Temperature Difference from ROMS to HYCOM
Temperature Difference from ROMS to HYCOM
Hi,
I have a south china sea(SCS) modelling case using HYCOM data for ROMS initial field and boundary field.My temp field has a difference from HYCOM.
Configurations
The domain is 95~134E and 1~35N and we have spatial varying horizontal resolution from 10km to 5km.For vertical parameterization we take Vtrans=2,Vstr=4,theta_s=10,theta_b=2,hc=400,N=30;We also apply MY2.5 vertical turbulence scheme. NCEP reanalysis is provided for atmospheric forcing with BULK_FLUX defined.Please take a look at cpp file and input file attached for more details.
Results
We make some plots about temp difference from ROMS to HYCOM (say Troms-Thycom) at 50m and 100m to see what our vertical mixing is going on. Seeing in attachments,ROMS initial temp field at 50m is with no doubt similar to HYCOM.Then after 50 days ROMS temp field is cooler at some coastal slopes while at some basins it is warmer. The situation is developed 100 days after. Moreover,100m temp field indicates something like "upwelling" at slopes and "downwelling" at basins .But our SST is fine.
Has anyone got an idea about this situation?Or I just messed up some aspects of ROMS configurations?
Any comments is appreciated!
I have a south china sea(SCS) modelling case using HYCOM data for ROMS initial field and boundary field.My temp field has a difference from HYCOM.
Configurations
The domain is 95~134E and 1~35N and we have spatial varying horizontal resolution from 10km to 5km.For vertical parameterization we take Vtrans=2,Vstr=4,theta_s=10,theta_b=2,hc=400,N=30;We also apply MY2.5 vertical turbulence scheme. NCEP reanalysis is provided for atmospheric forcing with BULK_FLUX defined.Please take a look at cpp file and input file attached for more details.
Results
We make some plots about temp difference from ROMS to HYCOM (say Troms-Thycom) at 50m and 100m to see what our vertical mixing is going on. Seeing in attachments,ROMS initial temp field at 50m is with no doubt similar to HYCOM.Then after 50 days ROMS temp field is cooler at some coastal slopes while at some basins it is warmer. The situation is developed 100 days after. Moreover,100m temp field indicates something like "upwelling" at slopes and "downwelling" at basins .But our SST is fine.
Has anyone got an idea about this situation?Or I just messed up some aspects of ROMS configurations?
Any comments is appreciated!
- Attachments
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- CHY_N30_arti_2013.in
- (118.6 KiB) Downloaded 548 times
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- chy_bio.h
- (2.15 KiB) Downloaded 514 times
Re: Temperature Difference from ROMS to HYCOM
Hi,
I checked Haney number (rx1) field and found it coincide with slopes where upwelling current appeared.I think my rx1 field has a close relationship to the fake upwelling current,but neither clear how HPGE leads to upwelling nor know how to decrease rx1 factor directly.
Has anyone experienced this before? Look forward to your comments!
I checked Haney number (rx1) field and found it coincide with slopes where upwelling current appeared.I think my rx1 field has a close relationship to the fake upwelling current,but neither clear how HPGE leads to upwelling nor know how to decrease rx1 factor directly.
Has anyone experienced this before? Look forward to your comments!
Re: Temperature Difference from ROMS to HYCOM
Two days ago I smoothed the topography then I did a PGE test with no forcing
and made some simple cross-section figure to check if there is any false upwelling along the slope.
See attachments:
There is w velocity cross-section figure with its unit m/day at day30.The figure shows a strong upwelling at the deep slope and it apparently destroys
water stability.At this case my maximum rx0 factor is 0.3 and maximum rx1 factor is 7.7 which I think is reasonable ,
neither can I find much discussion about upwelling due to PGE from ROMS forum.Hence I'm not sure whether I should smooth more.
Has anyone encountered this situation before?
Hope for your participation!
Haiyun
and made some simple cross-section figure to check if there is any false upwelling along the slope.
