[MITgcm-support] 3D forcing for the momentum equations

Shevchenko, Igor i.shevchenko at imperial.ac.uk
Fri Feb 18 05:09:39 EST 2022


Hi  Jean-Michel,

Thank you. I will take a look.

Best regards,
Igor

________________________________________
From: MITgcm-support <mitgcm-support-bounces at mitgcm.org> on behalf of Jean-Michel Campin <jmc at mit.edu>
Sent: 17 February 2022 21:40
To: mitgcm-support at mitgcm.org
Subject: Re: [MITgcm-support] 3D forcing for the momentum equations

Hi Igor,

You may also want to take a look at "pkg/mypackage/" (MYPACKAGE_TENDENCY in MYPACKAGE_OPTIONS.h,
myPa_applyTendU, myPa_applyTendV as run-time parameters).

Cheers,
Jean-Michel

On Thu, Feb 17, 2022 at 04:28:03PM +0000, Shevchenko, Igor wrote:
> Hi Paul,
>
> Thank you! I will look into it.
>
> Best regards,
> Igor
>
> ________________________________________
> From: MITgcm-support <mitgcm-support-bounces at mitgcm.org> on behalf of Burns, Paul <P.Burns2 at exeter.ac.uk>
> Sent: 17 February 2022 14:56
> To: mitgcm-support at mitgcm.org
> Subject: Re: [MITgcm-support] 3D forcing for the momentum equations
>
> This email from P.Burns2 at exeter.ac.uk originates from outside Imperial. Do not click on links and attachments unless you recognise the sender. If you trust the sender, add them to your safe senders list<https://spam.ic.ac.uk/SpamConsole/Senders.aspx> to disable email stamping for this address.
>
>
>
> Hi Igor,
>
> Yes, you can use (possibly with a little modification) the MITgcm RBCS scheme.  The scheme gives the user the ability to force any or all points in the domain.  This is a good place to start:
> https://mitgcm.readthedocs.io/en/latest/phys_pkgs/rbcs.html
> 8.3.2. RBCS Package ? MITgcm checkpoint68f-7-g30a27da28 documentation - Read the Docs<https://mitgcm.readthedocs.io/en/latest/phys_pkgs/rbcs.html>
> 8.3.2. RBCS Package¶ 8.3.2.1. Introduction¶. pkg/rbcs provides the flexibility to relax fields (temperature, salinity, ptracers, horizontal velocities) in any 3-D location, thus can be used to implement a sponge layer, or a ?source? anywhere in the domain, among other uses.. For a field (\(T\)) at every grid point the tendency is modified so that:
> mitgcm.readthedocs.io
>
>
>
> All the best,
> Paul
>
>
>
>
> Dr Paul Burns MInstP FRMetS
>
> Research Fellow
>
> Geophysical and Astrophysical Fluid Dynamics Group
>
> Department of Mathematics
>
> Harrison Building
>
> University of Exeter
>
> ________________________________
> From: MITgcm-support <mitgcm-support-bounces at mitgcm.org> on behalf of Shevchenko, Igor <i.shevchenko at imperial.ac.uk>
> Sent: 17 February 2022 14:26
> To: mitgcm-support at mitgcm.org <mitgcm-support at mitgcm.org>
> Subject: [MITgcm-support] 3D forcing for the momentum equations
>
> CAUTION: This email originated from outside of the organisation. Do not click links or open attachments unless you recognise the sender and know the content is safe.
>
>
> Dear MITgcm Community,
>
> Does MITgcm provide a mechanism to inject a 3D forcing field (not just a surface one) into the momentum equations?
>
> Best regards,
> Igor
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