Thank you for your video! For 3) what would the SS temperature distribution look like past the wall? Would there be a discontinuous jump at the boundary layer like this and asymptotically approach T_inf ?
Hello. In numerical modeling applying at mesh nodes a heat flux what results can give me? For example if a closed-loop heat pump is connected with some pipes which are extracting heat for the ground, can I model the heat exchanger pipes as heat source through a heat flux by defining it at different time-steps based of the building needs or is it better to rather impose the input temperature resulted from power needed and temperature which is coming out from the soil? I don't understand how exactly this initial conditions works and what can I get out from them. I need the difference between inlet/outlet temperature to determine how much of the power needed can the heat pump cover, but I don't know how should I put this into a numerical modelling. Maybe you can explain it to me or to guide me to some material where I can learn from. Thank you!!
Thank you Mr. Hugo. I learn a lot from your videos. Highly recommended to anyone who is struggling in Heat Transfer this subject.
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My secret weapon to acing my heat transfer class! Haha well not so secret since I’ll tell everyone about your channel. Thanks!
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Thanks you for the information... It's really helpfull and you teach it very nicely... I didn't understand when the same topic I learn in college
Why does having zero heat flux at the wall make the Temp profile be concave down?
Great video. Thx u.
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excellent, thank you!
ua-cam.com/video/R8F7KfY1Lvo/v-deo.html
Thank you for your video! For 3) what would the SS temperature distribution look like past the wall? Would there be a discontinuous jump at the boundary layer like this and asymptotically approach T_inf ?
ua-cam.com/video/R8F7KfY1Lvo/v-deo.html
Hello. In numerical modeling applying at mesh nodes a heat flux what results can give me? For example if a closed-loop heat pump is connected with some pipes which are extracting heat for the ground, can I model the heat exchanger pipes as heat source through a heat flux by defining it at different time-steps based of the building needs or is it better to rather impose the input temperature resulted from power needed and temperature which is coming out from the soil? I don't understand how exactly this initial conditions works and what can I get out from them. I need the difference between inlet/outlet temperature to determine how much of the power needed can the heat pump cover, but I don't know how should I put this into a numerical modelling.
Maybe you can explain it to me or to guide me to some material where I can learn from. Thank you!!
ua-cam.com/video/R8F7KfY1Lvo/v-deo.html