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Fadhil Majnis
เข้าร่วมเมื่อ 1 ต.ค. 2011
Transfer Function Derivation of Non-interacting Tanks
Transfer Function Derivation of Non-interacting Tanks
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Transfer Function Derivation of Interacting Tanks
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Transfer Function Derivation of Interacting Tanks
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EP427 Chapter 3 Part 2 Pressure Drops in Pipelines
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Thank you for your useful and valuable shares. i have 60kw cooling lood requirment and i intent to locate a chiller with %20 bellow the capacity and suply this %20 with reserve tank how can i obtaine volume of the tank (the temprature of watter in resserve tank is 2c)
which book to follow?
Thank you sir.. this video is very helpful for Chemical engineering students.
how at unsteady state, mass flow rate of inlet and outlet are same ("w") when there is accumulation in the system?
The continuity equation states that the mass flow rate into a control volume must equal the mass flow rate out of that control volume, accounting for any accumulation within the volume.
there was a constant volume holdup in the system when analysis was being considered
how can i calculate the R and C ?
If the values are given, R can be calculated by height over the outflow rate. C can be calculated by inflow rate deduct outflow rate.
Thank you sir ....
Most welcome
Thank you Sir for the detailed derivation and explanation!
Really thanks about your this video, it's very helpfull for me
why does Q get an (s) term in laplace? i thought we were only takin laplace of T
We consider simultaneous changes in both Q and T. The effects of changes in both Q and T are additive.
Very nicely explained the concept along with the problem here. Thanks a lot
why R is equal to height devided by qo (flow out)?
We assume the volumetric flow rate, qo through the resistance, R is related to the head, h by a linear relationship. This one is referred to as a linear resistance when a pipe is a linear resistance if the flow is in the laminar range.