[FLASH-USERS] Total energy and Laser Deposition

Sun Mar 10 01:14:20 EST 2019

Hi,

If your computational domain is set with free outflow conditions the
materials leave the domain carrying internal energy and kinetic energy
(outflow BC). In the laser slab problem setup, it might be possible the
background material and at later stages the targets material may flow out
the computational domain.
This is only one possibility .

On Sun, Mar 10, 2019, 10:38 AM Acharya, Nitish <nachary2 at ur.rochester.edu>
wrote:

> Thanks Klaus.
>
>
> Yes, indeed the "energies" in both of the sources have units of energy.
> Thanks so much for clarifying about it. Right now, I'm having an
> issue regarding laser energy deposition. How does it compare to total
> energy? From what I understand, any increase in total energy at any
> instant should equal total energy deposition until that time. However, I am
> getting Laser Energy Deposition higher than the total energy at almost all
> the time instants. Do you have any idea what's going on?
>
>
> Thanks,
>
> Nitish
>
>
> ------------------------------
> *From:* Klaus Weide <klaus at flash.uchicago.edu>
> *Sent:* Tuesday, March 5, 2019 6:23:05 PM
> *To:* Acharya, Nitish
> *Cc:* Scott Feister; flash-users at flash.uchicago.edu
> *Subject:* Re: [FLASH-USERS] Total energy and Laser Deposition
>
> On Tue, 5 Mar 2019, Acharya, Nitish wrote:
>
> > Thanks Scott. I thought it was ergs/g as the energies in FLASH
> > calculated seemed to be all specific energies. So, I did multiply the
> > energies by mass. Also, since it was a 2D domain, multiplication by mass
> > was infact mass per length. This is what I did. And I was wondering what
> > length parameter should I use to get the total energy.
>
> The integral quantities written to the flash.dat (or similar) file should
> have totals of *energy* in the appropriate columns, at least in 3D
> and in lower-D geometries when the "omitted directions" are angles not
> lengths. So for 2D cylindrical geometry, they are energies (integration
> over a full 2\pi range of azimuthal angle is implied).
>
> The "power" specified for the Laser energy deposition should indeed be
> a power (energy / time) also in the 2D cylindrical case, at least if
> ed_laser3Din2D is used (not sure about when ed_laser3Din2D is false).
> The "energies" in lasslab_LaserEnergyProfile.dat should then indeed
> have units of energy, not energy per length.
>
> You should NOT have to multiply by mass if you compare energies from
> those two sources (flash.dat and _LaserEnergyProfile.dat files).
> And I believe you should not have to multiply (or divide) by a length
> either, under the mentioned conditions.
>
> Klaus
>
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