From f3833f4d63a0f9dd5970d5e8182a75fa82aa988b Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?H=C3=A5kon=20H=C3=A6gland?= Date: Fri, 24 Jan 2025 11:18:41 +0100 Subject: [PATCH] Updated URIs in chapter 7.3 --- parts/chapters/subsections/7.3/ADD.fodt | 2 +- parts/chapters/subsections/7.3/ADDREG.fodt | 2 +- parts/chapters/subsections/7.3/BOUNDARY.fodt | 2 +- parts/chapters/subsections/7.3/BOX.fodt | 2 +- parts/chapters/subsections/7.3/COLUMNS.fodt | 2 +- parts/chapters/subsections/7.3/COPY.fodt | 2 +- parts/chapters/subsections/7.3/COPYREG.fodt | 2 +- parts/chapters/subsections/7.3/DEPTH.fodt | 6 +++--- parts/chapters/subsections/7.3/ECHO.fodt | 2 +- parts/chapters/subsections/7.3/EDITNNC.fodt | 2 +- parts/chapters/subsections/7.3/EDITNNCR.fodt | 2 +- parts/chapters/subsections/7.3/END.fodt | 2 +- parts/chapters/subsections/7.3/ENDBOX.fodt | 2 +- parts/chapters/subsections/7.3/ENDINC.fodt | 2 +- parts/chapters/subsections/7.3/ENDSKIP.fodt | 2 +- parts/chapters/subsections/7.3/EQUALREG.fodt | 2 +- parts/chapters/subsections/7.3/EQUALS.fodt | 2 +- parts/chapters/subsections/7.3/EXTRAPMS.fodt | 2 +- parts/chapters/subsections/7.3/FILEUNIT.fodt | 2 +- parts/chapters/subsections/7.3/FORMFEED.fodt | 2 +- parts/chapters/subsections/7.3/GETDATA.fodt | 2 +- parts/chapters/subsections/7.3/HMMULT.fodt | 16 ++++++++-------- parts/chapters/subsections/7.3/IMPORT.fodt | 2 +- parts/chapters/subsections/7.3/INCLUDE.fodt | 2 +- parts/chapters/subsections/7.3/LGRCOPY.fodt | 2 +- parts/chapters/subsections/7.3/MAXVALUE.fodt | 2 +- parts/chapters/subsections/7.3/MESSAGE.fodt | 2 +- parts/chapters/subsections/7.3/MESSAGES.fodt | 2 +- parts/chapters/subsections/7.3/MINVALUE.fodt | 2 +- parts/chapters/subsections/7.3/MULTFLT.fodt | 2 +- parts/chapters/subsections/7.3/MULTIPLY.fodt | 2 +- parts/chapters/subsections/7.3/MULTIREG.fodt | 2 +- parts/chapters/subsections/7.3/MULTPV.fodt | 2 +- parts/chapters/subsections/7.3/MULTR-.fodt | 2 +- parts/chapters/subsections/7.3/MULTR.fodt | 2 +- parts/chapters/subsections/7.3/MULTREGD.fodt | 2 +- parts/chapters/subsections/7.3/MULTREGH.fodt | 2 +- parts/chapters/subsections/7.3/MULTREGP.fodt | 2 +- parts/chapters/subsections/7.3/MULTREGT.fodt | 2 +- parts/chapters/subsections/7.3/MULTTHT-.fodt | 2 +- parts/chapters/subsections/7.3/MULTTHT.fodt | 2 +- parts/chapters/subsections/7.3/MULTX-.fodt | 2 +- parts/chapters/subsections/7.3/MULTX.fodt | 2 +- parts/chapters/subsections/7.3/MULTY-.fodt | 2 +- parts/chapters/subsections/7.3/MULTY.fodt | 2 +- parts/chapters/subsections/7.3/MULTZ-.fodt | 2 +- parts/chapters/subsections/7.3/MULTZ.fodt | 2 +- parts/chapters/subsections/7.3/NOECHO.fodt | 2 +- parts/chapters/subsections/7.3/NOWARN.fodt | 2 +- parts/chapters/subsections/7.3/OPERATE.fodt | 2 +- parts/chapters/subsections/7.3/OPERATER.fodt | 2 +- parts/chapters/subsections/7.3/PORV.fodt | 8 ++++---- parts/chapters/subsections/7.3/PYEND.fodt | 2 +- parts/chapters/subsections/7.3/PYINPUT.fodt | 2 +- parts/chapters/subsections/7.3/REFINE.fodt | 2 +- parts/chapters/subsections/7.3/SKIP.fodt | 2 +- parts/chapters/subsections/7.3/SKIP100.fodt | 2 +- parts/chapters/subsections/7.3/SKIP300.fodt | 2 +- parts/chapters/subsections/7.3/TRANR.fodt | 4 ++-- parts/chapters/subsections/7.3/TRANTHT.fodt | 4 ++-- parts/chapters/subsections/7.3/TRANX.fodt | 4 ++-- parts/chapters/subsections/7.3/TRANY.fodt | 4 ++-- parts/chapters/subsections/7.3/TRANZ.fodt | 4 ++-- parts/chapters/subsections/7.3/WARN.fodt | 2 +- 64 files changed, 81 insertions(+), 81 deletions(-) diff --git a/parts/chapters/subsections/7.3/ADD.fodt b/parts/chapters/subsections/7.3/ADD.fodt index afccc07c..067b046f 100644 --- a/parts/chapters/subsections/7.3/ADD.fodt +++ b/parts/chapters/subsections/7.3/ADD.fodt @@ -3992,7 +3992,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. ADD – Add a Constant to a Specified Array - The ADD keyword adds a constant to a specified array or part of an array. The constant can be real or integer depending on the array type; however, the arrays that can be operated on is dependent on which section the ADD keyword is being applied. + The ADD keyword adds a constant to a specified array or part of an array. The constant can be real or integer depending on the array type; however, the arrays that can be operated on is dependent on which section the ADD keyword is being applied. See ADD – Add a Constant to a Specified Arrayin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/ADDREG.fodt b/parts/chapters/subsections/7.3/ADDREG.fodt index d72d79e2..33b70516 100644 --- a/parts/chapters/subsections/7.3/ADDREG.fodt +++ b/parts/chapters/subsections/7.3/ADDREG.fodt @@ -3992,7 +3992,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. ADDREG – Add a Constant to an Array based on a Region Number - The ADDREG keyword adds a constant to a specified array or part of an array based on cells with a specific region number. The region number array can be FLUXNUM, MULTNUM or OPERNUM and these arrays must be defined and be available before the ADDREG keyword is read by the simulator. The constant can be real or integer depending on the property array type; however, the property arrays that can be operated on is dependent on which section the ADDREG keyword is being used. + The ADDREG keyword adds a constant to a specified array or part of an array based on cells with a specific region number. The region number array can be FLUXNUM, MULTNUM or OPERNUM and these arrays must be defined and be available before the ADDREG keyword is read by the simulator. The constant can be real or integer depending on the property array type; however, the property arrays that can be operated on is dependent on which section the ADDREG keyword is being used. See ADDREG – Add a Constant to an Array based on a Region Numberin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/BOUNDARY.fodt b/parts/chapters/subsections/7.3/BOUNDARY.fodt index bb61b61d..284d1212 100644 --- a/parts/chapters/subsections/7.3/BOUNDARY.fodt +++ b/parts/chapters/subsections/7.3/BOUNDARY.fodt @@ -3995,7 +3995,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. BOUNDARY – Define a Boundary Box for Printing - The BOUNDARY keyword defines a rectangular grid for printing various arrays to the output print file (*.PRT); thus, avoiding printing all the elements in the selected array. + The BOUNDARY keyword defines a rectangular grid for printing various arrays to the output print file (*.PRT); thus, avoiding printing all the elements in the selected array. See BOUNDARY – Define a Boundary Box for Printingin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/BOX.fodt b/parts/chapters/subsections/7.3/BOX.fodt index 6015a99f..166d9c93 100644 --- a/parts/chapters/subsections/7.3/BOX.fodt +++ b/parts/chapters/subsections/7.3/BOX.fodt @@ -3995,7 +3995,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. BOX - Define a Range of Grid Blocks to Enter Property Data - BOX defines a range of grid blocks for which subsequent data is assigned for all the cells in the defined BOX. Note that the BOX grid is reset by the keyword ENDBOX by resetting the current defined BOX to be the whole grid. The keyword can be used for any array and for all grid types. + BOX defines a range of grid blocks for which subsequent data is assigned for all the cells in the defined BOX. Note that the BOX grid is reset by the keyword ENDBOX by resetting the current defined BOX to be the whole grid. The keyword can be used for any array and for all grid types. See BOX - Define a Range of Grid Blocks to Enter Property Datain the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/COLUMNS.fodt b/parts/chapters/subsections/7.3/COLUMNS.fodt index 08e058bd..c1b16c73 100644 --- a/parts/chapters/subsections/7.3/COLUMNS.fodt +++ b/parts/chapters/subsections/7.3/COLUMNS.fodt @@ -4001,7 +4001,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. COLUMNS – Define Input File Column Margins - The COLUMNS keyword defines the input file column margins; characters outside the margins are ignored by the input parser. + The COLUMNS keyword defines the input file column margins; characters outside the margins are ignored by the input parser. See COLUMNS – Define Input File Column Marginsin the GLOBAL section for a full description. diff --git a/parts/chapters/subsections/7.3/COPY.fodt b/parts/chapters/subsections/7.3/COPY.fodt index 491571d5..18eb1f30 100644 --- a/parts/chapters/subsections/7.3/COPY.fodt +++ b/parts/chapters/subsections/7.3/COPY.fodt @@ -3995,7 +3995,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. COPY – Copy Array Data to Another Array - The COPY keyword copies an array (or part of an array) to another array or part of an array. The arrays can be real or integer depending on the array type; however, the arrays that can be operated on is dependent on which section the COPY keyword is being used. + The COPY keyword copies an array (or part of an array) to another array or part of an array. The arrays can be real or integer depending on the array type; however, the arrays that can be operated on is dependent on which section the COPY keyword is being used. See COPY – Copy Array Data to Another Arrayin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/COPYREG.fodt b/parts/chapters/subsections/7.3/COPYREG.fodt index dbfe5f57..33ce4bae 100644 --- a/parts/chapters/subsections/7.3/COPYREG.fodt +++ b/parts/chapters/subsections/7.3/COPYREG.fodt @@ -3995,7 +3995,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. COPYREG – Copy an Array to Another Array based on a Region Number - The COPYREG keyword copies a specified array or part of an array based on cells with a specific region number to another array. The region number array can be FLUXNUM, MULTNUM or OPERNUM and these arrays must be