Dear Jeannieboef, I am really interested in modelisation of heat exchange of a building with the ground. Could you post the reference you mentioned? By the way, you say “the added accuracy [of modeling heat exchange with the ground] to yearly energy consumption is not that big”. Could you precise if this sentence is based on your feeling, on your experience or on some published results? In my experience, it really depends on the building type and on the ratio between height and floor area. Thank you for your help. Best regards, Marcello Caciolo Responsable Outils et Méthodes d'Analyse Energétique
Cellule Efficacité Energétique et Environnementale - Pôle Projets et Réalisations 46 Boulevard de la Prairie au Duc BP 40119 - 44201 Nantes Cedex 02 Tél.: +33 02 40 41 06 57 marcello.caciolo@cofelyaxima-gdfsuez.com
P Pensez à l'environnement avant d'imprimer ce message De : trnsys-users-bounces@cae.wisc.edu [mailto:trnsys-users-bounces@cae.wisc.edu] De la part de jeannieboef Envoyé : mercredi 4 juillet 2012 18:41 À : Herve Gaël Cc : trnsys-users@cae.wisc.edu Objet : Re: [TRNSYS-users] Air treatment unit / ground temperature model Just to re-itterate one of my favourite subjects... The ground temperature objects are good to use with anytype of ground heat exchanger (for example the two mentioned by David, namely earth tubes and Geothermal). It should, however not be used as the boundry condition on the ground bounding contructions of conditioned spaces. This is inaccurate and a mistake I am seeing often by Trnsys users. If using a constant value, I suggest the mean (day + night) monthly conditioned space temperature minus 2 Kelvin, for bounding constructions in the range of 150 to 300 mm without insulation. If you want to accurately model this, I suggest using the slab/basement types that do the 3d calculation for this. If you are a begginer, don't focus your efforts here as the added accuracy to yearly energy consuption is not that big. If you do use the complex modelling types also bear in mind the effects of ground water level on apparent soil temps. If anyone is really interested, I can post the links to some papers about this topic when I'm back at my desk tomorrow. Francis, You want to analyze your energy performance in heating and cooling, so first of all, I think you should do two separate simulations, one in heating and the other in cooling mode. I suppose that what you need to know is the power injected by your terminal unit in each room depending of the delta of temperature between the set point and the real temperature. You don’t need to know the blowing temperature and the flow rate… I think your solution is creating a multi dimensional data interpolation in a file function of water temperature, speed of blowing, etc… I hope this can help! Best, ___________________________________ Gaël HERVE Ingénieur Numéricien LQAI Avenue Jean Falconnier 01350 CULOZ Tél: +33 (0)4 79 42 64 30 Fax : +33 (0)4 79 42 40 13 Many thanks for your answer. I just need the ground temperature to modelise my basement. In my bui. I use an input Tsoil for "boundary userdefined" that's all. I will use your values if I don't find any. Otherwise to answer Jean question, I want to modelise to analyse energy performance, and to compare to reality my heat and cool needs. Hope u will be able to answer to my second question about my air treatment unit and the final regulation system. 2012/7/3 David BRADLEY <d.bradley@tess-inc.com> Francis, There is no difference between Type77 and Type501. The component started out in the TESS Libraries as Type501 but was donated to the standard library and given a new number. It is still in the TESS Libraries for backward compatibility. The thing to remember about that model is that it is an undisturbed ground temperature model meaning that no matter how much energy you remove from the ground or add to the ground, the ground temperature will only ever be a function of the time of year. If you are using this in a geothermal application where you are rejecting energy to the ground and removing energy from the ground, the ground temperature will be impacted and you should look at using Type557. If you are drawing air through tubes in the ground then you should look at using Type460 (Pierre Holmuller's earth duct model as implemented by Transsolar)
If you aren't able to find data for Type501 then the following will get you started: For the mean soil temperature, use the average annual air temperature for your location. For the amplitude, plot out the monthly average temperature for your location and calculate the biggest difference between the average annual temperature and the monthly average temperatures. For the time shift, use 30.
Best, David
On 7/2/2012 09:21, Francis KERBER wrote: I'm quite new on trnsys and I have few questions about my modelisation. Firstable, I'd like to simulate the ground temperature instead of using a constant, which is less precise. I heard about type 501 and type 77. Is there any difference between those types? Which one is the best? Moreover, where to find the informations the type needs as inputs, like mean soil temperature, amplitude of Paris...? My project includes a Air treatment unit with a wheel heat exchanger, two fans, and two batteries (warm water and cold water batteries). I get a final regulation system, wich is a ventilating and cooling or heating system (by warm water and cold water batteries as well), depending on the set temperature. I do understand the system but I don't really know how to modelise it. Is ther any existing type I can use? Should I detail each system like my fans, my batteries...which seems to be complicated. Moreover if I have this final regulation system in each room, must I create as much types as number of rooms? If u have any idea that would be helpful!!!!! Thanks a lot for ur answers
-- *************************** David BRADLEY Principal Thermal Energy Systems Specialists, LLC 22 North Carroll Street - suite 370 Madison, WI 53703 USA P:+1.608.274.2577 F:+1.608.278.1475 d.bradley@tess-inc.com http://www.tess-inc.com http://www.trnsys.com
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