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[TRNSYS-users] cooled ceiling
Dear TRNSYS 16 developers,
we have to complete a project with the new TRNBuild "cooled ceiling" option,
so we need to solve our problem as soon as possible. As explained in a
previous e-mail, we don't understand the problem about the missing outlet
fluid temperature.
Thank's in advance.
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Dear David,
in TRNBUILD exists a new option for the definition of a cooled ceiling
(different from the active layer model). We have already used walls with
active layer, obtaining the outlet temperature as a surface output (NTYPE
58). Now the problem is that using the cooled ceiling model, no output for
the outlet temperature exist! For this reason it is impossible
to link the otput of the model to the other types of TRNSYS Studio.
Thank's to all.
----- Original Message -----
From: David Bradley [SEL]
To: pietro finocchiaro
Cc: trnsys-users@engr.wisc.edu
Sent: Tuesday, May 10, 2005 6:44 PM
Subject: Re: [TRNSYS-users] Definition of a cooled ceiling
Dear Pietro,
Unless I am mistaken, the outlet temperature of the fluid in the active
layer is NTYPE 58. To obtain that output, you must select a zone, specify
that it is a "surface output" and then select the surface that is
appropriate. If you have segmented the surface, you will need to choose the
last segment in the list that comes up. As far as I am aware, the outlet
flow rate is not available. If you specify the inlet flow rate as an INPUT
to Type56, you can simply take the inlet value as equal to the outlet value.
I am not sure what to do if you have created a TRNBuild SCHEDULE for the
flow rate...
Kind regards,
David
pietro finocchiaro wrote:
Dear TRNSYS users,
I have a problem with the settings of a cooled ceiling during the
definition of outputs. In the surface output list isn't present the
temperature and flow rate of the outlet fluid (differently from the active
layer). Can anybody help me?
Thank's,
--------------------------------------------------------------
Pietro Finocchiaro
Dipartimento di Ricerche Energetiche ed Ambientali
Università di Palermo
Tel: +39 (0)91 236277
E-mail: finocchiaro@dream.unipa.it
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--
-----------------------------------------------------------
David BRADLEY
Solar Energy Laboratory - University of Wisconsin, Madison
1500 Engineering Drive
Madison, WI 53706
Ph: +1 608 263 1589
Fax: +1 608 262 8464
email: dbradley@engr.wisc.edu
web: http://sel.me.wisc.edu
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