defined and be available before the COPYREG keyword is read by the simulator. The property arrays can be real or integer depending on the property array type; however, the property arrays that can be operated on is dependent on which section the COPYREG keyword is being used. + The COPYREG keyword copies a specified array or part of an array based on cells with a specific region number to another array. The region number array can be FLUXNUM, MULTNUM or OPERNUM and these arrays must be defined and be available before the COPYREG keyword is read by the simulator. The property arrays can be real or integer depending on the property array type; however, the property arrays that can be operated on is dependent on which section the COPYREG keyword is being used. See COPYREG – Copy an Array to Another Array based on a Region Numberin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/DEPTH.fodt b/parts/chapters/subsections/7.3/DEPTH.fodt index 6ba19b90..5ff1c1ce 100644 --- a/parts/chapters/subsections/7.3/DEPTH.fodt +++ b/parts/chapters/subsections/7.3/DEPTH.fodt @@ -4225,7 +4225,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. Description - The DEPTH keywords modifies the depth at the center of selected cells in the model. The cells DEPTH are calculated by OPM Flow at the end of the GRID section and this keyword allows the user to adjust the calculated depths in the EDIT section. The area to be modified can be defined via the various grid selection keywords, ADD, BOX, EQUALS, etc., and areas that are not selected remain unchanged. + The DEPTH keywords modifies the depth at the center of selected cells in the model. The cells DEPTH are calculated by OPM Flow at the end of the GRID section and this keyword allows the user to adjust the calculated depths in the EDIT section. The area to be modified can be defined via the various grid selection keywords, ADD, BOX, EQUALS, etc., and areas that are not selected remain unchanged. @@ -4270,7 +4270,7 @@ Updated with AFR/TSA Rev-D comments and new keywords.DEPTH - DEPTH is an array of real numbers defining the depth at the center of each cell in the model. Only the values in the currently defined input BOX needed be entered. + DEPTH is an array of real numbers defining the depth at the center of each cell in the model. Only the values in the currently defined input BOX needed be entered. Repeat counts may be used, for example 30*5201.0. @@ -4331,7 +4331,7 @@ Updated with AFR/TSA Rev-D comments and new keywords.-- ENDBOX - Alternatively the EQUALS keyword can be used to perform the same edit. + Alternatively the EQUALS keyword can be used to perform the same edit. -- -- ARRAY CONSTANT ---------- BOX --------- -- I1 I2 J1 J2 K1 K2 diff --git a/parts/chapters/subsections/7.3/ECHO.fodt b/parts/chapters/subsections/7.3/ECHO.fodt index a1e5aea3..960e8a3e 100644 --- a/parts/chapters/subsections/7.3/ECHO.fodt +++ b/parts/chapters/subsections/7.3/ECHO.fodt @@ -4002,7 +4002,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. ECHO – Activate Echoing of User Input Files to the Print File - Turns on echoing of all the input files to the print file; note that this keyword is activated by default and can subsequently be switched off by the NOECHO activation keyword. + Turns on echoing of all the input files to the print file; note that this keyword is activated by default and can subsequently be switched off by the NOECHO activation keyword. See ECHO – Activate Echoing of User Input Files to the Print Filein the GLOBAL section for a full description. diff --git a/parts/chapters/subsections/7.3/EDITNNC.fodt b/parts/chapters/subsections/7.3/EDITNNC.fodt index fc8fae24..d29e1e7e 100644 --- a/parts/chapters/subsections/7.3/EDITNNC.fodt +++ b/parts/chapters/subsections/7.3/EDITNNC.fodt @@ -4684,7 +4684,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. Note that although items (8) to (14) for this keyword are not available in OPM Flow, even if they were, it is strongly recommended that these items are defaulted if the data is being entered manually, as opposed to being generated by pre-processing software. Care should be taken that cells in different PVTNUM regions (see the PVTNUM keyword in the REGIONS section) are not connected, since the fluid properties are associated with a cell. If for example, a rbbl or a rm3 of oil flows from PVTNUM region 1 to PVTNUM region 2, then the oil properties of that oil will change from the PVT 1 data set to the PVT data set 2. This will result in material balance errors, that may or may not cause numerical issues. - If the transmissibility across a fault needs to be modified see the FAULTS and MULTFLT keywords in the GRID section for an alternative and less complicated method to modifying fault transmissibilities. Transmissibility between reservoir regions can be modified by using MULTREGT keyword, provided MULTNUM has been used to define the inter-region transmissibility region numbers for each grid block. Finally, the MULTX, MULTY and MULTZ series of keywords can be used to modify transmissibility between various cells. All the aforementioned keywords are described in the GRID section. + If the transmissibility across a fault needs to be modified see the FAULTS and MULTFLT keywords in the GRID section for an alternative and less complicated method to modifying fault transmissibilities. Transmissibility between reservoir regions can be modified by using MULTREGT keyword, provided MULTNUM has been used to define the inter-region transmissibility region numbers for each grid block. Finally, the MULTX, MULTY and MULTZ series of keywords can be used to modify transmissibility between various cells. All the aforementioned keywords are described in the GRID section. See also the EDITNNCR keyword in the EDIT section that resets an existing NNC to a user defined value. Example -- diff --git a/parts/chapters/subsections/7.3/EDITNNCR.fodt b/parts/chapters/subsections/7.3/EDITNNCR.fodt index f53bfd2e..3727eaba 100644 --- a/parts/chapters/subsections/7.3/EDITNNCR.fodt +++ b/parts/chapters/subsections/7.3/EDITNNCR.fodt @@ -4628,7 +4628,7 @@ Updated with AFR/TSA Rev-D comments and new keywords.Table 7.4: EDITNNCR Keyword Description Note that although items (8) to (14) for this keyword are not available in OPM Flow, even if they were, it is strongly recommended that these items are defaulted if the data is being entered manually, as opposed to being generated by pre-processing software. - If the transmissibility across a fault needs to be modified see the FAULTS and MULTFLT keywords in the GRID section for an alternative and less complicated method to modifying fault transmissibilities. Transmissibility between reservoir regions can be modified by using MULTREGT keyword, provided MULTNUM has been used to define the inter-region transmissibility region numbers for each grid block. Finally, the MULTX, MULTY and MULTZ series of keywords can be used to modify transmissibility between various cells. All the aforementioned keywords are described in the GRID section. + If the transmissibility across a fault needs to be modified see the FAULTS and MULTFLT keywords in the GRID section for an alternative and less complicated method to modifying fault transmissibilities. Transmissibility between reservoir regions can be modified by using MULTREGT keyword, provided MULTNUM has been used to define the inter-region transmissibility region numbers for each grid block. Finally, the MULTX, MULTY and MULTZ series of keywords can be used to modify transmissibility between various cells. All the aforementioned keywords are described in the GRID section. Example -- diff --git a/parts/chapters/subsections/7.3/END.fodt b/parts/chapters/subsections/7.3/END.fodt index 04439a56..8bd8b07a 100644 --- a/parts/chapters/subsections/7.3/END.fodt +++ b/parts/chapters/subsections/7.3/END.fodt @@ -4002,7 +4002,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. END – Define the End of the Input File - This keyword marks the end of the input file and can occur in any section. Any keywords and data after the END keyword are ignored. + This keyword marks the end of the input file and can occur in any section. Any keywords and data after the END keyword are ignored. See END – Define the End of the Input Filein the GLOBAL section for a full description. diff --git a/parts/chapters/subsections/7.3/ENDBOX.fodt b/parts/chapters/subsections/7.3/ENDBOX.fodt index 4a23aa52..99fa4c89 100644 --- a/parts/chapters/subsections/7.3/ENDBOX.fodt +++ b/parts/chapters/subsections/7.3/ENDBOX.fodt @@ -3995,7 +3995,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. ENDBOX – Define the End of the BOX Defined Grid - This keyword marks the end of a previously defined BOX sub-grid as defined by a previously entered BOX keyword. The keyword resets the input grid to be the full grid as defined by the NX, NY, and NZ variables on the DIMENS keyword in the RUNSPEC section. + This keyword marks the end of a previously defined BOX sub-grid as defined by a previously entered BOX keyword. The keyword resets the input grid to be the full grid as defined by the NX, NY, and NZ variables on the DIMENS keyword in the RUNSPEC section. See ENDBOX – Define the End of the BOX Defined Gridin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/ENDINC.fodt b/parts/chapters/subsections/7.3/ENDINC.fodt index 3d953432..f3fe2c8c 100644 --- a/parts/chapters/subsections/7.3/ENDINC.fodt +++ b/parts/chapters/subsections/7.3/ENDINC.fodt @@ -4001,7 +4001,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. ENDINC – Define the End of an Include File - This keyword marks the end of an include file specified on the INCLUDE keyword. When the ENDINC keyword is encountered in the INCLUDE file, input data is read from the