In doing the pressure drop calculations based on the expansion of the 8"D to a 10"D and also eliminating the 45 degree elbows, do i need to calculate the SP gain in expansion(if so is the Static Regain factor = old cross sectional area/new?) or is it unnecessary if I just know how much...
In doing the pressure drop calculations based on the expansion of the 8"D to a 10"D and also eliminating the 45 degree elbows, do i need to calculate the SP gain in expansion(if so is the Static Regain factor = old cross sectional area/new?) or is it unnecessary if I just know how much...
I'm trying to redesign a pneumatic transport system, so I know that the optimum velocity to move my product is 5000 fpm and i know our production rates, my question is how do i know if the current duct sizes are suitable for the new air volume that i assumed
I'm trying to redesign a pneumatic transport system, so I know that the optimum velocity to move my product is 5000 fpm and i know our production rates, my question is how do i know if the current duct sizes are suitable for the new air volume that i assumed.
I'm trying to redesign a pneumatic transport system, so I know that the optimum velocity to move my product is 5000 fpm and i know our production rates, my question is how do i know if the current duct sizes are suitable for the new air volume that i assumed
