How do i consider the thermal radiation in the overall coefficient of heat transfer without knowing the exit temperatures of both fluids. For that, i wanted to apply the e-method.
Many thanks Prof Biddle for this excellent lecture series -- this is of utmost importance to the mech engg community worldwide Wondering if you can post the databook that is given to students for their exams, will be helpful for us too
HAAAYI ISLOMO KODWA LOBABA MAAARN.........THIS PROF DESERVES A MONUMENT.
Thank professor for the great video!
How do i consider the thermal radiation in the overall coefficient of heat transfer without knowing the exit temperatures of both fluids. For that, i wanted to apply the e-method.
Many thanks Prof Biddle for this excellent lecture series -- this is of utmost importance to the mech engg community worldwide
Wondering if you can post the databook that is given to students for their exams, will be helpful for us too
What is the name of the book that Professor used, please tell me.
Thanks Professor...
The textbook is "Fundamentals of Heat and Mass Transfer", Bergman et al., 8th Edition.
@mithiljha4493 Thanks.
does someone know wich guide book are they using?
The textbook is "Fundamentals of Heat and Mass Transfer", Bergman et al., 8th Edition.
I think in the first question h must be 746.96 instead of 92.5
What about a case where we have no a constant Q? We have some heat losses from a pipe.
then go for Constant surface temperature
You deserve a statue
50 ft tall... with lasers!
💔 promosm