next keyword in the current file. Any keywords and data after the ENDINC keyword in the INCLUDE file are ignored. + This keyword marks the end of an include file specified on the INCLUDE keyword. When the ENDINC keyword is encountered in the INCLUDE file, input data is read from the next keyword in the current file. Any keywords and data after the ENDINC keyword in the INCLUDE file are ignored. See ENDINC – Define the End of an Include Filein the GLOBAL section for a full description. diff --git a/parts/chapters/subsections/7.3/ENDSKIP.fodt b/parts/chapters/subsections/7.3/ENDSKIP.fodt index 8781f0f0..2f25b806 100644 --- a/parts/chapters/subsections/7.3/ENDSKIP.fodt +++ b/parts/chapters/subsections/7.3/ENDSKIP.fodt @@ -4005,7 +4005,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. ENDSKIP – DeActivate Skipping of Keywords and Input Data - The ENDSKIP keyword deactivates the skipping of keywords that was activated by the SKIP, SKIP100, or SKIP300 keywords. Each SKIP keyword should be paired with an ENDSKIP keyword. + The ENDSKIP keyword deactivates the skipping of keywords that was activated by the SKIP, SKIP100, or SKIP300 keywords. Each SKIP keyword should be paired with an ENDSKIP keyword. See ENDSKIP – DeActivate Skipping of Keywords and Input Datain the GLOBAL section for a full description. diff --git a/parts/chapters/subsections/7.3/EQUALREG.fodt b/parts/chapters/subsections/7.3/EQUALREG.fodt index 1b909254..9e5d7e16 100644 --- a/parts/chapters/subsections/7.3/EQUALREG.fodt +++ b/parts/chapters/subsections/7.3/EQUALREG.fodt @@ -3995,7 +3995,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. EQUALREG – Sets an Array to a Constant by Region Number - The EQUALREG keyword sets a specified array to a constant for cells with a specific region number. The region number array can be FLUXNUM, MULTNUM or OPERNUM and these arrays must be defined and be available before the EQUALREG keyword is read by the simulator. The constant can be real or integer depending on the property array type; however, the property arrays that can be operated on is dependent on which section the EQUALREG keyword is being used. + The EQUALREG keyword sets a specified array to a constant for cells with a specific region number. The region number array can be FLUXNUM, MULTNUM or OPERNUM and these arrays must be defined and be available before the EQUALREG keyword is read by the simulator. The constant can be real or integer depending on the property array type; however, the property arrays that can be operated on is dependent on which section the EQUALREG keyword is being used. See EQUALREG – Sets an Array to a Constant by Region Numberin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/EQUALS.fodt b/parts/chapters/subsections/7.3/EQUALS.fodt index d64cb55d..a750992c 100644 --- a/parts/chapters/subsections/7.3/EQUALS.fodt +++ b/parts/chapters/subsections/7.3/EQUALS.fodt @@ -3995,7 +3995,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. EQUALS Sets a Specified Array to a Constant - The EQUALS keyword sets a specified array or part of an array to a constant. The constant can be real or integer depending on the array type; however, the arrays that can be operated on is dependent on which section the EQUALS keyword is being used. + The EQUALS keyword sets a specified array or part of an array to a constant. The constant can be real or integer depending on the array type; however, the arrays that can be operated on is dependent on which section the EQUALS keyword is being used. See EQUALS – Sets a Specified Array to a Constantin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/EXTRAPMS.fodt b/parts/chapters/subsections/7.3/EXTRAPMS.fodt index 5146ad68..94cd03a0 100644 --- a/parts/chapters/subsections/7.3/EXTRAPMS.fodt +++ b/parts/chapters/subsections/7.3/EXTRAPMS.fodt @@ -4002,7 +4002,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. EXTRAPMS – Activate Extrapolation Warning Messages - The EXTRAPMS keyword activates extrapolation warning messages for when OPM Flow extrapolates the PVT or VFP tables. Frequent extrapolation warning messages should be investigated and resolved as this would indicate possible incorrect data and may result in the simulator extrapolating to unrealistic values. + The EXTRAPMS keyword activates extrapolation warning messages for when OPM Flow extrapolates the PVT or VFP tables. Frequent extrapolation warning messages should be investigated and resolved as this would indicate possible incorrect data and may result in the simulator extrapolating to unrealistic values. See EXTRAPMS – Activate Extrapolation Warning Messagesin the GLOBAL section for a full description. diff --git a/parts/chapters/subsections/7.3/FILEUNIT.fodt b/parts/chapters/subsections/7.3/FILEUNIT.fodt index e9e33949..5f0edd17 100644 --- a/parts/chapters/subsections/7.3/FILEUNIT.fodt +++ b/parts/chapters/subsections/7.3/FILEUNIT.fodt @@ -3995,7 +3995,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. FILEUNIT – Activate Unit Consistency Verification - The FILEUNIT keyword defines the units of the of the data set, and is used to verify that the units in the input deck and any associated include files are consistent grid data. The keyword does not provide for the conversion between different sets of units. + The FILEUNIT keyword defines the units of the of the data set, and is used to verify that the units in the input deck and any associated include files are consistent grid data. The keyword does not provide for the conversion between different sets of units. See FILEUNIT – Activate Unit Consistency Checkingin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/FORMFEED.fodt b/parts/chapters/subsections/7.3/FORMFEED.fodt index bcb1f851..7826a976 100644 --- a/parts/chapters/subsections/7.3/FORMFEED.fodt +++ b/parts/chapters/subsections/7.3/FORMFEED.fodt @@ -4004,7 +4004,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. FORMFEED – Defined the Print File Form-Feed Character - The FORMFEED keyword defines the form-feed character, or carriage control character, for the output print (*.PRT) run summary (*.RSM) files. The keyword should be place at the very top of the input file. + The FORMFEED keyword defines the form-feed character, or carriage control character, for the output print (*.PRT) run summary (*.RSM) files. The keyword should be place at the very top of the input file. See FORMFEED – Defined the Print File Form-Feed Characterin the GLOBAL section for a dull description. diff --git a/parts/chapters/subsections/7.3/GETDATA.fodt b/parts/chapters/subsections/7.3/GETDATA.fodt index 3cc19925..4c9d9123 100644 --- a/parts/chapters/subsections/7.3/GETDATA.fodt +++ b/parts/chapters/subsections/7.3/GETDATA.fodt @@ -3995,7 +3995,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. GETDATA – Load and Assign Data Array from INIT or RESTART File - The GETDATA keyword loads a data array from a previously generated INIT or RESTART file and assigns the loaded array to either same array in the run or another array name. + The GETDATA keyword loads a data array from a previously generated INIT or RESTART file and assigns the loaded array to either same array in the run or another array name. See GETDATA – Load and Assign Data Array from INIT or RESTART Filesin the GRID section for a full description diff --git a/parts/chapters/subsections/7.3/HMMULT.fodt b/parts/chapters/subsections/7.3/HMMULT.fodt index 5801eccb..00bed80b 100644 --- a/parts/chapters/subsections/7.3/HMMULT.fodt +++ b/parts/chapters/subsections/7.3/HMMULT.fodt @@ -4215,13 +4215,13 @@ Updated with AFR/TSA Rev-D comments and new keywords.X/R - MULTX + MULTX HMMULTX - MULTR + MULTR HMMULTR @@ -4249,13 +4249,13 @@ Updated with AFR/TSA Rev-D comments and new keywords.Y/HT - MULTY + MULTY hMMULTY - MULTTHT + MULTTHT HMMULTTH @@ -4266,13 +4266,13 @@ Updated with AFR/TSA Rev-D comments and new keywords.z - MULTZ + MULTZ HMMULTZ - MULTZ + MULTZ HMMULTZ @@ -4283,13 +4283,13 @@ Updated with AFR/TSA Rev-D comments and new keywords.PV - MULTPV + MULTPV HMMULTPV - MULTPV + MULTPV HMMULTPV diff --git a/parts/chapters/subsections/7.3/IMPORT.fodt b/parts/chapters/subsections/7.3/IMPORT.fodt index e1fb8264..7ced3c63 100644 --- a/parts/chapters/subsections/7.3/IMPORT.fodt +++ b/parts/chapters/subsections/7.3/IMPORT.fodt @@ -3999,7 +3999,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. IMPORT – Import Grid File Data at the Current Position - The IMPORT keyword informs the simulator to continue reading input data from the specified IMPORT file. When the end of the IMPORT file is reached, input data is read from the next keyword in the current file. Normally IMPORT files are generated by grid pre-processing software and the keyword allows for both formatted and unformatted (binary) files to be loaded. + The IMPORT keyword informs the simulator to continue reading input data from the specified IMPORT file. When the end of the IMPORT file is reached, input data is read from the next keyword in the current file. Normally IMPORT files are generated by grid pre-processing software and the keyword allows for both formatted and unformatted (binary) files to be loaded. See IMPORT – Import Grid File Data at the Current Positionin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/INCLUDE.fodt b/parts/chapters/subsections/7.3/INCLUDE.fodt index 9dcc0c36..b3d60870 100644 --- a/parts/chapters/subsections/7.3/INCLUDE.fodt +++ b/parts/chapters/subsections/7.3/INCLUDE.fodt @@ -3998,7 +3998,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. INCLUDE – Load Another Data File at the Current Position - The INCLUDE keyword informs OPM Flow to continue reading input data from the specified INCLUDE file. When the end of the INCLUDE file is reached, or the ENDINC keyword is