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awips2/edexOsgi/com.raytheon.uf.tools.gfesuite/nwps/domains/ALU
ucar-tmeyer 9b876b5319 Initial commit
2022-05-05 12:34:50 -05:00

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#------------------------------------------------------------------------
# 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="60.2"
export NELON="-152.40"
export SWLAT="51.00"
export SWLON="-177.00"
export RES="7.5"
export TSTEP="3"
#
#========================================================================
# 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="0"
# ALU Nest
export NELATN1=""
export NELONN1=""
export SWLATN1=""
export SWLONN1=""
export RESN1=".1"
export TSTEPN1="3"
export STATN1="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"
#
#========================================================================
# 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="60.2"
export NELONWT="-152.40"
export SWLATWT="51.00"
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="10. 1. 0.25 0.1 10. 1."
#
#========================================================================
# 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="multi_1"
export FTPPAT1B="multi_1"
export FTPPAT2="NW-ALU"
export NFTPATTEMPTS="3"
export WAVECPS="multi_1.NW-ALU51.spec.swan,multi_1.NW-ALU119.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
#BOUN SEG XY 183.00 51.00 207.60 51.00 VAR FILE 0.00 'multi_1.NW-ALU51.spec.swan' 1 &
#0.50 'multi_1.NW-ALU52.spec.swan' 1 &
#1.00 'multi_1.NW-ALU53.spec.swan' 1 &
#1.50 'multi_1.NW-ALU54.spec.swan' 1 &
#2.00 'multi_1.NW-ALU55.spec.swan' 1 &
#2.50 'multi_1.NW-ALU56.spec.swan' 1 &
#3.00 'multi_1.NW-ALU57.spec.swan' 1 &
#3.50 'multi_1.NW-ALU58.spec.swan' 1 &
#4.00 'multi_1.NW-ALU59.spec.swan' 1 &
#4.50 'multi_1.NW-ALU60.spec.swan' 1 &
#5.00 'multi_1.NW-ALU61.spec.swan' 1 &
#5.50 'multi_1.NW-ALU62.spec.swan' 1 &
#6.00 'multi_1.NW-ALU63.spec.swan' 1 &
#6.50 'multi_1.NW-ALU64.spec.swan' 1 &
#7.00 'multi_1.NW-ALU65.spec.swan' 1 &
#7.50 'multi_1.NW-ALU66.spec.swan' 1 &
#8.00 'multi_1.NW-ALU67.spec.swan' 1 &
#8.50 'multi_1.NW-ALU68.spec.swan' 1 &
#9.00 'multi_1.NW-ALU69.spec.swan' 1 &
#9.50 'multi_1.NW-ALU70.spec.swan' 1 &
#10.00 'multi_1.NW-ALU71.spec.swan' 1 &
#10.50 'multi_1.NW-ALU72.spec.swan' 1 &
#11.00 'multi_1.NW-ALU73.spec.swan' 1 &
#11.50 'multi_1.NW-ALU74.spec.swan' 1 &
#12.00 'multi_1.NW-ALU75.spec.swan' 1 &
#12.50 'multi_1.NW-ALU76.spec.swan' 1 &
#13.00 'multi_1.NW-ALU77.spec.swan' 1 &
#13.50 'multi_1.NW-ALU78.spec.swan' 1 &
#14.00 'multi_1.NW-ALU79.spec.swan' 1 &
#14.50 'multi_1.NW-ALU80.spec.swan' 1 &
#15.00 'multi_1.NW-ALU81.spec.swan' 1 &
#15.50 'multi_1.NW-ALU82.spec.swan' 1 &
#16.00 'multi_1.NW-ALU83.spec.swan' 1 &
#16.50 'multi_1.NW-ALU84.spec.swan' 1 &
#17.00 'multi_1.NW-ALU85.spec.swan' 1 &
#17.50 'multi_1.NW-ALU86.spec.swan' 1 &
#18.00 'multi_1.NW-ALU87.spec.swan' 1 &
#18.50 'multi_1.NW-ALU88.spec.swan' 1 &
#19.00 'multi_1.NW-ALU89.spec.swan' 1 &
#19.50 'multi_1.NW-ALU90.spec.swan' 1 &
#20.00 'multi_1.NW-ALU91.spec.swan' 1 &
#20.50 'multi_1.NW-ALU92.spec.swan' 1 &
#21.00 'multi_1.NW-ALU93.spec.swan' 1 &
#21.50 'multi_1.NW-ALU94.spec.swan' 1 &
#22.00 'multi_1.NW-ALU95.spec.swan' 1 &
#22.50 'multi_1.NW-ALU96.spec.swan' 1 &
#23.00 'multi_1.NW-ALU97.spec.swan' 1 &
#23.50 'multi_1.NW-ALU98.spec.swan' 1 &
#24.00 'multi_1.NW-ALU99.spec.swan' 1 &
#24.60 'multi_1.NW-ALU100.spec.swan' 1
#$
#BOUN SEG XY 183.00 51.00 183.00 60.20 VAR FILE 0.00 'multi_1.NW-ALU51.spec.swan.cp' 1 &
#0.50 'multi_1.NW-ALU101.spec.swan' 1 &
#1.00 'multi_1.NW-ALU102.spec.swan' 1 &
#1.50 'multi_1.NW-ALU103.spec.swan' 1 &
#2.00 'multi_1.NW-ALU104.spec.swan' 1 &
#2.50 'multi_1.NW-ALU105.spec.swan' 1 &
