Great video again from VINCENT CFD. If you calculate the volume flow rate between the inlet ventilation and outlet ventilation, it would be very interesting to see.
@@vincentcfd9806 Hi Vincent, if I wanna evaluate the indoor thermal comfort and I've measured heat flux through the louvers. Should I define the window louver as solid domain? Any suggestions will be appreciated:)
Hi, to extract the heat flux information through the louvers, you will need to define the rate of heat transfer at the louvers. In Fluent, go to "Results" -> "Reports" -> double click on "Surface Integrals", then in the pop up window, choose "Flow Rate" for "Report Type", choose "Temperature" for "Field Variable", and select "Enthalpy" from the dropdown list underneath it, and select the surfaces of the louvers that you want to study. Then divide the rate of heat transfer (W) with the surface area of the louver (m^2) to get heat flux.
this was super helpful thank you!!
Great video again from VINCENT CFD. If you calculate the volume flow rate between the inlet ventilation and outlet ventilation, it would be very interesting to see.
hi... i noticed i missed out on the region name and type, please what can i do to fix it.
Why did you include the UDS, after the velocity at the outlet, converged? Does it not work if you include the UDS from the start? Thank you
In our work, the density is constant. So the source of mean air age will be constant everywhere. Kindly explain..
Really appreciate for ur work! Could u please share the link to the reference?
hi, the work has been sent for publication and is currently under review. I will put the link to the paper here once it's published. =)
@@vincentcfd9806 Hi Vincent,
if I wanna evaluate the indoor thermal comfort and I've measured heat flux through the louvers. Should I define the window louver as solid domain? Any suggestions will be appreciated:)
Hi, to extract the heat flux information through the louvers, you will need to define the rate of heat transfer at the louvers. In Fluent, go to "Results" -> "Reports" -> double click on "Surface Integrals", then in the pop up window, choose "Flow Rate" for "Report Type", choose "Temperature" for "Field Variable", and select "Enthalpy" from the dropdown list underneath it, and select the surfaces of the louvers that you want to study. Then divide the rate of heat transfer (W) with the surface area of the louver (m^2) to get heat flux.
@@vincentcfd9806 Thanks for your detailed answer, it helps me a lot :)
@@vincentcfd9806 Hi Vincent, I noticed ur work has been published in JWEIA, such a good journal, congrats! hh
How can I contact you? Maybe by email or WhatsApp.
You can email me: smart.virtual.laboratory@gmail.com