encountered in the included file, input data is read from the next keyword in the current file. + The INCLUDE keyword informs OPM Flow to continue reading input data from the specified INCLUDE file. When the end of the INCLUDE file is reached, or the ENDINC keyword is encountered in the included file, input data is read from the next keyword in the current file. See INCLUDE – Load Another Data File at the Current Positionin the GLOBAL section for a full description. diff --git a/parts/chapters/subsections/7.3/LGRCOPY.fodt b/parts/chapters/subsections/7.3/LGRCOPY.fodt index a4c4efbd..fd5b6c7e 100644 --- a/parts/chapters/subsections/7.3/LGRCOPY.fodt +++ b/parts/chapters/subsections/7.3/LGRCOPY.fodt @@ -3998,7 +3998,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. LGRCOPYActivate Local Grid Refinement Inheritance - The LGRCOPY keyword actives Local Grid Refinement (“LGR”) Inheritance option that allows the LGR to inherit the properties of the global or host cell containing a LGR grid block at the start of the GRID section, as oppose to the normal process of applying this transform at the end of the GRID section. LGRCOPY can be used in the RUNSPEC, GRID and EDIT sections. If used in the RUNSPEC section then the option is applied to all LGRs defined in the input file, whereas if used in the GRID and EDIT sections the keyword must be placed inside a LGR definition section, that is between a CARFIN (Cartesian LGR grid) or RADIN/RADIN4 (radial LGR grid) and the ENDFIN keyword. In the latter case inheritance is applied on an individual LGR basis. + The LGRCOPY keyword actives Local Grid Refinement (“LGR”) Inheritance option that allows the LGR to inherit the properties of the global or host cell containing a LGR grid block at the start of the GRID section, as oppose to the normal process of applying this transform at the end of the GRID section. LGRCOPY can be used in the RUNSPEC, GRID and EDIT sections. If used in the RUNSPEC section then the option is applied to all LGRs defined in the input file, whereas if used in the GRID and EDIT sections the keyword must be placed inside a LGR definition section, that is between a CARFIN (Cartesian LGR grid) or RADIN/RADIN4 (radial LGR grid) and the ENDFIN keyword. In the latter case inheritance is applied on an individual LGR basis. See LGRCOPY – Activate Local Grid Refinement Inheritancein the RUNSPEC section for a full description. diff --git a/parts/chapters/subsections/7.3/MAXVALUE.fodt b/parts/chapters/subsections/7.3/MAXVALUE.fodt index fdb19c97..232d2a8c 100644 --- a/parts/chapters/subsections/7.3/MAXVALUE.fodt +++ b/parts/chapters/subsections/7.3/MAXVALUE.fodt @@ -3995,7 +3995,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. MAXVALUE Sets a Maximum Value for an Array Element - The MAXVALUE keyword sets a maximum value for the specified array or part of an array. The constant can be real or integer depending on the array type; however, the arrays that can be operated on is dependent on which section the MAXVALUE keyword is being used. + The MAXVALUE keyword sets a maximum value for the specified array or part of an array. The constant can be real or integer depending on the array type; however, the arrays that can be operated on is dependent on which section the MAXVALUE keyword is being used. See MAXVALUE – Sets a Maximum Value for an Array Elementin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/MESSAGE.fodt b/parts/chapters/subsections/7.3/MESSAGE.fodt index 29856953..888c3423 100644 --- a/parts/chapters/subsections/7.3/MESSAGE.fodt +++ b/parts/chapters/subsections/7.3/MESSAGE.fodt @@ -4004,7 +4004,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. MESSAGE – Output User Message - The MESSAGE keyword outputs a user message to the terminal, as well as to the print (*.PRT) and debug (*.DBG) files. Note this is different to the MESSAGES keyword, that defines OPM Flows message print limits and stop limits generated by the simulator. + The MESSAGE keyword outputs a user message to the terminal, as well as to the print (*.PRT) and debug (*.DBG) files. Note this is different to the MESSAGES keyword, that defines OPM Flows message print limits and stop limits generated by the simulator. See MESSAGE – Output User Messagein the GLOBAL section for a full description. diff --git a/parts/chapters/subsections/7.3/MESSAGES.fodt b/parts/chapters/subsections/7.3/MESSAGES.fodt index 400983c9..0abe3901 100644 --- a/parts/chapters/subsections/7.3/MESSAGES.fodt +++ b/parts/chapters/subsections/7.3/MESSAGES.fodt @@ -3995,7 +3995,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. MESSAGES – Define Message Print Limits and Stop Limits - The MESSAGES keyword defines the print and stops levels for various messages. The “print limits” set the maximum number of messages that will be printed, after which no more messages will be printed and the “stop limits” terminate the run when these limits are exceeded. There are six levels of message that increase in severity from informative all the way to programming errors, as outlined in Table 4.5. + The MESSAGES keyword defines the print and stops levels for various messages. The “print limits” set the maximum number of messages that will be printed, after which no more messages will be printed and the “stop limits” terminate the run when these limits are exceeded. There are six levels of message that increase in severity from informative all the way to programming errors, as outlined in Table 4.5. See MESSAGES – Define Message Print Limits and Stop Limitsin the GLOBAL section for a full description. diff --git a/parts/chapters/subsections/7.3/MINVALUE.fodt b/parts/chapters/subsections/7.3/MINVALUE.fodt index e53cb83c..ecec07c9 100644 --- a/parts/chapters/subsections/7.3/MINVALUE.fodt +++ b/parts/chapters/subsections/7.3/MINVALUE.fodt @@ -3995,7 +3995,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. MINVALUE Set a Minimum Value for an Array Element - The MINVALUE keyword sets a minimum value for the specified array or part of an array. The constant can be real or integer depending on the array type; however, the arrays that can be operated on is dependent on which section the MINVALUE keyword is being used. + The MINVALUE keyword sets a minimum value for the specified array or part of an array. The constant can be real or integer depending on the array type; however, the arrays that can be operated on is dependent on which section the MINVALUE keyword is being used. See MINVALUE – Set a Minimum Value for an Array Elementin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/MULTFLT.fodt b/parts/chapters/subsections/7.3/MULTFLT.fodt index 2084e3b7..a4a41ed9 100644 --- a/parts/chapters/subsections/7.3/MULTFLT.fodt +++ b/parts/chapters/subsections/7.3/MULTFLT.fodt @@ -3995,7 +3995,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. MULTFLT – Multiply the Transmissibility of a Defined Fault by a Constant - MULTFLT enables the transmissibilities across defined faults, as declared by the FAULTS keyword, to be modified. They keyword allows for the re-scaling of the existing fault transmissibilities calculated by OPM Flow, for example setting a fault to be completely sealing by setting the multiplier to zero.. + MULTFLT enables the transmissibilities across defined faults, as declared by the FAULTS keyword, to be modified. They keyword allows for the re-scaling of the existing fault transmissibilities calculated by OPM Flow, for example setting a fault to be completely sealing by setting the multiplier to zero.. See MULTFLT – Multiply the Transmissibility of a Defined Fault by a Constantin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/MULTIPLY.fodt b/parts/chapters/subsections/7.3/MULTIPLY.fodt index 24c987b0..48793d97 100644 --- a/parts/chapters/subsections/7.3/MULTIPLY.fodt +++ b/parts/chapters/subsections/7.3/MULTIPLY.fodt @@ -3995,7 +3995,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. MULTIPLY Multiply a Specified Array by a Constant - The MULTIPLY keyword multiplies a specified array or part of an array by a constant. The constant can be real or integer depending on the array type; however, the arrays that can be operated on is dependent on which section the keyword is being used. + The MULTIPLY keyword multiplies a specified array or part of an array by a constant. The constant can be real or integer depending on the array type; however, the arrays that can be operated on is dependent on which section the keyword is being used. See MULTIPLY – Multiply a Specified Array by a Constantin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/MULTIREG.fodt b/parts/chapters/subsections/7.3/MULTIREG.fodt index 7e3ea758..6433d35e 100644 --- a/parts/chapters/subsections/7.3/MULTIREG.fodt +++ b/parts/chapters/subsections/7.3/MULTIREG.fodt @@ -3995,7 +3995,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. MULTIREG – Multiply an Array by a Constant based on a Region Number - The MULTIREG keyword multiplies an array or part of an array by a constant for cells with a specific region number. The region number array can be FLUXNUM, MULTNUM or OPERNUM and these arrays must be defined and be available before the MULTIREG keyword is read by the simulator. The constant can be real or integer depending on the property array type; however, the property arrays that can be operated on is dependent on which section the MULTIREG keyword is being used. + The MULTIREG keyword multiplies an array or part of an array by a constant for cells with a specific region number. The region number array can be FLUXNUM, MULTNUM or OPERNUM and these arrays must be defined and be available before the MULTIREG keyword is read by the simulator. The constant can be real or integer depending on the property array type; however, the