#3.00 'multi_1.NW-ALU106.spec.swan' 1 &
#3.50 'multi_1.NW-ALU107.spec.swan' 1 &
#4.00 'multi_1.NW-ALU108.spec.swan' 1 &
#4.50 'multi_1.NW-ALU109.spec.swan' 1 &
#5.00 'multi_1.NW-ALU110.spec.swan' 1 &
#5.50 'multi_1.NW-ALU111.spec.swan' 1 &
#6.00 'multi_1.NW-ALU112.spec.swan' 1 &
#6.50 'multi_1.NW-ALU113.spec.swan' 1 &
#7.00 'multi_1.NW-ALU114.spec.swan' 1 &
#7.50 'multi_1.NW-ALU115.spec.swan' 1 &
#8.00 'multi_1.NW-ALU116.spec.swan' 1 &
#8.50 'multi_1.NW-ALU117.spec.swan' 1 &
#9.00 'multi_1.NW-ALU118.spec.swan' 1 &
#9.20 'multi_1.NW-ALU119.spec.swan' 1
#$
#BOUN SEG XY 183.00 60.20 192.50 60.20 VAR FILE 0.00 'multi_1.NW-ALU119.spec.swan.cp' 1 &
#0.50 'multi_1.NW-ALU120.spec.swan' 1 &
#1.00 'multi_1.NW-ALU121.spec.swan' 1 &
#1.50 'multi_1.NW-ALU122.spec.swan' 1 &
#2.00 'multi_1.NW-ALU123.spec.swan' 1 &
#2.50 'multi_1.NW-ALU124.spec.swan' 1 &
#3.00 'multi_1.NW-ALU125.spec.swan' 1 &
#3.50 'multi_1.NW-ALU126.spec.swan' 1 &
#4.00 'multi_1.NW-ALU127.spec.swan' 1 &
#4.50 'multi_1.NW-ALU128.spec.swan' 1 &
#5.00 'multi_1.NW-ALU129.spec.swan' 1 &
#5.50 'multi_1.NW-ALU130.spec.swan' 1 &
#6.00 'multi_1.NW-ALU131.spec.swan' 1 &
#6.50 'multi_1.NW-ALU132.spec.swan' 1 &
#7.00 'multi_1.NW-ALU133.spec.swan' 1 &
#7.50 'multi_1.NW-ALU134.spec.swan' 1 &
#8.00 'multi_1.NW-ALU135.spec.swan' 1 &
#8.50 'multi_1.NW-ALU136.spec.swan' 1 &
#9.00 'multi_1.NW-ALU137.spec.swan' 1 &
#9.50 'multi_1.NW-ALU138.spec.swan' 1
#$
#BOUN SEG XY 207.60 60.20 207.60 51.00 VAR FILE 0.00 'multi_1.NW-ALU139.spec.swan' 1 &
#0.50 'multi_1.NW-ALU140.spec.swan' 1 &
#1.00 'multi_1.NW-ALU141.spec.swan' 1 &
#1.50 'multi_1.NW-ALU142.spec.swan' 1 &
#3.00 'multi_1.NW-ALU143.spec.swan' 1 &
#3.50 'multi_1.NW-ALU144.spec.swan' 1 &
#4.00 'multi_1.NW-ALU145.spec.swan' 1 &
#4.50 'multi_1.NW-ALU146.spec.swan' 1 &
#5.00 'multi_1.NW-ALU147.spec.swan' 1 &
#5.50 'multi_1.NW-ALU148.spec.swan' 1 &
#6.00 'multi_1.NW-ALU149.spec.swan' 1 &
#6.50 'multi_1.NW-ALU150.spec.swan' 1 &
#7.00 'multi_1.NW-ALU151.spec.swan' 1 &
#7.50 'multi_1.NW-ALU152.spec.swan' 1 &
#8.00 'multi_1.NW-ALU153.spec.swan' 1 &
#8.50 'multi_1.NW-ALU154.spec.swan' 1 &
#9.00 'multi_1.NW-ALU155.spec.swan' 1 &
#9.20 'multi_1.NW-ALU156.spec.swan' 1
#NUM DIRimpl cdd=1 cdlim=2
#$END BOUNSEG
#
#========================================================================
# RIP CURRENT PROGRAM (SEE NWPS MANUAL) =
#========================================================================
# IF RIP CURRENT PROGRAM WILL BE RUN, then RIPCONT=1, Otherwise =0;
# Setting up RIPCONT here to zero will permanently disable RIP program.
#
export RIPPROG="0"
export RIPDOMAIN="CG2"
export RIPCONT="5m"
#
#___________________________________________________________________________
# RAY Section: Define a pair of rays to drop data out along critical contours
# for rip current program.
#
# Example: for data output every 2km along a 5m bathy contour
#
# RAY 'rayname' xp yp xq yq int xp yp xq yq
#
# RAY 'ray1' 282.85 34.628 282.85 34.62 2000 283.00 34.655 283.00 34.62
#
# ISOLINE '5mcont' 'ray1' BOTtom 10
# TABLE '5mcont' HEAD '5mtable' HSIGN TPS PDIR OUTPUT 20110825.1200 3.0 HR
#_____________________________________________________________________________
#
# THE FOLLOWING LINES MUST BE COMMENTED. IF YOU ADD RIP COMMAND LINES FOR YOUR
# DOMAIN, ADD THEM WITH THE "#" AS A FIRST CHARACTER, IF YOU DECIDE NOT TO USE RIP
# CURRENTS (RIPCONT="0") THEY WILL REMAIN AS A COMMENTED LINES. IF YOU DECIDE TO USE
# BOUNDARY CONDITIONS (BOUNCOND="1") NWPS WILL INCLUDE THE INFORMATION IN THE ACTUAL
# INPUT FILES WITH NOT COMMENT CHARACTER
# POIN '5mcont' 279.887 25.8725
#
#$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
#
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