From 8c567afe2783bfc52f196ee026911075e16d98f7 Mon Sep 17 00:00:00 2001 From: wpbonelli Date: Wed, 7 Feb 2024 11:49:31 -0500 Subject: [PATCH] docs(mf6io): update mf6io markdown and tex files (#1591) * rerun mf6ivar.py to include all recent mf6io updates --- doc/mf6io/mf6ivar/md/mf6ivar.md | 4 ++-- doc/mf6io/mf6ivar/tex/gwf-disu-cell2d.dat | 4 ++-- doc/mf6io/mf6ivar/tex/gwf-disu-vertices.dat | 4 ++-- doc/mf6io/mf6ivar/tex/gwf-maw-desc.tex | 2 +- doc/mf6io/mf6ivar/tex/gwf-rcha-desc.tex | 4 ++-- doc/mf6io/mf6ivar/tex/gwt-disu-cell2d.dat | 4 ++-- doc/mf6io/mf6ivar/tex/gwt-disu-vertices.dat | 4 ++-- 7 files changed, 13 insertions(+), 13 deletions(-) diff --git a/doc/mf6io/mf6ivar/md/mf6ivar.md b/doc/mf6io/mf6ivar/md/mf6ivar.md index cb4ed9623b7..a1a6b95f5ac 100644 --- a/doc/mf6io/mf6ivar/md/mf6ivar.md +++ b/doc/mf6io/mf6ivar/md/mf6ivar.md @@ -437,7 +437,7 @@ | GWF | RCHA | OPTIONS | SAVE_FLOWS | KEYWORD | keyword to indicate that recharge flow terms will be written to the file specified with ``BUDGET FILEOUT'' in Output Control. | | GWF | RCHA | OPTIONS | TAS6 | KEYWORD | keyword to specify that record corresponds to a time-array-series file. | | GWF | RCHA | OPTIONS | FILEIN | KEYWORD | keyword to specify that an input filename is expected next. | -| GWF | RCHA | OPTIONS | TAS6_FILENAME | STRING | defines a time-array-series file defining a time-array series that can be used to assign time-varying values. See the Time-Variable Input section for instructions on using the time-array series capability. | +| GWF | RCHA | OPTIONS | TAS6_FILENAME | STRING | defines a time-array-series file defining a time-array series that can be used to assign time-varying values. See the ``Time-Variable Input'' section for instructions on using the time-array series capability. | | GWF | RCHA | OPTIONS | OBS6 | KEYWORD | keyword to specify that record corresponds to an observations file. | | GWF | RCHA | OPTIONS | OBS6_FILENAME | STRING | name of input file to define observations for the Recharge package. See the ``Observation utility'' section for instructions for preparing observation input files. Tables \ref{table:gwf-obstypetable} and \ref{table:gwt-obstypetable} lists observation type(s) supported by the Recharge package. | | GWF | RCHA | PERIOD | IPER | INTEGER | integer value specifying the starting stress period number for which the data specified in the PERIOD block apply. IPER must be less than or equal to NPER in the TDIS Package and greater than zero. The IPER value assigned to a stress period block must be greater than the IPER value assigned for the previous PERIOD block. The information specified in the PERIOD block will continue to apply for all subsequent stress periods, unless the program encounters another PERIOD block. | @@ -526,7 +526,7 @@ | GWF | MAW | CONNECTIONDATA | ICON | INTEGER | integer value that defines the GWF connection number for this multi-aquifer well connection entry. ICONN must be greater than zero and less than or equal to NGWFNODES for multi-aquifer well IFNO. | | GWF | MAW | CONNECTIONDATA | CELLID | INTEGER (NCELLDIM) | is the cell identifier, and depends on the type of grid that is used for the simulation. For a structured grid that uses the DIS input file, CELLID is the layer, row, and column. For a grid that uses the DISV input file, CELLID is the layer and CELL2D number. If the model uses the unstructured discretization (DISU) input file, CELLID is the node number for the cell. One or more screened intervals can be connected to the same CELLID if CONDEQN for a well is MEAN. The program will terminate with an error if MAW wells using SPECIFIED, THIEM, SKIN, or CUMULATIVE conductance equations have more than one connection to the same CELLID. | | GWF | MAW | CONNECTIONDATA | SCRN_TOP | DOUBLE PRECISION | value that defines the top elevation of the screen for the multi-aquifer well connection. If CONDEQN is SPECIFIED, THIEM, SKIN, or COMPOSITE, SCRN\_TOP can be any value and is set to the top of the cell. If CONDEQN is MEAN, SCRN\_TOP is set to the multi-aquifer well connection cell top if the specified value is greater than the cell top. The program will terminate with an error if the screen top is less than the screen bottom. | -| GWF | MAW | CONNECTIONDATA | SCRN_BOT | DOUBLE PRECISION | value that defines the bottom elevation of the screen for the multi-aquifer well connection. If CONDEQN is SPECIFIED, THIEM, SKIN, or COMPOSITE, SCRN\_BOT can be any value is set to the bottom