#------------------------------------------------------------------------ # Domain File # Original Author(s): Roberto Padilla-Hernandez,Douglas Gaer # Alex Gibbs, Pablo Santos,Tony Freeman # File Creation Date: 06/01/2012 # Date Last Modified: 11/08/14 by alex.gibbs@onaa.gov # # Version control: 1.33 # # Support Team: # # Contributors: # # ----------------------------------------------------------------------- # ---------------------- Description and Details ------------------------ # ----------------------------------------------------------------------- # # File used to setup a geographical domain for SWAN and WW3 # # ----------------------------------------------------------- #======================================================================== # ALU = # GEOGRAPHICAL DOMAIN, GEOGRAFICAL RESOLUTION AND OUTPUT TIME STEP = #======================================================================== export SITEID="ALU" export REGIONID="AR" export NELAT="62.0" export NELON="-152.40" export SWLAT="53.15" export SWLON="-177.00" export RES="7.5" export TSTEP="1" # #======================================================================== # NESTED GRID CONFIGURATION = # These nested grids are non-telescopic grids i.e all of them are = # nested in the main grid, and get the boundary conditions only from it = # = #======================================================================== # NESTGRIDS: Number of nested grids, if = 0, nested grids and # location numbers below will be ignore regardless of input specifications # # STATN=STA for STATIONARY RUNS, STAT=NON for NON-STATIONARY RUNS # The default values is NONstationary for CG1 and STAtionary for the # nested grids. Change this only if you know what you are doing. # You can choose STA or NON for a particular nested grid. # export NESTGRIDS="2" # Dutch Harbor export NELATN1="54.087" export NELONN1="-166.30" export SWLATN1="53.820" export SWLONN1="-166.75" export RESN1=".1" export TSTEPN1="1" export STATN1="NON" # Bristol Bay export NELATN2="59.133" export NELONN2="-156.70" export SWLATN2="57.80" export SWLONN2="-159.20" export RESN2=".5" export TSTEPN2="1" export STATN2="NON" # #======================================================================== # SPECTRA OUTPUT LOCATIONS = #======================================================================== # Specta points defined as space delimited list of: # "name1:lat1:lon1 name2:lat2:lon2 name3:lat3:lon3 name4:lat4:lon4 name5:lat5:lon5 ...." # #export SPECPOINTS="46066:52.785:-155.047" export SPECPOINTS="46075:53.911:-160.806 46073:55.031:-172.001 VCVA2:57.125:-170.285" # #======================================================================== # WAVE TRACKING (and WAVE PARTITION) ON/OFF = # SET: SUBDOMAIN, GEOGRAPH RESOL and TOLERANCE WAVETRACK PARAMETERS = #======================================================================== # IF WAVE TRACKING IS REQUIRED THEN WVTRCK="ON", OTHER WISE SET IT AS "OFF" # IF WVTRCK IS "ON", ADDTIONAL INFORMATION IS REQUIRED, SEE BELOW # export WVTRCK="ON" # # IF WAVE TRACKING IS REQUIRED EXACTLY OVER THE COMPUTATIONAL GRID AND SAME SPATIAL # RESOLUTION: SET WVTONCG="1" # IF USER WANTS TO CHANGE ANYONE OF THE PARAMETERS THEN WVTONCG="0" AND USER MUST GIVE # ALL INFORMATION FOR THE DOMAIN OR SUBDOMAIN AND GEOGRAPHICAL RESOLUTION. # BE CAREFULL, IF THERE IS ANY SPECTRAL OUTPUT LOCATIONS OUT OF THE NEW (REDUCED) DOMAIN # FOR WAVE TRACKING NWPS WILL ABORT. # (This will be change in a new version, the user can get 1d-spectra but not g-h plots). export WVTONCG="0" export NELATWT="62.0" export NELONWT="-152.40" export SWLATWT="53.15" export SWLONWT="-177.00" export GEORESWT="12.0" # # PARAMETERS FOR TRACKING ALGORITHM for WVTONCG=0 or =1 THIS IS ALWAYS READ # *CAUTION* CHANGE THEM ONLY IF YOU KNOW WHAT YOU ARE DOING # RECOMENDED VALUES WVTRKPA="10. 