[TRNSYS-users] surface temperature increased by ACH
Marion Hiller
Hiller at Transsolar.com
Thu Apr 26 23:53:47 PDT 2018
Dear Karol,
as always it is hard to tell without looking at the project.
I assume your airnode air temperature is lower in winter than in summer.
Therefore, the surface temperature can be increase by radiative gains
For example if your ideal heating has defined a radiative part > 0
or you have higher internal radiative gains defined in winter compared to summer.
Another possibility is that you have defined a boundary surface with a higher boundary temperature.
Regards,
Marion
-----------------------------------------------------------------------------------------------------------------------------------------------------------
Dipl.-Ing. Marion Hiller
TRANSSOLAR Energietechnik GmbH
Stuttgart - Munich - New York - Paris
t: +49.711.67976.0<tel:%2B49.711.67976.27> f: +49.711.67976.11<tel:%2B49.711.67976.11>
www.transsolar.com/<http://www.transsolar.com/>
KlimaEngineering - Technologien für energieeffizientes Bauen und Nutzerkomfort in Gebäuden
Transsolar Energietechnik GmbH, Curiestrasse 2, 70563 Stuttgart
Amtsgericht Stuttgart - HRB 23347 / Steuernummer: 99073/00911 / USt-IdNr.: DE 152272639
Geschäftsführer: Matthias Schuler, Thomas Auer, Stefan Holst, Dieter Schnelle
Von: TRNSYS-users [mailto:trnsys-users-bounces at lists.onebuilding.org] Im Auftrag von Karol Bandurski via TRNSYS-users
Gesendet: Donnerstag, 26. April 2018 12:58
An: TRNSYS-users at lists.onebuilding.org
Cc: Karol Bandurski <karol.bandurski at put.poznan.pl>
Betreff: [TRNSYS-users] surface temperature increased by ACH
Dear Experts,
I have created model of house (Type 56). Heating is set as ideal with some limitation in power.
Then I compare indoor surface temperature between case with 1.5 ACH infiltration and without (0 ACH).
It is appear that indoor surface temperature are higher in the winter and lower in the summer if infiltration is 1.5ACH.How it is possible?
Convective heat transfer coefficient are set constant (11 kJ/hm2K for indoor surfaces).
Regards,
Karol
--------------------------------------------------------------------
Karol BANDURSKI M. Sc.
Faculty of Civil and Environemntal Engeneering
Division of Heating, Air Conditioning and Air Protection
Poznan University of Technology
https://www.researchgate.net/profile/Karol_Bandurski
www.put.poznan.pl/~karol.bandurski<http://www.put.poznan.pl/~karol.bandurski>
-------------- next part --------------
An HTML attachment was scrubbed...
URL: <http://lists.onebuilding.org/pipermail/trnsys-users-onebuilding.org/attachments/20180427/11182d26/attachment.htm>
More information about the TRNSYS-users
mailing list