From: geo_limnaios@hotmail.com To: trnsys-users@engr.wisc.edu Subject: PCM TYpe 204 Date: Fri, 5 Jun 2009 08:53:23 -0500 Hello TRNSYS Users, I'm Limnaios George and i'm working my masters thesis at Technical University of Crete. I want to use TRNSYS Type 204 for the simulation of PCM layers on a building. Has anyone used this type before? It takes forever to run an one week simulation...However the main problem is i cannot understand the way the model simulates a PCM layer... My questions are about the SUNSPACE example supplied into the files package loaded : There are 2 air zones in the TRNBUILD type 56 model of this example : SunZone and BackZone. SunZone is where "PCM wall" has been installed. So : - How to make the difference if we want "PCM layer" into all walls surfaces from SunZone, or only into some of them? - Why the resistance of the "PCM massless layer" created in TRNBUILD is only 0.1 m².K.h/kJ? - Why the "PCM wall" using the "PCM massless layer" into SunZone (boundary wall calling T_PCM input) presents a so small surface of 0.2 m²? - Why QCOMI is taken from the same "PCM Wall" (14) and not from other walls? - Do we have to change values into the 4 text external files supplied (NodeTemp.txt, Tila.txt, Ceff1.txt, ALKU.txt) or do we only have to call their path? - Why the PCMeT (average surface temperature of "PCM wall") calculated by type 204 is sent to the boundary "PCM wall" input (T_PCM) into type 56 ? type 204 receives QCOMI from 0.2 m² surface (14), and T_AIR from SunZone volume, then it calculates and sends T_PCM to boundary input for 0.2 m² surface (14) => I don't see in which way this sequence allows modelization of PCM introduction into a wall? I searched all the mailing list but i just found the same questions..and no answers... Please help...Thanks in advance Limnaios George Hotmail® has ever-growing storage! Don’t worry about storage limits. Check it out. Insert movie times and more without leaving Hotmail®. See how. |