property arrays that can be operated on is dependent on which section the MULTIREG keyword is being used. See MULTIREG – Multiply an Array by a Constant based on a Region Numberin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/MULTPV.fodt b/parts/chapters/subsections/7.3/MULTPV.fodt index ef098597..111de574 100644 --- a/parts/chapters/subsections/7.3/MULTPV.fodt +++ b/parts/chapters/subsections/7.3/MULTPV.fodt @@ -3995,7 +3995,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. MULTPV – Multiply Cell Pore Volumes by a Constant - MULTPV multiples the pore volumes of a cell by a real positive constant for all the cells in the model via an array. An alternative to defining the complete array is to use the BOX keyword to define an area of the grid and then use the MULTPV keyword to set the multipliers just for the area defined by the BOX keyword (see the example). + MULTPV multiples the pore volumes of a cell by a real positive constant for all the cells in the model via an array. An alternative to defining the complete array is to use the BOX keyword to define an area of the grid and then use the MULTPV keyword to set the multipliers just for the area defined by the BOX keyword (see the example). See MULTPV – Multiply Cell Pore Volumes by a Constantin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/MULTR-.fodt b/parts/chapters/subsections/7.3/MULTR-.fodt index 32349bc2..6c0a47ad 100644 --- a/parts/chapters/subsections/7.3/MULTR-.fodt +++ b/parts/chapters/subsections/7.3/MULTR-.fodt @@ -3995,7 +3995,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. MULTR- - Multiply Cell Transmissibility in the -R Direction - MULTX- multiples the transmissibility between two cell faces in the -X direction for all the cells in the model via an array, that is the keyword sets the transmissibility multiplier of block (I, J, K) between the cells (I-1, J, K) and (I, J, K). The keyword should only be used with radial grids, as declared by the RADIAL keyword in the RUNSPEC section. + MULTX- multiples the transmissibility between two cell faces in the -X direction for all the cells in the model via an array, that is the keyword sets the transmissibility multiplier of block (I, J, K) between the cells (I-1, J, K) and (I, J, K). The keyword should only be used with radial grids, as declared by the RADIAL keyword in the RUNSPEC section. See MULTR- - Multiply Cell Transmissibility in the -R Directionin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/MULTR.fodt b/parts/chapters/subsections/7.3/MULTR.fodt index c5dfaada..76f1b169 100644 --- a/parts/chapters/subsections/7.3/MULTR.fodt +++ b/parts/chapters/subsections/7.3/MULTR.fodt @@ -3995,7 +3995,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. MULTR - Multiply Cell Transmissibility in the +R Direction - MULTR multiples the transmissibility between two cell faces in the +R direction for all the cells in the model via an array, that is the keyword sets the transmissibility multiplier of block (I, J, K) between the cells (I, J, K) and (I+I, J, K). The keyword should only be used with radial grids, as declared by the RADIAL keyword in the RUNSPEC section. + MULTR multiples the transmissibility between two cell faces in the +R direction for all the cells in the model via an array, that is the keyword sets the transmissibility multiplier of block (I, J, K) between the cells (I, J, K) and (I+I, J, K). The keyword should only be used with radial grids, as declared by the RADIAL keyword in the RUNSPEC section. See MULTR - Multiply Cell Transmissibility in the +R Directionin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/MULTREGD.fodt b/parts/chapters/subsections/7.3/MULTREGD.fodt index 1cc33a00..77f0a487 100644 --- a/parts/chapters/subsections/7.3/MULTREGD.fodt +++ b/parts/chapters/subsections/7.3/MULTREGD.fodt @@ -3995,7 +3995,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. MULTREGD – Multiply Diffusivities Between Regions - The MULTREGT keyword multiplies the diffusivity between two regions by a constant. The region number array can be FLUXNUM, MULTNUM or OPERNUM and these arrays must be defined and be available before the MULTREGT keyword is read by the simulator. The constant should be a real number. + The MULTREGT keyword multiplies the diffusivity between two regions by a constant. The region number array can be FLUXNUM, MULTNUM or OPERNUM and these arrays must be defined and be available before the MULTREGT keyword is read by the simulator. The constant should be a real number. See MULTREGD – Multiply Diffusivities Between Regionsin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/MULTREGH.fodt b/parts/chapters/subsections/7.3/MULTREGH.fodt index 9c9ed78d..7e8e9fc2 100644 --- a/parts/chapters/subsections/7.3/MULTREGH.fodt +++ b/parts/chapters/subsections/7.3/MULTREGH.fodt @@ -3995,7 +3995,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. MULTREGH – Multiply Thermal Conductivities Between Regions - The MULTREGH keyword multiplies the thermal conductivity between two regions by a constant. The region number array can be FLUXNUM, MULTNUM or OPERNUM and these arrays must be defined and be available before the MULTREGT keyword is read by the simulator. The constant should be a real number. + The MULTREGH keyword multiplies the thermal conductivity between two regions by a constant. The region number array can be FLUXNUM, MULTNUM or OPERNUM and these arrays must be defined and be available before the MULTREGT keyword is read by the simulator. The constant should be a real number. See MULTREGH – Multiply Thermal Conductivities Between Regionsin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/MULTREGP.fodt b/parts/chapters/subsections/7.3/MULTREGP.fodt index bf3183f8..65fd1a15 100644 --- a/parts/chapters/subsections/7.3/MULTREGP.fodt +++ b/parts/chapters/subsections/7.3/MULTREGP.fodt @@ -3995,7 +3995,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. MULTREGP– Multiply Pore Volumes Based On Region Number - The MULTREGP keyword multiplies the pore volume of a cell by a constant for all cells with a specific region number. The region number array can be FLUXNUM, MULTNUM or OPERNUM and these arrays must be defined and be available before the MULTREGP keyword is read by the simulator. The constant should be a real number. + The MULTREGP keyword multiplies the pore volume of a cell by a constant for all cells with a specific region number. The region number array can be FLUXNUM, MULTNUM or OPERNUM and these arrays must be defined and be available before the MULTREGP keyword is read by the simulator. The constant should be a real number. See MULTREGP – Multiply Pore Volumes Based On Region Numberin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/MULTREGT.fodt b/parts/chapters/subsections/7.3/MULTREGT.fodt index cde00644..f5130cc0 100644 --- a/parts/chapters/subsections/7.3/MULTREGT.fodt +++ b/parts/chapters/subsections/7.3/MULTREGT.fodt @@ -3995,7 +3995,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. MULTREGT– Multiply Transmissibilities Between Regions - The MULTREGT keyword multiplies the transmissibility between two regions by a constant. The region number array can be FLUXNUM, MULTNUM or OPERNUM and these arrays must be defined and be available before the MULTREGT keyword is read by the simulator. The constant should be a real number. + The MULTREGT keyword multiplies the transmissibility between two regions by a constant. The region number array can be FLUXNUM, MULTNUM or OPERNUM and these arrays must be defined and be available before the MULTREGT keyword is read by the simulator. The constant should be a real number. See MULTREGT – Multiply Transmissibilities Between Regionsin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/MULTTHT-.fodt b/parts/chapters/subsections/7.3/MULTTHT-.fodt index 2ff3b81f..1e75e40f 100644 --- a/parts/chapters/subsections/7.3/MULTTHT-.fodt +++ b/parts/chapters/subsections/7.3/MULTTHT-.fodt @@ -3999,7 +3999,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. MULTTHT- - Multiply Cell Transmissibility in the -Theta Direction - MULTTHT- multiples the transmissibility between two cell faces in the -Theta direction for all the cells in the model via an array, that is the keyword sets the transmissibility multiplier of block (I, J, K) between the cells (I, J-1, K) and (I, J, K). The keyword should only be used with radial grids, as declared by the RADIAL keyword in the RUNSPEC section. + MULTTHT- multiples the transmissibility between two cell faces in the -Theta direction for all the cells in the model via an array, that is the keyword sets the transmissibility multiplier of block (I, J, K) between the cells (I, J-1, K) and (I, J, K). The keyword should only be used with radial grids, as declared by the RADIAL keyword in the RUNSPEC section. See MULTTHT- - Multiply Cell Transmissibility in the -Theta Directionin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/MULTTHT.fodt b/parts/chapters/subsections/7.3/MULTTHT.fodt index 6a2f106c..615289e2 100644 --- a/parts/chapters/subsections/7.3/MULTTHT.fodt +++ b/parts/chapters/subsections/7.3/MULTTHT.fodt @@ -4004,7 +4004,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. MULTTHT - Multiply Cell Transmissibility in the +Theta Direction - MULTTHT multiples the transmissibility between two cell faces in the +Theta direction for all the cells in the model via an array, that is the keyword sets the transmissibility multiplier of block (I, J, K) between the cells (I, J, K) and (I, J+1, K). The keyword should only be used with radial grids, as declared by the RADIAL keyword in the RUNSPEC section. + MULTTHT multiples the transmissibility between two cell faces in the +Theta direction for all the cells in the model via an