See attachments:
There is w velocity cross-section figure with its unit m/day at day30.The figure shows a strong upwelling at the deep slope and it apparently destroys
water stability.At this case my maximum rx0 factor is 0.3 and maximum rx1 factor is 7.7 which I think is reasonable ,
neither can I find much discussion about upwelling due to PGE from ROMS forum.Hence I'm not sure whether I should smooth more.
Has anyone encountered this situation before?
Hope for your participation!
Haiyun
- Attachments
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- section_density.png (11.5 KiB) Viewed 13921 times
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- sigma_error_test.in
- (118.1 KiB) Downloaded 411 times
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- sigma_error_test.h
- (1.57 KiB) Downloaded 478 times
Re: Temperature Difference from ROMS to HYCOM
What do the horizontal currents from the pge with no forcing look like? ROMS vertical velocity is related to the horizontal velocity, it is computed diagnostically by integrating the continuity equation. It seems that somehow near the slope you are getting divergence/convergence of horizontal currents produced by the pge (which will probably be strongest near the slope as well) which in turns results in vertical velocity. That looks like complicated terrain, is it causing horizontal divergence?
The only real way to know if rx0 and rx1 are reasonable is to test your application i.e. case by case basis.
The only real way to know if rx0 and rx1 are reasonable is to test your application i.e. case by case basis.
Re: Temperature Difference from ROMS to HYCOM
Hi rduran,
Thank you for your reply.I make a gif of daily averaged velocity at bottom. The currents are developing all the time and they are obviously too strong.Yes I can see negative vorticity regions along the section line which cause upwelling,your notice is helpful!
I think the bottom velocity due to PGE is still too big (say >0.2m/s) and I have to decrease it more.BTW one thing I haven't made it clear yet is the "stuff" that goes with PGE as you mentioned at viewtopic.php?f=14&t=2841&p=10698&hilit ... rx1#p10698.
1.Is it means wave reflection,or momentum diffusion term?
2.Can I set TNU2 == 0 and VISC2 ==0 to minimize momentum diffusion term if it is the "stuff"?
Cheers,
Haiyun
Thank you for your reply.I make a gif of daily averaged velocity at bottom. The currents are developing all the time and they are obviously too strong.Yes I can see negative vorticity regions along the section line which cause upwelling,your notice is helpful!
I think the bottom velocity due to PGE is still too big (say >0.2m/s) and I have to decrease it more.BTW one thing I haven't made it clear yet is the "stuff" that goes with PGE as you mentioned at viewtopic.php?f=14&t=2841&p=10698&hilit ... rx1#p10698.
1.Is it means wave reflection,or momentum diffusion term?
2.Can I set TNU2 == 0 and VISC2 ==0 to minimize momentum diffusion term if it is the "stuff"?
Cheers,
Haiyun
- Attachments
-
- bottom_velocity.gif (1.42 MiB) Viewed 13823 times
Re: Temperature Difference from ROMS to HYCOM
For your information, you'd better run the PGE test with homogeneous(no stratification).
Joonho Lee
Re: Temperature Difference from ROMS to HYCOM
You should get a nicer result that way, but the standard PGE test has a density structure that's the same everywhere, but more complex than linear. The errors should go away for homogeneous fluid or for linear stratification.susonic wrote:For your information, you'd better run the PGE test with homogeneous(no stratification).
Re: Temperature Difference from ROMS to HYCOM
Its been some time since I last checked for a pge, but I do have a plan for next time I check for it and I can share it with you, just keep in mind it is only an idea at this point and I have not actually tested this test; this would be my first next pge test from which I may or may not need to adjust:1.Is it means wave reflection,or momentum diffusion term?
2.Can I set TNU2 == 0 and VISC2 ==0 to minimize momentum diffusion term if it is the "stuff"?
In my previous test I closed my open boundaries, the slope in an eastern ocean boundary created false momentum from the pge that then traveled as a coastally trapped wave / Kelvin Wave around my domain (including the closed boundaries) to then add to the momentum being generated over the slope once it completed a full circle. Because of this I will probably close my boundaries AND add a strong sponge layer to kill anything arriving to the boundary.
