I have a doubt for question 29th. Once fluidization is achieved, pressure remains constant, right? So pressure drop at the start of fluidization is same for both the cases ( g, porosity, density same), so why not A? kindly explain.
Kaustav, the aim of this problem is to find out the pressure drop of another gas (parameters given). 8400Pa/m is the pressure drop of Gas I and 18900Pa/m is the pressure drop of Gas II. You can calculate pressure drop using Burke Plummer Equation because the reynolds number is greater than 1000 and then solve for Gas II. I hope this helps and For further Queries, Please mail us showing how you have solved and then we can discuss.
Mam please do solubility problem
Please mention the names of best reference boooks for GATE 2022
Please refer to the description box of Gate2001 video. I have listed down all the reference books.
@@chemicalengineeringfriends217 Thanks a lot!
Nice mam
Keep supporting Mahadev! :)
Mam in que 44 the expression for t is in terms of mass ratio not mass fraction but u haven't converted it to mass ratio
Thanks for ped solution
PLS MAKE ANOTHER PART OF VIDEO
Eagerly waiting for gate 2003
I have a doubt for question 29th. Once fluidization is achieved, pressure remains constant, right? So pressure drop at the start of fluidization is same for both the cases ( g, porosity, density same), so why not A? kindly explain.
Kaustav, the aim of this problem is to find out the pressure drop of another gas (parameters given). 8400Pa/m is the pressure drop of Gas I and 18900Pa/m is the pressure drop of Gas II. You can calculate pressure drop using Burke Plummer Equation because the reynolds number is greater than 1000 and then solve for Gas II. I hope this helps and For further Queries, Please mail us showing how you have solved and then we can discuss.
Pls upload for 2003 as well
Waiting for 2004
If you have doubt in 2004, please Email us your problem.
ma'am can I get the pdf of answers ?
Sure, Please send us mail. Email ID is in the description box.