array, that is the keyword sets the transmissibility multiplier of block (I, J, K) between the cells (I, J, K) and (I, J+1, K). The keyword should only be used with radial grids, as declared by the RADIAL keyword in the RUNSPEC section. See MULTTHT - Multiply Cell Transmissibility in the +Theta Directionin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/MULTX-.fodt b/parts/chapters/subsections/7.3/MULTX-.fodt index 653a20ad..edc6f049 100644 --- a/parts/chapters/subsections/7.3/MULTX-.fodt +++ b/parts/chapters/subsections/7.3/MULTX-.fodt @@ -3995,7 +3995,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. MULTX- - Multiply Cell Transmissibility in the -X Direction - MULTX- multiples the transmissibility between two cell faces in the -X direction for all the cells in the model via an array, that is the keyword sets the transmissibility multiplier of block (I, J, K) between the cells (I-1, J, K) and (I, J, K). + MULTX- multiples the transmissibility between two cell faces in the -X direction for all the cells in the model via an array, that is the keyword sets the transmissibility multiplier of block (I, J, K) between the cells (I-1, J, K) and (I, J, K). See MULTX- - Multiply Cell Transmissibility in the -X Directionin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/MULTX.fodt b/parts/chapters/subsections/7.3/MULTX.fodt index 2d4765a9..73d71d3a 100644 --- a/parts/chapters/subsections/7.3/MULTX.fodt +++ b/parts/chapters/subsections/7.3/MULTX.fodt @@ -3995,7 +3995,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. MULTX - Multiply Cell Transmissibility in the +X Direction - MULTX multiples the transmissibility between two cell faces in the +X direction for all the cells in the model via an array, that is the keyword sets the transmissibility multiplier of block (I, J, K) between the cells (I, J, K) and (I+I, J, K). + MULTX multiples the transmissibility between two cell faces in the +X direction for all the cells in the model via an array, that is the keyword sets the transmissibility multiplier of block (I, J, K) between the cells (I, J, K) and (I+I, J, K). See MULTX - Multiply Cell Transmissibility in the +X Directionin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/MULTY-.fodt b/parts/chapters/subsections/7.3/MULTY-.fodt index 0053191d..2f88b23b 100644 --- a/parts/chapters/subsections/7.3/MULTY-.fodt +++ b/parts/chapters/subsections/7.3/MULTY-.fodt @@ -3995,7 +3995,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. MULTY- - Multiply Cell Transmissibility in the -Y Direction - MULTY- multiples the transmissibility between two cell faces in the -Y direction for all the cells in the model via an array, that is the keyword sets the transmissibility multiplier of block (I, J, K) between the cells (I, J-1, K) and (I, J, K). + MULTY- multiples the transmissibility between two cell faces in the -Y direction for all the cells in the model via an array, that is the keyword sets the transmissibility multiplier of block (I, J, K) between the cells (I, J-1, K) and (I, J, K). See MULTY- - Multiply Cell Transmissibility in the -Y Directionin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/MULTY.fodt b/parts/chapters/subsections/7.3/MULTY.fodt index 985c73e0..fc327c67 100644 --- a/parts/chapters/subsections/7.3/MULTY.fodt +++ b/parts/chapters/subsections/7.3/MULTY.fodt @@ -3995,7 +3995,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. MULTY - Multiply Cell Transmissibility in the +Y Direction - MULTY multiples the transmissibility between two cell faces in the +Y direction for all the cells in the model via an array, that is the keyword sets the transmissibility multiplier of block (I, J, K) between the cells (I, J, K) and (I, J+1, K). + MULTY multiples the transmissibility between two cell faces in the +Y direction for all the cells in the model via an array, that is the keyword sets the transmissibility multiplier of block (I, J, K) between the cells (I, J, K) and (I, J+1, K). See MULTY - Multiply Cell Transmissibility in the +Y Directionin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/MULTZ-.fodt b/parts/chapters/subsections/7.3/MULTZ-.fodt index 4a1009a0..f3e00f1c 100644 --- a/parts/chapters/subsections/7.3/MULTZ-.fodt +++ b/parts/chapters/subsections/7.3/MULTZ-.fodt @@ -3995,7 +3995,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. MULTZ- - Multiply Cell Transmissibility in the -Z Direction - MULTZ- multiples the transmissibility between two cell faces in the -Z direction for all the cells in the model via an array, that is the keyword sets the transmissibility multiplier of block (I, J, K) between the cells (1, J, K-1) and (I, J, K). + MULTZ- multiples the transmissibility between two cell faces in the -Z direction for all the cells in the model via an array, that is the keyword sets the transmissibility multiplier of block (I, J, K) between the cells (1, J, K-1) and (I, J, K). See MULTZ- - Multiply Cell Transmissibility in the -Z Directionin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/MULTZ.fodt b/parts/chapters/subsections/7.3/MULTZ.fodt index 66f23fb6..cce7623c 100644 --- a/parts/chapters/subsections/7.3/MULTZ.fodt +++ b/parts/chapters/subsections/7.3/MULTZ.fodt @@ -3995,7 +3995,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. MULTZ - Multiply Cell Transmissibility in the +Z Direction - MULTZ multiples the transmissibility between two cell faces in the +Z direction for all the cells in the model via an array, that is the keyword sets the transmissibility multiplier of block (I, J, K) between the cells (I, J, K) and (I, J, K+1). + MULTZ multiples the transmissibility between two cell faces in the +Z direction for all the cells in the model via an array, that is the keyword sets the transmissibility multiplier of block (I, J, K) between the cells (I, J, K) and (I, J, K+1). See MULTZ - Multiply Cell Transmissibility in the +Z Directionin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/NOECHO.fodt b/parts/chapters/subsections/7.3/NOECHO.fodt index 513272d9..0cc668d7 100644 --- a/parts/chapters/subsections/7.3/NOECHO.fodt +++ b/parts/chapters/subsections/7.3/NOECHO.fodt @@ -3998,7 +3998,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. NOECHO – Deactivate Echoing of User Input Files to the Print File - Turns off echoing of all the input files to the print file. Note by default echoing of the inputs files is active. but can subsequently be switched off by the NOECHO activation keyword. + Turns off echoing of all the input files to the print file. Note by default echoing of the inputs files is active. but can subsequently be switched off by the NOECHO activation keyword. See NOECHO – Deactivate Echoing of User Input Files to the Print Filein the GLOBAL section for a full description. diff --git a/parts/chapters/subsections/7.3/NOWARN.fodt b/parts/chapters/subsections/7.3/NOWARN.fodt index 4bc74cfa..177da111 100644 --- a/parts/chapters/subsections/7.3/NOWARN.fodt +++ b/parts/chapters/subsections/7.3/NOWARN.fodt @@ -4004,7 +4004,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. NOWARN – Deactivate Warning Messages - Turns off warning messages to be printed to the print file; note that this keyword is deactivated by default and can subsequently be switched off by the WARN activation keyword. The warning messages may be turned on and off using keywords WARN and NOWARN. + Turns off warning messages to be printed to the print file; note that this keyword is deactivated by default and can subsequently be switched off by the WARN activation keyword. The warning messages may be turned on and off using keywords WARN and NOWARN. See NOWARN – Deactivate Warning Messagesin the GLOBAL section for a full description. diff --git a/parts/chapters/subsections/7.3/OPERATE.fodt b/parts/chapters/subsections/7.3/OPERATE.fodt index c8836356..9808fd58 100644 --- a/parts/chapters/subsections/7.3/OPERATE.fodt +++ b/parts/chapters/subsections/7.3/OPERATE.fodt @@ -3998,7 +3998,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. OPERATE – Define Mathematical Operations on Arrays - This keyword, OPERATE, defines mathematical operations on property arrays (NTG, PORO etc.) and optionally using another property array as input to the function. The keyword allows for various mathematical functions and their associated variables to be defined and applied to the selected array data. Input constants can be real or integer depending on the array type; however, the arrays that can be operated on is dependent on which section the keyword is being used. + This keyword, OPERATE, defines mathematical operations on property arrays (NTG, PORO etc.) and optionally using another property array as input to the function. The keyword allows for various mathematical functions and their associated variables to be defined and applied to the selected array data. Input constants can be real or integer depending on the array type; however, the arrays that can be operated on is dependent on which section the keyword is being used. See OPERATE – Define Mathematical Operations on Arraysin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/OPERATER.fodt b/parts/chapters/subsections/7.3/OPERATER.fodt index 00d1ea69..99660053 100644 --- a/parts/chapters/subsections/7.3/OPERATER.fodt +++ b/parts/chapters/subsections/7.3/OPERATER.fodt @@ -3995,7 +3995,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. OPERATER – Define Mathematical Operations on Arrays by Region - This keyword defines the mathematical operations on arrays for specific regions in the commercial simulator and is currently not supported by OPM Flow. However, similar functionality is provided by the ADD and MULTIPLY keywords. + This keyword defines the mathematical operations on arrays for specific regions in the commercial