[MITgcm-support] The pressure gradient term (Um_dPdx & Vm_dPdy)in the momentum equation

yang zhibin 853245241 at qq.com
Tue Feb 19 04:56:29 EST 2019


Thanks a lot,


Cheers
Yang




------------------ Original ------------------
From:  "Jody Klymak"<jklymak at uvic.ca>;
Date:  Fri, Feb 15, 2019 01:18 AM
To:  "mitgcm-support"<mitgcm-support at mitgcm.org>;

Subject:  Re: [MITgcm-support] The pressure gradient term (Um_dPdx & Vm_dPdy)in the momentum equation



Hi Yang,

Ph includes the surface pressure anomaly (g\eta\rho’/\rho0)

https://gist.github.com/jklymak/156c30b5344a9cf63e8aebc429fee1c6

Cheers,  Jody

> On 14 Feb 2019, at 08:17, yang zhibin <853245241 at qq.com> wrote:
> 
> Hello, all,
> 
> I want to calculate the pressure gradient term in the momentum equation. In fact, I can directly diagnose this term using diagnostics pkg (which is called Um_dPdx & Vm_dPdy). But when I try to calculate this term, I found the result is not similar with the diagnostics output at all. 
> 
> My detailed method is as follow:
> 
> dPdx=d(PH-PHI_SURF)dx, PH is the direct output from model (in my mind, this term is hydrostatic pressure anomal, the vertical integral of rho-rhoconst), PHI_SURF is a diagnostics term which mean surf pressure (like g*eta).
> 
> I am not sure where is wrong of this calculation. So could anyone help me? Thanks a lot.
> 
> Cheers,
> 
> Yang 
> _______________________________________________
> MITgcm-support mailing list
> MITgcm-support at mitgcm.org
> http://mailman.mitgcm.org/mailman/listinfo/mitgcm-support

--
Jody Klymak    
http://web.uvic.ca/~jklymak/





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