############################################################################# # # # ww3_tbt1.1:Test script for WW-III, one-dimensional propagation # # over flat bottom with with mud layer # # 1) Dalrymple & Liu formulation (BT8) (slower) # # or # # 2) Ng formulation. (BT9) (faster) # # (this test was previously known as mud_test1, mud_test2) # # # # Model should be compiled with the switches : # # # # !/LN0 !/ST0 !/NL0 !/BT8 !/DB0 !/TR0 !/BS0 !/XX0 # # or # # !/LN0 !/ST0 !/NL0 !/BT9 !/DB0 !/TR0 !/BS0 !/XX0 # # Select the 'no source terms' option. # # !/PRn Selecting one of the propagation schemes. # # 1: First order. # # 2: Representative for all UQ schemes # # 3: Switch smoothing off to reproduce 2. # # !/WNX1 !/WNT1 !/CRX1 !/CRT1 Wind and current interpolation. # # !/O0 !/O1 !/O2 !/O3 !/O4 !/O5 !/O6 !/O7 Sdt out output options. # # !/F90 !/NOGRB !/SHRD !/FLX2 # # !/BT8 Muddy bed (Dalrymple & Liu). # # or # # !/BT9 Muddy bed (Ng). # # # # Remarks : # # # # - No other optional switches should be used. # # - User must select one of available switch inputs: # # switch_PRn : where n=1,2,3 indicating the propagation scheme # # - Test case input (default): # # * ww3_grid.inp : (default) # # + Spatial grid: 33 x 3 rectilinear grid (global) # # Grid type : rectilinear # # Coordinate system : Cartesian # # Index closure type : none # # Dimensions : 120 3 # # Increments (km) : 1.00 1.00 # # X range (km) : -1.00 118.00 # # Y range (km) : -1.00 1.00 # # + Spectral grid: # # Number of directions : 24 # # Directional increment (deg.): 15.0 # # First direction (deg.): 0.0 # # Number of frequencies : 3 # # Frequency range (Hz) : 0.0800-0.1250 # # Increment factor : 1.250 # # # # Waves propagate from low-x to high-x. Boundary forcing is constant (not # # updated) defined at x=0. SWH=1 m at boundary. Direction is 270 deg. # # Waves propagate over mud, starting from rest (except at boundary). # # Mud field is uniform. # # Since freq(2)=0.1 Hz, Cg~7.8 m/s, and X=118e+3, then t=4.2 hrs to # # reach approximate steady-state. However, in the default setup, # # the mud is so dissipative that no energy reaches high-x, so # # case is stationary by 3 hrs into simulation. # # # # Reference (w/plots): Rogers and Orzech, NRL Memorandum Report (2013) # # available from http://www7320.nrlssc.navy.mil/pubs.php # # # # Example run_test commands: # # (some details will vary by local system and configuration) # # ./bin/run_test -n 3 -p mpirun -s BT8_MPI ../model ww3_tbt1.1 # # ./bin/run_test -n 3 -p mpirun -s BT9_MPI ../model ww3_tbt1.1 # # ./bin/run_test -s BT8 ../model ww3_tbt1.1 # # ./bin/run_test -s BT9 ../model ww3_tbt1.1 # # # # Mark Orzech, Nov 2012 # # Erick Rogers, Nov 2013 # # # # Copyright 2009 National Weather Service (NWS), # # National Oceanic and Atmospheric Administration. All rights # # reserved. WAVEWATCH III is a trademark of the NWS. # # No unauthorized use without permission. # # # #############################################################################