<html><body><div style="color:#000; background-color:#fff; font-family:times new roman, new york, times, serif;font-size:12pt"><div><span>I haven't done that before. However, if I have this problem then, I will solve it this way: <br></span></div><div><br><span></span></div><div><span>Case-1: Non ventilated cavity: <br></span></div><div><span>I will assume that the cavity is an air layer with the properties of air. <br></span></div><div><br><span></span></div><div><span>Case-2: Ventilated Cavity: <br></span></div><div><br><span></span></div><div><span>I will create an unconditioned thermal zone for the cavity. I will search for some correlation to use for ventilation rate inside the cavity. Another alternative to calculate the mass flow rate would be to derive it analytically using Bernoulli equation. I will then use equation block in TRNSYS to calculate the flow rate and input the results in the cavity zone. </span></div><div><span>I don't know if
this approach is right for your application. <br></span></div><div><br><span></span></div><div><span>I think there is a TYPE that you could buy from TESS. <br></span></div><div><br><span></span></div><div><span>regards,</span></div><div><span>Saleh ALSaadi <br></span></div><div><br></div> <div style="font-family: times new roman, new york, times, serif; font-size: 12pt;"> <div style="font-family: times new roman, new york, times, serif; font-size: 12pt;"> <div dir="ltr"> <font face="Arial" size="2"> <hr size="1"> <b><span style="font-weight:bold;">From:</span></b> leen peeters <l.f.r.peeters@gmail.com><br> <b><span style="font-weight: bold;">To:</span></b> TRNSYS-users@cae.wisc.edu <br> <b><span style="font-weight: bold;">Sent:</span></b> Tuesday, July 31, 2012 12:38 AM<br> <b><span style="font-weight: bold;">Subject:</span></b> [TRNSYS-users] correct modelling of brick facade<br> </font> </div> <br>
<div id="yiv1390650027"><div>Hi all,</div><div> </div><div>when there is a typical construction of an outer wall with inside to outside:</div><div>plaster</div><div>brick</div><div>insulation</div><div>cavity</div><div>facade brick</div><div> </div>
<div>I wonder what the correct approach is...</div><div>I generally do not model the outside layer as te cavity is ventilated and there is no way to know what the ventiation rate will be in the cavity of my future wall.</div>
<div>However, if I do it that way, I could not leave the emissivity as it is for the insulation. That emissivity will react with the outside climate. In reality, it will exchange thermal energy with the inside of the facade brick, which gives a delayd effect and might be strongly influenced by the water content of those bricks.</div>
<div> </div><div>Any suggestions?</div><div> </div><div>Leen</div><div> </div>
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