of the cell. If CONDEQN is MEAN, SCRN\_BOT is set to the multi-aquifer well connection cell bottom if the specified value is less than the cell bottom. The program will terminate with an error if the screen bottom is greater than the screen top. | +| GWF | MAW | CONNECTIONDATA | SCRN_BOT | DOUBLE PRECISION | value that defines the bottom elevation of the screen for the multi-aquifer well connection. If CONDEQN is SPECIFIED, THIEM, SKIN, or COMPOSITE, SCRN\_BOT can be any value and is set to the bottom of the cell. If CONDEQN is MEAN, SCRN\_BOT is set to the multi-aquifer well connection cell bottom if the specified value is less than the cell bottom. The program will terminate with an error if the screen bottom is greater than the screen top. | | GWF | MAW | CONNECTIONDATA | HK_SKIN | DOUBLE PRECISION | value that defines the skin (filter pack) hydraulic conductivity (if CONDEQN for the multi-aquifer well is SKIN, CUMULATIVE, or MEAN) or conductance (if CONDEQN for the multi-aquifer well is SPECIFIED) for each GWF node connected to the multi-aquifer well (NGWFNODES). If CONDEQN is SPECIFIED, HK\_SKIN must be greater than or equal to zero. HK\_SKIN can be any value if CONDEQN is THIEM. Otherwise, HK\_SKIN must be greater than zero. If CONDEQN is SKIN, the contrast between the cell transmissivity (the product of geometric mean horizontal hydraulic conductivity and the cell thickness) and the well transmissivity (the product of HK\_SKIN and the screen thicknesses) must be greater than one in node CELLID or the program will terminate with an error condition; if an error condition occurs, it is suggested that the HK\_SKIN be reduced to a value less than K11 and K22 in node CELLID or the THEIM or MEAN conductance equations be used for these multi-aquifer wells. | | GWF | MAW | CONNECTIONDATA | RADIUS_SKIN | DOUBLE PRECISION | real value that defines the skin radius (filter pack radius) for the multi-aquifer well. RADIUS\_SKIN can be any value if CONDEQN is SPECIFIED or THIEM. If CONDEQN is SKIN, CUMULATIVE, or MEAN, the program will terminate with an error if RADIUS\_SKIN is less than or equal to the RADIUS for the multi-aquifer well. | | GWF | MAW | PERIOD | IPER | INTEGER | integer value specifying the starting stress period number for which the data specified in the PERIOD block apply. IPER must be less than or equal to NPER in the TDIS Package and greater than zero. The IPER value assigned to a stress period block must be greater than the IPER value assigned for the previous PERIOD block. The information specified in the PERIOD block will continue to apply for all subsequent stress periods, unless the program encounters another PERIOD block. | diff --git a/doc/mf6io/mf6ivar/tex/gwf-disu-cell2d.dat b/doc/mf6io/mf6ivar/tex/gwf-disu-cell2d.dat index 27900d67235..f6d08961367 100644 --- a/doc/mf6io/mf6ivar/tex/gwf-disu-cell2d.dat +++ b/doc/mf6io/mf6ivar/tex/gwf-disu-cell2d.dat @@ -1,5 +1,5 @@ BEGIN CELL2D + [ - - ... + ...] END CELL2D diff --git a/doc/mf6io/mf6ivar/tex/gwf-disu-vertices.dat b/doc/mf6io/mf6ivar/tex/gwf-disu-vertices.dat index 6831f23b5ff..a4bc80c5453 100644 --- a/doc/mf6io/mf6ivar/tex/gwf-disu-vertices.dat +++ b/doc/mf6io/mf6ivar/tex/gwf-disu-vertices.dat @@ -1,5 +1,5 @@ BEGIN VERTICES + [ - - ... + ...] END VERTICES diff --git a/doc/mf6io/mf6ivar/tex/gwf-maw-desc.tex b/doc/mf6io/mf6ivar/tex/gwf-maw-desc.tex index b1861a0423c..d3648dc02e9 100644 --- a/doc/mf6io/mf6ivar/tex/gwf-maw-desc.tex +++ b/doc/mf6io/mf6ivar/tex/gwf-maw-desc.tex @@ -93,7 +93,7 @@ \item \texttt{scrn\_top}---value that defines the top elevation of the screen for the multi-aquifer well connection. If CONDEQN is SPECIFIED, THIEM, SKIN, or COMPOSITE, SCRN\_TOP can be any value and is set to the top of the cell. If CONDEQN is MEAN, SCRN\_TOP is set to the multi-aquifer well connection cell top if the specified value is greater than the cell top. The program will terminate with an error if the screen top is less than the screen bottom. -\item \texttt{scrn\_bot}---value that defines the bottom elevation of the screen for the multi-aquifer well connection. If CONDEQN is SPECIFIED, THIEM, SKIN, or COMPOSITE, SCRN\_BOT can be any value is set to the bottom of the cell. If CONDEQN is MEAN, SCRN\_BOT is set to the multi-aquifer well connection cell bottom if the specified value is less than the cell bottom. The program will terminate with an error if the screen bottom is greater than the screen top. +\item \texttt{scrn\_bot}---value