1. 0.25 0.1 10. 1." # dirKnob, perKnob, hsKnob, wetPts, dirTimeKnob, tpTimeKnob export WVTRKPA="20. 2. 0.25 0.1 20. 2." # #======================================================================== # CURRENTS DEFINITION (SEE SWAN MANUAL) = #======================================================================== #export CURRL1="INPGRID CUR ............................." #export CURRL2="READINP CUR ............................." # #======================================================================== # BOUNDARY CONDITIONS (SEE SWAN MANUAL) = #======================================================================== # IF BOUNDARY CONDITIONS WILL BE USED then BOUNDCOND=1, Otherwise =0; # Setting up BOUNDCOND here to zero will permanently disable BCs. # If you leave it as 1 the user will still have the option to disable # them from the interactive Run_NWPS GUI. # export BOUNCOND="1" export FTPPAT1="gfswave" export FTPPAT1B="gfswave" export FTPPAT2="NW-ALU" export NFTPATTEMPTS="3" export WAVECPS="gfswave.NW-ALU163.spec.swan,gfswave.NW-ALU122.spec.swan,gfswave.NW-ALU212.spec.swan" # # THE FOLLOWING LINES MUST BE COMMENTED. IF YOU ADD BOUNDARY COMMAND LINES FOR YOUR # DOMAIN, ADD THEM WITH THE "#" AS A FIRST CHARACTER, IF YOU DECIDE NOT TO USE BOUNARY # CONDITIONS (BOUNCOND="0") THEY WILL REMAIN AS A COMMENTED LINES. IF YOU DECIDE TO USE # BOUNDARY CONDITIONS (BOUNCOND="1") NWPS WILL INCLUDE THE INFORMATION IN THE ACTUAL # INPUT FILES WITH NOT COMMENT CHARACTER # #$BOUNDARY COMMAND LINES #$UNSTR SWAN BOUNDARY COMMAND LINES - SITE NW-ALU #$ N boundary #$BOUNdspec SIDE 1 - Is overland, so no BCs assigned #BOUNdspec SIDE 2 CCW CON FILE 'gfswave.NW-ALU144.spec.swan' 1 #BOUNdspec SIDE 3 CCW CON FILE 'gfswave.NW-ALU142.spec.swan' 1 #BOUNdspec SIDE 4 CCW CON FILE 'gfswave.NW-ALU140.spec.swan' 1 #BOUNdspec SIDE 5 CCW CON FILE 'gfswave.NW-ALU138.spec.swan' 1 #BOUNdspec SIDE 6 CCW CON FILE 'gfswave.NW-ALU136.spec.swan' 1 #BOUNdspec SIDE 7 CCW CON FILE 'gfswave.NW-ALU134.spec.swan' 1 #BOUNdspec SIDE 8 CCW CON FILE 'gfswave.NW-ALU132.spec.swan' 1 #BOUNdspec SIDE 9 CCW CON FILE 'gfswave.NW-ALU130.spec.swan' 1 #BOUNdspec SIDE 10 CCW CON FILE 'gfswave.NW-ALU128.spec.swan' 1 #BOUNdspec SIDE 11 CCW CON FILE 'gfswave.NW-ALU126.spec.swan' 1 #BOUNdspec SIDE 12 CCW CON FILE 'gfswave.NW-ALU124.spec.swan' 1 #$ W boundary #BOUNdspec SIDE 13 CCW CON FILE 'gfswave.NW-ALU122.spec.swan' 1 #BOUNdspec SIDE 14 CCW CON FILE 'gfswave.NW-ALU120.spec.swan' 1 #BOUNdspec SIDE 15 CCW CON FILE 'gfswave.NW-ALU118.spec.swan' 1 #BOUNdspec SIDE 16 CCW CON FILE 'gfswave.NW-ALU116.spec.swan' 1 #BOUNdspec SIDE 17 CCW CON FILE 'gfswave.NW-ALU114.spec.swan' 1 #BOUNdspec SIDE 18 CCW CON FILE 'gfswave.NW-ALU112.spec.swan' 1 #BOUNdspec SIDE 19 CCW CON FILE 'gfswave.NW-ALU110.spec.swan' 1 #BOUNdspec SIDE 20 CCW CON FILE 'gfswave.NW-ALU108.spec.swan' 1 #BOUNdspec SIDE 21 CCW CON FILE 'gfswave.NW-ALU106.spec.swan' 1 #$ S boundary #BOUNdspec SIDE 22 CCW CON FILE 'gfswave.NW-ALU163.spec.swan' 1 #BOUNdspec SIDE 23 CCW CON FILE 'gfswave.NW-ALU165.spec.swan' 1 #BOUNdspec SIDE 24 CCW CON FILE 'gfswave.NW-ALU167.spec.swan' 1 #BOUNdspec SIDE 25 CCW CON FILE 'gfswave.NW-ALU169.spec.swan' 1 #BOUNdspec SIDE 26 CCW CON FILE 'gfswave.NW-ALU171.spec.swan' 1 #BOUNdspec SIDE 27 CCW CON FILE 'gfswave.NW-ALU173.spec.swan' 1 #BOUNdspec SIDE 28 CCW CON FILE 'gfswave.NW-ALU175.spec.swan' 1 #BOUNdspec SIDE 29 CCW CON FILE 'gfswave.NW-ALU177.spec.swan' 1 #BOUNdspec SIDE 30 CCW CON