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Chun Kwong,<br>
If you have solar collectors that are truly integrated with the facade
of your building then you will need to define the building wall on
which the collectors are mounted as a BOUNDARY wall with a user defined
outside surface temperature and you will need to define a Type56 output
for either the inside surface temperature or for the energy transfered
out through the outside surface of that wall (QCOMO); which output you
need depends on your collector model. You then need a collector model
that takes either the energy conducted through its back side or the
inside surface temp of the wall and which calculates the temperature of
the interface between the wall and the collector. I believe that there
are some models like that in the TESS Green Building Library.<br>
Kind regards,<br>
david<br>
<br>
<br>
<a class="moz-txt-link-abbreviated" href="mailto:a8304506@graduate.hku.hk">a8304506@graduate.hku.hk</a> wrote:
<blockquote cite="mid:1234858099.499a7073c0dae@imp3.webmail.hku.hk"
type="cite">
<pre wrap="">Hello, Trnsys users.
I want to simulate a solar cooling system with the solar collectors mounted on
the external wall of a building. I suppose that I add an active layer on the
external of the wall with an input equivalent heat transfer coefficient for the
solar collectors. However, I don't konw how I can output that value from the
solar collector models (say Type71, Type73). Can anyone advise how I can make
it? Thank you!
Best Regards
LEE, Chun Kwong
Research assistant
Division of Building Science and Technology
City University of Hong Kong
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