simulator and is currently not supported by OPM Flow. However, similar functionality is provided by the ADD and MULTIPLY keywords. See OPERATER – Define Mathematical Operations on Arrays by Regionin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/PORV.fodt b/parts/chapters/subsections/7.3/PORV.fodt index 161318e4..d829c58c 100644 --- a/parts/chapters/subsections/7.3/PORV.fodt +++ b/parts/chapters/subsections/7.3/PORV.fodt @@ -4225,7 +4225,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. Description - PORV defines the pore volumes for all the cells in the model via an array. The keyword can be used for all grid types, except for the Radial Grid geometry. The keyword effectively overwrites previously entered and calculated data. The area to be modified can be defined via the various grid selection keywords, ADD, BOX, EQUALS, etc., and areas that are not selected remain unchanged. + PORV defines the pore volumes for all the cells in the model via an array. The keyword can be used for all grid types, except for the Radial Grid geometry. The keyword effectively overwrites previously entered and calculated data. The area to be modified can be defined via the various grid selection keywords, ADD, BOX, EQUALS, etc., and areas that are not selected remain unchanged. @@ -4270,7 +4270,7 @@ Updated with AFR/TSA Rev-D comments and new keywords.PORV - PORV is an array of real positive numbers assigning a pore volume to each cell in the model. Only the values in the currently defined input BOX needed be entered. + PORV is an array of real positive numbers assigning a pore volume to each cell in the model. Only the values in the currently defined input BOX needed be entered. Repeat counts may be used, for example 20*100.0. @@ -4298,7 +4298,7 @@ Updated with AFR/TSA Rev-D comments and new keywords.Notes: - The number of entries should correspond to the NX x NY x NZ parameters on the DIMENS keyword in the RUNSPEC section, unless the BOX keyword defines a sub area of the grid, in which case the total number of entries should correspond to the number of cells defined by the BOX statement. + The number of entries should correspond to the NX x NY x NZ parameters on the DIMENS keyword in the RUNSPEC section, unless the BOX keyword defines a sub area of the grid, in which case the total number of entries should correspond to the number of cells defined by the BOX statement. Values not reset by this keyword remain unaltered. @@ -4334,7 +4334,7 @@ Updated with AFR/TSA Rev-D comments and new keywords.-- ENDBOX - Here the BOX statement is used to define the input grid for the PORV keyword, which overwrites the pore volume previously calculated with pore volume values of zero, resulting in a no-flow boundary in that part of the field between layers 19 and 21, since layer 20 is deactivated. The ENDBOX keyword resets the input box to the full grid. + Here the BOX statement is used to define the input grid for the PORV keyword, which overwrites the pore volume previously calculated with pore volume values of zero, resulting in a no-flow boundary in that part of the field between layers 19 and 21, since layer 20 is deactivated. The ENDBOX keyword resets the input box to the full grid. diff --git a/parts/chapters/subsections/7.3/PYEND.fodt b/parts/chapters/subsections/7.3/PYEND.fodt index 15a38c69..98204c70 100644 --- a/parts/chapters/subsections/7.3/PYEND.fodt +++ b/parts/chapters/subsections/7.3/PYEND.fodt @@ -4002,7 +4002,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. PYEND – End the Definition of a PYINPUT Section - The PYINPUT and PYEND keywords are a part of OPM Flow’s Python scripting facility that processes standard Python commands that can be used to manipulate and define the simulators input parameters during processing of the input deck. The main purpose of the facility is to script the construction of the various keywords. A PYINPUT Definition Section is terminated by a PYEND keyword on a separate single line. + The PYINPUT and PYEND keywords are a part of OPM Flow’s Python scripting facility that processes standard Python commands that can be used to manipulate and define the simulators input parameters during processing of the input deck. The main purpose of the facility is to script the construction of the various keywords. A PYINPUT Definition Section is terminated by a PYEND keyword on a separate single line. See PYEND – End the Definition of a PYINPUT Sectionin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/PYINPUT.fodt b/parts/chapters/subsections/7.3/PYINPUT.fodt index 2a7e0fe2..6af80f79 100644 --- a/parts/chapters/subsections/7.3/PYINPUT.fodt +++ b/parts/chapters/subsections/7.3/PYINPUT.fodt @@ -3998,7 +3998,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. PYINPUT – Define the Start of a PYINPUT Section - The PYINPUT and PYEND keywords are a part of OPM Flow’s Python scripting facility that processes standard Python commands that can be used to manipulate and define the simulators input parameters during processing of the input deck. The main purpose of the facility is to script the construction of the various keywords used by the simulator. PYINPUT declares the start of a PYINPUT Definition Section on a single separate line, which is then followed by various standard Python commands, with one command per line. + The PYINPUT and PYEND keywords are a part of OPM Flow’s Python scripting facility that processes standard Python commands that can be used to manipulate and define the simulators input parameters during processing of the input deck. The main purpose of the facility is to script the construction of the various keywords used by the simulator. PYINPUT declares the start of a PYINPUT Definition Section on a single separate line, which is then followed by various standard Python commands, with one command per line. See PYINPUT – Define the Start of a PYINPUT Sectionin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/REFINE.fodt b/parts/chapters/subsections/7.3/REFINE.fodt index d7763daa..5a616a58 100644 --- a/parts/chapters/subsections/7.3/REFINE.fodt +++ b/parts/chapters/subsections/7.3/REFINE.fodt @@ -3995,7 +3995,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. REFINE – Start the Definition of a Local Grid Refinement - The REFINE keyword defines the start of a Cartesian or radial local grid refinement (“LGR”) definition that sets the properties of the selected LGR. The keyword is then followed by the property keywords associated with the section where the keyword is being invoked. For example, if the REFINE keyword is used in the GRID section then most of the keywords in that section can be used to set the grid properties for the LGR. + The REFINE keyword defines the start of a Cartesian or radial local grid refinement (“LGR”) definition that sets the properties of the selected LGR. The keyword is then followed by the property keywords associated with the section where the keyword is being invoked. For example, if the REFINE keyword is used in the GRID section then most of the keywords in that section can be used to set the grid properties for the LGR. See REFINE – Start the Definition of a Local Grid Refinementin the GRID section for a full description. diff --git a/parts/chapters/subsections/7.3/SKIP.fodt b/parts/chapters/subsections/7.3/SKIP.fodt index f05e6098..77200e9c 100644 --- a/parts/chapters/subsections/7.3/SKIP.fodt +++ b/parts/chapters/subsections/7.3/SKIP.fodt @@ -4001,7 +4001,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. SKIP – Activate Skipping of All Keywords and Input Data - The SKIP keyword activates skipping of all keywords and input data until the ENDSKIP keyword is encountered. All keywords between the SKIP and ENDSKIP keywords are ignored. + The SKIP keyword activates skipping of all keywords and input data until the ENDSKIP keyword is encountered. All keywords between the SKIP and ENDSKIP keywords are ignored. See SKIP – Activate Skipping of All Keywords and Input Datain the GLOBAL section for a full description. diff --git a/parts/chapters/subsections/7.3/SKIP100.fodt b/parts/chapters/subsections/7.3/SKIP100.fodt index 773f1f69..f3b44ebb 100644 --- a/parts/chapters/subsections/7.3/SKIP100.fodt +++ b/parts/chapters/subsections/7.3/SKIP100.fodt @@ -4001,7 +4001,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. SKIP100 – Activate Skipping of Black-Oil Keywords and Input Data - The SKIP100 keyword activates skipping of all keywords and input data by the commercial black-oil simulator until the ENDSKIP keyword is encountered. All keywords between the SKIP100 and ENDSKIP keywords are ignored by the commercial black-oil simulator. The SKIP100 keyword is ignored by the commercial compositional simulator. + The SKIP100 keyword activates skipping of all keywords and input data by the commercial black-oil simulator until the ENDSKIP keyword is encountered. All keywords between the SKIP100 and ENDSKIP keywords are ignored by the commercial black-oil simulator. The SKIP100 keyword is ignored by the commercial compositional simulator. See SKIP100 – Activate Skipping of Keywords by Black-Oil Simulatorin the GLOBAL section for a full description. diff --git a/parts/chapters/subsections/7.3/SKIP300.fodt b/parts/chapters/subsections/7.3/SKIP300.fodt index 46e4618e..6c08bde4 100644 --- a/parts/chapters/subsections/7.3/SKIP300.fodt +++ b/parts/chapters/subsections/7.3/SKIP300.fodt @@ -4000,7 +4000,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. SKIP300 – Activate Skipping of Keywords by Compositional Simulator - The SKIP300 keyword activates skipping of all keywords and input data by the commercial compositional simulator until the ENDSKIP keyword is encountered. All keywords between the SKIP300 and ENDSKIP keywords are