that defines the bottom elevation of the screen for the multi-aquifer well connection. If CONDEQN is SPECIFIED, THIEM, SKIN, or COMPOSITE, SCRN\_BOT can be any value and is set to the bottom of the cell. If CONDEQN is MEAN, SCRN\_BOT is set to the multi-aquifer well connection cell bottom if the specified value is less than the cell bottom. The program will terminate with an error if the screen bottom is greater than the screen top. \item \texttt{hk\_skin}---value that defines the skin (filter pack) hydraulic conductivity (if CONDEQN for the multi-aquifer well is SKIN, CUMULATIVE, or MEAN) or conductance (if CONDEQN for the multi-aquifer well is SPECIFIED) for each GWF node connected to the multi-aquifer well (NGWFNODES). If CONDEQN is SPECIFIED, HK\_SKIN must be greater than or equal to zero. HK\_SKIN can be any value if CONDEQN is THIEM. Otherwise, HK\_SKIN must be greater than zero. If CONDEQN is SKIN, the contrast between the cell transmissivity (the product of geometric mean horizontal hydraulic conductivity and the cell thickness) and the well transmissivity (the product of HK\_SKIN and the screen thicknesses) must be greater than one in node CELLID or the program will terminate with an error condition; if an error condition occurs, it is suggested that the HK\_SKIN be reduced to a value less than K11 and K22 in node CELLID or the THEIM or MEAN conductance equations be used for these multi-aquifer wells. diff --git a/doc/mf6io/mf6ivar/tex/gwf-rcha-desc.tex b/doc/mf6io/mf6ivar/tex/gwf-rcha-desc.tex index aab5a2209fe..a3230eee906 100644 --- a/doc/mf6io/mf6ivar/tex/gwf-rcha-desc.tex +++ b/doc/mf6io/mf6ivar/tex/gwf-rcha-desc.tex @@ -21,7 +21,7 @@ \item \texttt{FILEIN}---keyword to specify that an input filename is expected next. -\item \texttt{tas6\_filename}---defines a time-array-series file defining a time-array series that can be used to assign time-varying values. See the Time-Variable Input section for instructions on using the time-array series capability. +\item \texttt{tas6\_filename}---defines a time-array-series file defining a time-array series that can be used to assign time-varying values. See the ``Time-Variable Input'' section for instructions on using the time-array series capability. \item \texttt{OBS6}---keyword to specify that record corresponds to an observations file. @@ -35,7 +35,7 @@ \item \texttt{irch}---IRCH is the layer number that defines the layer in each vertical column where recharge is applied. If IRCH is omitted, recharge by default is applied to cells in layer 1. IRCH can only be used if READASARRAYS is specified in the OPTIONS block. If IRCH is specified, it must be specified as the first variable in the PERIOD block or MODFLOW will terminate with an error. -\item \textcolor{blue}{\texttt{recharge}---is the recharge flux rate ($LT^{-1}$). This rate is multiplied inside the program by the surface area of the cell to calculate the volumetric recharge rate. The recharge array may be defined by a time-array series (see the ``Using Time-Array Series in a Package'' section).} +\item \textcolor{blue}{\texttt{recharge}---is the recharge flux rate ($LT^{-1}$). This rate is multiplied inside the program by the surface area of the cell to calculate the volumetric recharge rate. The recharge array may be defined by a time-array series (see the "Using Time-Array Series in a Package" section).} \item \textcolor{blue}{\texttt{aux}---is an array of values for auxiliary variable aux(iaux), where iaux is a value from 1 to naux, and aux(iaux) must be listed as part of the auxiliary variables. A separate array can be specified for each auxiliary variable. If an array is not specified for an auxiliary variable, then a value of zero is assigned. If the value specified here for the auxiliary variable is the same as auxmultname, then the recharge array will be multiplied by this array.} diff --git a/doc/mf6io/mf6ivar/tex/gwt-disu-cell2d.dat b/doc/mf6io/mf6ivar/tex/gwt-disu-cell2d.dat index 27900d67235..f6d08961367 100644 --- a/doc/mf6io/mf6ivar/tex/gwt-disu-cell2d.dat +++ b/doc/mf6io/mf6ivar/tex/gwt-disu-cell2d.dat @@ -1,5 +1,5 @@ BEGIN CELL2D + [ - - ... + ...] END CELL2D diff --git a/doc/mf6io/mf6ivar/tex/gwt-disu-vertices.dat b/doc/mf6io/mf6ivar/tex/gwt-disu-vertices.dat index 6831f23b5ff..a4bc80c5453 100644 --- a/doc/mf6io/mf6ivar/tex/gwt-disu-vertices.dat +++ b/doc/mf6io/mf6ivar/tex/gwt-disu-vertices.dat @@ -1,5 +1,5 @@ BEGIN VERTICES + [ - - ... + ...] END VERTICES