I would set diffusion of momentum to zero, and even better than setting the diffusion of temperature and salinity to zero, I would fix them by using TS_FIXED suppressing evolution of density. I would use the mean temperature and mean salinity profiles for my region (averaged from the initial conditions or from the model providing boundary conditions). Using the same vertical profile in each grid cell of course, so that the only difference from cell to cell is how it is discretized. As Kate mentioned you need a density profile beyond constant/linear with depth. I would keep an eye on where the pycnocline (here pycnocline=max buoyancy frequency) is: Are the strongest pge currents near the pycnocline depth? if so, I might need to make sure the test will work for my application -- the pge could be dependent to where the pycnocline is, and therefore a different density profile might generate a different pge. The pycnocline depth would interact differently with the topographic features found at different depths.
I would set advection of momentum to zero (linear model).
And obviously wind through time and the initial SSH, u and v all set to zero.
This should hopefully isolate what can generate momentum to just the pge and limit any influence to the pge-generated momentum.
Not sure if a complicated bathymetry like yours may need additional considerations but I guess you will find out. If you can share what you find that would be great.
Hope that helps.
Rodrigo.
Re: Temperature Difference from ROMS to HYCOM
Hi Rodrigo,
Thank you for sharing experience about pge test.I get a better understanding of pge and its influence factor.
Now rx0 is limited to not more than 0.1 and I do the pge test following your idea (sponge,nonlinear temp profile,zero u,v,zeta,etc) The pge test shows improvement compared with the previous which is good news for me! Now I am running the model using this grid file with the hope that it will be the solution.
At this point my topography could be very smooth and slope shape is obviously changed . I worry that the hydrodynamic force has gone far from reality.
Later I will do another test that limit rx0 to not more than 0.2 which make a compromise between pge and model hydrodynamic force.
Thank you for sharing experience about pge test.I get a better understanding of pge and its influence factor.
Now rx0 is limited to not more than 0.1 and I do the pge test following your idea (sponge,nonlinear temp profile,zero u,v,zeta,etc) The pge test shows improvement compared with the previous which is good news for me! Now I am running the model using this grid file with the hope that it will be the solution.
At this point my topography could be very smooth and slope shape is obviously changed . I worry that the hydrodynamic force has gone far from reality.
Later I will do another test that limit rx0 to not more than 0.2 which make a compromise between pge and model hydrodynamic force.
Re: Temperature Difference from ROMS to HYCOM
Hi,
Looking much much better (as far as spurious velocity is concerned), glad I could help. Possibly, you have reduced both terms on the right hand side of vel = PGE + stuff so who knows, perhaps a bit of a steeper topography is ok, probably a good idea to test with higher r.
Ocean models are simply not able to simulate the slope right now, that is just the way it is. We have to choose between the actual bathymetry or the actual zero pg with horizontally-constant stratification, can't have both. Z-level models don't have a pge problem but they have other problems notably a poor representation of the topography. Either way you cant have the actual slope without some potentially serious problems. And there is no good third vertical coordinate for a bottom (or surface) boundary layer, just those two.
Give it another 10 years or so and perhaps we can simulate the actual slope.
Looking much much better (as far as spurious velocity is concerned), glad I could help. Possibly, you have reduced both terms on the right hand side of vel = PGE + stuff so who knows, perhaps a bit of a steeper topography is ok, probably a good idea to test with higher r.
Ocean models are simply not able to simulate the slope right now, that is just the way it is. We have to choose between the actual bathymetry or the actual zero pg with horizontally-constant stratification, can't have both. Z-level models don't have a pge problem but they have other problems notably a poor representation of the topography. Either way you cant have the actual slope without some potentially serious problems. And there is no good third vertical coordinate for a bottom (or surface) boundary layer, just those two.
Give it another 10 years or so and perhaps we can simulate the actual slope.