[TRNSYS-users] Re : Type 344a : Indoor Swimming Pool - Correction
Fabien Morice
fabien.morice at yahoo.fr
Thu Jun 14 23:45:48 PDT 2007
Correction
----- Message d'origine ----
De : Fabien Morice <fabien.morice at yahoo.fr>
À : hotline <hotline at transsolar.com>; Forum Trnsys <trnsys-users at engr.wisc.edu>
Envoyé le : Jeudi, 14 Juin 2007, 15h43mn 51s
Objet : [TRNSYS-users] Re : Type 344a : Indoor Swimming Pool
Thanks for your answer.
I need more explains.
1
What do you mean with "very low resistance value" ?
Can you give me a value ?
I don't know what are the differences between a massless layer and a massive layer.
I always work with massive layer !
Could you explain me ?
2
How do you coupling exchanges ?
It seems to me I must give 5 inputs to the type 56 :
- Temperature of pool water
- Heat flow rate by Convection
- Heat flow rate by Long-wave radiation
- Mass flow rate of Evaporation
- Heat flow rate by Evaporation
Can you help me for the coupling ?
3
I don't know which value to connect to the input 4 of the type 144 (Total Solar Radiation on a Horizontal Surface)
In the tutorial, I can read 2 differents things :
- "The short-wave thermal gain for an indoor pool have to be determined differently. When this Type is combined with type 56, the solar gain striking at the pool surface can be determined and used." (Basic physical principles)
- "not used for an indoor pool" (Description of inputs)
So, What the solution ?
4
For the input 5 : Temperature of the sky, Is it necessary for an inddor pool ?
5
For the input 7 : Short-wave radiation gain. The tutorial said to use Ntype 21 (QABSI) of the type 56. Do you know how this Ntype is calculated ?
Best regards.
Fabien Morice.
----- Message d'origine ----
De : hotline <hotline at transsolar.com>
À : Fabien Morice <fabien.morice at yahoo.fr>
Envoyé le : Jeudi, 14 Juin 2007, 14h42mn 57s
Objet : AW: Type 344a : Indoor Swimming Pool
Fabien,
I'm not sure if I understood completely your problem. However I would not model the pool by a zone but I would try to model the coupling between pool and zone by a massless boundary wall with very low resistance but with coupling temperature of the pool and an air/humidity exchange given by the evaporation mass flow.
With kind regards
Monika Schulz
TRANSSOLAR Software Team
hotline at transsolar.com
http://www.trnsys.de/
http://www.transsolar.com/__software/docs/trnsys/trnsys_uebersicht_de.htm
Transsolar KlimaEngineering - Technologien für energieeffizientes Bauen und Nutzerkomfort in Gebäuden
Transsolar Energietechnik GmbH, Curiestrasse 2, 70563 Stuttgart / Amtsgericht Stuttgart - HRB 23347 / USt-IdNr.: 99073/00911
Geschäftsführer: Dipl.Ing. Matthias Schuler, Dipl.Ing. Thomas Auer, Dipl.Phys. Stefan Holst
-----Ursprüngliche Nachricht-----
Von: Fabien Morice [mailto:fabien.morice at yahoo.fr]
Gesendet: Donnerstag, 14. Juni 2007 11:00
An: hotline; Forum Trnsys
Betreff: Type 344a : Indoor Swimming Pool
Hello everybody,
I have bought the type 344 of TRANSSOLAR.
In first, I have create a surface of water to consider the exchanges between the pool and the building.
But the thickness is limited (0.39 [m] otherwise I have an error (creating wall transfert function ...).
I would like to know if I must create a zone for the pool in changing the capacitance (water instead of air !).
Thanks to that, I could create a heating schedule of the water.
But I don't know how I must declare the surface of exchange between the pool and the building.
Anyone knows what I should do ?
Maybe anyone have an example ?
Thanks.
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