ignored by the commercial compositional simulator. The SKIP300 keyword is ignored by the commercial black-oil simulator. + The SKIP300 keyword activates skipping of all keywords and input data by the commercial compositional simulator until the ENDSKIP keyword is encountered. All keywords between the SKIP300 and ENDSKIP keywords are ignored by the commercial compositional simulator. The SKIP300 keyword is ignored by the commercial black-oil simulator. See Error: Reference source not foundin the GLOBAL section for a full description. diff --git a/parts/chapters/subsections/7.3/TRANR.fodt b/parts/chapters/subsections/7.3/TRANR.fodt index 40459807..e95cb43b 100644 --- a/parts/chapters/subsections/7.3/TRANR.fodt +++ b/parts/chapters/subsections/7.3/TRANR.fodt @@ -4318,7 +4318,7 @@ Updated with AFR/TSA Rev-D comments and new keywords.Notes: - The number of entries should correspond to the NX x NY x NZ parameters on the DIMENS keyword in the RUNSPEC section, unless the BOX keyword defines a sub area of the grid, in which case the total number of entries should correspond to the number of cells defined by the BOX statement. + The number of entries should correspond to the NX x NY x NZ parameters on the DIMENS keyword in the RUNSPEC section, unless the BOX keyword defines a sub area of the grid, in which case the total number of entries should correspond to the number of cells defined by the BOX statement. Values not reset by this keyword remain unaltered. @@ -4355,7 +4355,7 @@ Updated with AFR/TSA Rev-D comments and new keywords.-- DEFINE END OF INPUT BOX EDITING OF INPUT ARRAYS -- ENDBOX - Here the BOX statement is used to define the input grid for the TRANR keyword, which overwrites the transmissibility previously calculated with transmissibility values of zero, resulting in a no-flow boundary in that part of the grid. The ENDBOX keyword resets the input box to the full grid. + Here the BOX statement is used to define the input grid for the TRANR keyword, which overwrites the transmissibility previously calculated with transmissibility values of zero, resulting in a no-flow boundary in that part of the grid. The ENDBOX keyword resets the input box to the full grid. diff --git a/parts/chapters/subsections/7.3/TRANTHT.fodt b/parts/chapters/subsections/7.3/TRANTHT.fodt index 1c661e89..917abed5 100644 --- a/parts/chapters/subsections/7.3/TRANTHT.fodt +++ b/parts/chapters/subsections/7.3/TRANTHT.fodt @@ -4325,7 +4325,7 @@ Updated with AFR/TSA Rev-D comments and new keywords.Notes: - The number of entries should correspond to the NX x NY x NZ parameters on the DIMENS keyword in the RUNSPEC section, unless the BOX keyword defines a sub area of the grid, in which case the total number of entries should correspond to the number of cells defined by the BOX statement. + The number of entries should correspond to the NX x NY x NZ parameters on the DIMENS keyword in the RUNSPEC section, unless the BOX keyword defines a sub area of the grid, in which case the total number of entries should correspond to the number of cells defined by the BOX statement. Values not reset by this keyword remain unaltered. @@ -4362,7 +4362,7 @@ Updated with AFR/TSA Rev-D comments and new keywords.-- DEFINE END OF INPUT BOX EDITING OF INPUT ARRAYS -- ENDBOX - Here the BOX statement is used to define the input grid for the TRANTHT keyword, which overwrites the transmissibility previously calculated with transmissibility values of zero, resulting in a no-flow boundary in that part of the grid. The ENDBOX keyword resets the input box to the full grid. + Here the BOX statement is used to define the input grid for the TRANTHT keyword, which overwrites the transmissibility previously calculated with transmissibility values of zero, resulting in a no-flow boundary in that part of the grid. The ENDBOX keyword resets the input box to the full grid. diff --git a/parts/chapters/subsections/7.3/TRANX.fodt b/parts/chapters/subsections/7.3/TRANX.fodt index 4ca6e002..8d61b1a4 100644 --- a/parts/chapters/subsections/7.3/TRANX.fodt +++ b/parts/chapters/subsections/7.3/TRANX.fodt @@ -4306,7 +4306,7 @@ Updated with AFR/TSA Rev-D comments and new keywords.Notes: - The number of entries should correspond to the NX x NY x NZ parameters on the DIMENS keyword in the RUNSPEC section, unless the BOX keyword defines a sub area of the grid, in which case the total number of entries should correspond to the number of cells defined by the BOX statement. + The number of entries should correspond to the NX x NY x NZ parameters on the DIMENS keyword in the RUNSPEC section, unless the BOX keyword defines a sub area of the grid, in which case the total number of entries should correspond to the number of cells defined by the BOX statement. Values not reset by this keyword remain unaltered. @@ -4344,7 +4344,7 @@ Updated with AFR/TSA Rev-D comments and new keywords.-- ENDBOX - Here the BOX statement is used to define the input grid for the TRANX keyword, which overwrites the transmissibility previously calculated with transmissibility values of zero, resulting in a no-flow boundary in that part of the field. The ENDBOX keyword resets the input box to the full grid. + Here the BOX statement is used to define the input grid for the TRANX keyword, which overwrites the transmissibility previously calculated with transmissibility values of zero, resulting in a no-flow boundary in that part of the field. The ENDBOX keyword resets the input box to the full grid. diff --git a/parts/chapters/subsections/7.3/TRANY.fodt b/parts/chapters/subsections/7.3/TRANY.fodt index 718fe284..0c87a817 100644 --- a/parts/chapters/subsections/7.3/TRANY.fodt +++ b/parts/chapters/subsections/7.3/TRANY.fodt @@ -4301,7 +4301,7 @@ Updated with AFR/TSA Rev-D comments and new keywords.Notes: - The number of entries should correspond to the NX x NY x NZ parameters on the DIMENS keyword in the RUNSPEC section, unless the BOX keyword defines a sub area of the grid, in which case the total number of entries should correspond to the number of cells defined by the BOX statement. + The number of entries should correspond to the NX x NY x NZ parameters on the DIMENS keyword in the RUNSPEC section, unless the BOX keyword defines a sub area of the grid, in which case the total number of entries should correspond to the number of cells defined by the BOX statement. Values not reset by this keyword remain unaltered. @@ -4339,7 +4339,7 @@ Updated with AFR/TSA Rev-D comments and new keywords.-- ENDBOX - Here the BOX statement is used to define the input grid for the TRANY keyword, which overwrites the transmissibility previously calculated with transmissibility values of zero, resulting in a no-flow boundary in that part of the field. The ENDBOX keyword resets the input box to the full grid. + Here the BOX statement is used to define the input grid for the TRANY keyword, which overwrites the transmissibility previously calculated with transmissibility values of zero, resulting in a no-flow boundary in that part of the field. The ENDBOX keyword resets the input box to the full grid. diff --git a/parts/chapters/subsections/7.3/TRANZ.fodt b/parts/chapters/subsections/7.3/TRANZ.fodt index 43d54017..5a3a5ce2 100644 --- a/parts/chapters/subsections/7.3/TRANZ.fodt +++ b/parts/chapters/subsections/7.3/TRANZ.fodt @@ -4303,7 +4303,7 @@ Updated with AFR/TSA Rev-D comments and new keywords.Notes: - The number of entries should correspond to the NX x NY x NZ parameters on the DIMENS keyword in the RUNSPEC section, unless the BOX keyword defines a sub area of the grid, in which case the total number of entries should correspond to the number of cells defined by the BOX statement. + The number of entries should correspond to the NX x NY x NZ parameters on the DIMENS keyword in the RUNSPEC section, unless the BOX keyword defines a sub area of the grid, in which case the total number of entries should correspond to the number of cells defined by the BOX statement. Values not reset by this keyword remain unaltered. @@ -4341,7 +4341,7 @@ Updated with AFR/TSA Rev-D comments and new keywords.-- ENDBOX - Here the BOX statement is used to define the input grid for the TRANZ keyword, which overwrites the transmissibility previously calculated with transmissibility values of zero, resulting in a no-flow boundary in that part of the field between layers 20 and 21. The ENDBOX keyword resets the input box to the full grid. + Here the BOX statement is used to define the input grid for the TRANZ keyword, which overwrites the transmissibility previously calculated with transmissibility values of zero, resulting in a no-flow boundary in that part of the field between layers 20 and 21. The ENDBOX keyword resets the input box to the full grid. diff --git a/parts/chapters/subsections/7.3/WARN.fodt b/parts/chapters/subsections/7.3/WARN.fodt index 2afe41aa..7c40e81c 100644 --- a/parts/chapters/subsections/7.3/WARN.fodt +++ b/parts/chapters/subsections/7.3/WARN.fodt @@ -4016,7 +4016,7 @@ Updated with AFR/TSA Rev-D comments and new keywords. WARN – Activate Warning Messages - Turns on warning messages to be printed to the print file (*.PRT); note that this keyword is activated by default and can subsequently be switched off by the NOWARN activation keyword. The warning messages may be turned on and off using keywords WARN and NOWARN. OPM Flow always prints error messages. + Turns on warning messages to be printed to the print file (*.PRT); note that this keyword is activated by default and can subsequently be switched off by the NOWARN activation keyword. The warning messages may be turned on and off using keywords WARN and NOWARN. OPM Flow always prints error messages. See WARN – Activate Warning Messagesin the GLOBAL section for a full description.