & 1 deletion test/tests/ver-1ja/comparison_ver-1ja.py
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from matplotlib import gridspec
import pandas as pd
import os
from numpy import sin,tan,sqrt,exp

# Changes working directory to script directory (for consistent MooseDocs usage)
script_folder = os.path.dirname(__file__)
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4 changes: 2 additions & 2 deletions test/tests/ver-1ja/tests
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[Tests]
design = 'ver-1ja.md'
design = 'ver-1ja.md MatReaction.md'
verification = 'ver-1ja.md'
issues = '#145'
issues = '#145 #12'
[ver-1ja_csvdiff]
type = CSVDiff
input = ver-1ja.i
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2 changes: 1 addition & 1 deletion test/tests/ver-1ja/ver-1ja.i
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# Verification Problem #1a from TMAP7 V&V document
# Verification Problem #1ja from TMAP7 V&V document
# Radioactive Decay of Mobile Tritium in a Slab

# Case and model parameters (adapted from TMAP7)
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