Hi everyone,
I’m trying to simulate tide currents in Yangtze River Estuary with ROMS. I only used harmonic constants without currents as open boundary forcing, which were calculated from a big domain model. My colleges have run the model well using these harmonic constants with FVCOM and DELDT3D. However, surface elevations were overestimated in my model (Zob = 0.0003) (see Figure 1 ).
The open boundary options I used were shown below:
/*Open boundary options using only harmnic constant from sklec*/
#define RAMP_TIDES
#define SSH_TIDES
#define EAST_FSCHAPMAN
#define SOUTH_FSCHAPMAN
#define NORTH_FSCHAPMAN
#define EAST_FSOBC
#define SOUTH_FSOBC
#define NORTH_FSOBC
#define EAST_M2REDUCED
#define SOUTH_M2REDUCED
#define NORTH_M2REDUCED
#define FSOBC_REDUCED
#define ANA_FSOBC
#define ANA_M2OBC
Any suggestion is appreciated!
Problems with surface elevations
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fanzhongya
- Posts: 10
- Joined: Tue Dec 01, 2009 3:53 pm
- Location: SCIES,China
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fanzhongya
- Posts: 10
- Joined: Tue Dec 01, 2009 3:53 pm
- Location: SCIES,China
Re: Problems with surface elevations
fanzhongya wrote:Hi everyone,
I’m trying to simulate tide currents in Yangtze River Estuary with ROMS. I only used harmonic constants without currents as open boundary forcing, which were calculated from a big domain model. My colleges have run the model well using these harmonic constants with FVCOM and DELDT3D. However, surface elevations were overestimated in my model (Zob = 0.0003) (see Figure 1 ).
The open boundary options I used were shown below:
/*Open boundary options using only harmnic constant from sklec*/
#define RAMP_TIDES
#define SSH_TIDES
#define EAST_FSCHAPMAN
#define SOUTH_FSCHAPMAN
#define NORTH_FSCHAPMAN
#define EAST_FSOBC
#define SOUTH_FSOBC
#define NORTH_FSOBC
#define EAST_M2REDUCED
#define SOUTH_M2REDUCED
#define NORTH_M2REDUCED
#define FSOBC_REDUCED
#define ANA_FSOBC
#define ANA_M2OBC
Any suggestion is appreciated!
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