<div dir="ltr"><div>Hi Neks,</div><div><br></div><div><font color="#000000" face="Times New Roman">
</font></div><p style="margin:0cm 0cm 0pt"><span lang="EN-US" style="color:rgb(34,34,34);font-family:"Arial",sans-serif">I am reporting a turbulent pipe case with temperature
dependent viscosity and diffusivity and I would like to have a better
understanding of the numerical treatment of the momentum and thermal equations
when those properties varies. </span></p><div><font color="#000000" face="Times New Roman">
</font></div><p style="margin:0cm 0cm 0pt"><span lang="EN-US" style="color:rgb(34,34,34);font-family:"Arial",sans-serif"> </span></p><div><font color="#000000" face="Times New Roman">
</font></div><p style="margin:0cm 0cm 0pt"><span lang="EN-US" style="color:rgb(34,34,34);font-family:"Arial",sans-serif">I would highly appreciate if you could indicate a reference
(paper/thesis/document) where you describe how the code works in that situation. </span></p><div><font color="#000000" face="Times New Roman">
</font></div><p style="margin:0cm 0cm 0pt"><span lang="EN-US" style="color:rgb(34,34,34);font-family:"Arial",sans-serif"> </span></p><div><font color="#000000" face="Times New Roman">
</font><span lang="EN-US" style="color:rgb(34,34,34);font-family:"Arial",sans-serif">Thanks in advance.</span></div><div><span lang="EN-US" style="color:rgb(34,34,34);font-family:"Arial",sans-serif">Antonio</span><br>-- <br></div><div class="gmail_signature">ANTONIO ANTORANZ PERALES<br>Universidad Carlos III de Madrid</div>
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