FILE 'gfswave.NW-ALU179.spec.swan' 1 #BOUNdspec SIDE 31 CCW CON FILE 'gfswave.NW-ALU181.spec.swan' 1 #BOUNdspec SIDE 32 CCW CON FILE 'gfswave.NW-ALU183.spec.swan' 1 #BOUNdspec SIDE 33 CCW CON FILE 'gfswave.NW-ALU185.spec.swan' 1 #BOUNdspec SIDE 34 CCW CON FILE 'gfswave.NW-ALU187.spec.swan' 1 #BOUNdspec SIDE 35 CCW CON FILE 'gfswave.NW-ALU189.spec.swan' 1 #BOUNdspec SIDE 36 CCW CON FILE 'gfswave.NW-ALU191.spec.swan' 1 #BOUNdspec SIDE 37 CCW CON FILE 'gfswave.NW-ALU193.spec.swan' 1 #BOUNdspec SIDE 38 CCW CON FILE 'gfswave.NW-ALU195.spec.swan' 1 #BOUNdspec SIDE 39 CCW CON FILE 'gfswave.NW-ALU197.spec.swan' 1 #BOUNdspec SIDE 40 CCW CON FILE 'gfswave.NW-ALU199.spec.swan' 1 #BOUNdspec SIDE 41 CCW CON FILE 'gfswave.NW-ALU201.spec.swan' 1 #BOUNdspec SIDE 42 CCW CON FILE 'gfswave.NW-ALU203.spec.swan' 1 #BOUNdspec SIDE 43 CCW CON FILE 'gfswave.NW-ALU205.spec.swan' 1 #BOUNdspec SIDE 44 CCW CON FILE 'gfswave.NW-ALU207.spec.swan' 1 #BOUNdspec SIDE 45 CCW CON FILE 'gfswave.NW-ALU209.spec.swan' 1 #$ E boundary #BOUNdspec SIDE 46 CCW CON FILE 'gfswave.NW-ALU212.spec.swan' 1 #BOUNdspec SIDE 47 CCW CON FILE 'gfswave.NW-ALU155.spec.swan' 1 #BOUNdspec SIDE 48 CCW CON FILE 'gfswave.NW-ALU153.spec.swan' 1 #BOUNdspec SIDE 49 CCW CON FILE 'gfswave.NW-ALU151.spec.swan' 1 #BOUNdspec SIDE 50 CCW CON FILE 'gfswave.NW-ALU149.spec.swan' 1 #$BOUNdspec SIDE 51 - Is overland, so no BCs assigned #$END BOUNSEG # #======================================================================== # RIP CURRENT PROGRAM (SEE NWPS MANUAL) = #======================================================================== # IF RIP CURRENT PROGRAM WILL BE RUN, then RIPCONT=1, Otherwise =0; # Setting up RIPCONT here to zero will permanently disable RIP program. # export RIPPROG="0" export RIPDOMAIN="CG2" export RIPCONT="5m" # #___________________________________________________________________________ # RAY Section: Define a pair of rays to drop data out along critical contours # for rip current program. # # Example: for data output every 2km along a 5m bathy contour # # RAY 'rayname' xp yp xq yq int xp yp xq yq # # RAY 'ray1' 282.85 34.628 282.85 34.62 2000 283.00 34.655 283.00 34.62 # # ISOLINE '5mcont' 'ray1' BOTtom 10 # TABLE '5mcont' HEAD '5mtable' HSIGN TPS PDIR OUTPUT 20110825.1200 3.0 HR #_____________________________________________________________________________ # # THE FOLLOWING LINES MUST BE COMMENTED. IF YOU ADD RIP COMMAND LINES FOR YOUR # DOMAIN, ADD THEM WITH THE "#" AS A FIRST CHARACTER, IF YOU DECIDE NOT TO USE RIP # CURRENTS (RIPCONT="0") THEY WILL REMAIN AS A COMMENTED LINES. IF YOU DECIDE TO USE # BOUNDARY CONDITIONS (BOUNCOND="1") NWPS WILL INCLUDE THE INFORMATION IN THE ACTUAL # INPUT FILES WITH NOT COMMENT CHARACTER # POIN '5mcont' 279.887 25.8725 # #$RIP LINES #$ Ray for 5m and 20m contour data. #$ #RAY 'ray1' 288.80 41.95 289.68 41.95 100 288.80 43.15 289.68 43.15 #ISOLINE '5mcont' 'ray1' BOTtom 5 #TABLE '5mcont' HEAD '5m_contour_CG2' TIME XP YP HSIGN TPS DIR DSPR VEL WATL WIND OUTPUT 20141030.0000 1.0 HR #$ #RAY 'ray2' 288.80 41.95 289.68 41.95 100 288.80 43.15 289.68 43.15 #ISOLINE '20mcont' 'ray1' BOTtom 20 #TABLE '20mcont' HEAD '20m_contour_CG2' TIME XP YP HSIGN TPS DIR DSPR VEL WATL WIND OUTPUT 20141030.0000 1.0 HR #$ #$END RIP # #======================================================================== # RUNUP PROGRAM (SEE NWPS MANUAL) = #======================================================================== # IF RUNUP PROGRAM WILL BE RUN, then RIPCONT=1, Otherwise =0; # Setting up RIPCONT here to zero will permanently disable RIP program. # export RUNUPPROG="0" export RUNUPDOMAIN="CG1" export RUNUPCONT="20m"