S h,ft ↓ E f₁. gpm CA, (t), moles cm3 3 D,ft B 3-1. Consider the mixing process shown in Fig. P3-1. You may assume that the density of the input and output streams are very similar and that the flow rates fi and f2 are con- stant. It is desired to understand how each inlet concentration affects the outlet concentration. Develop the mathematical model, determine the transfer functions, and draw the block diagram for this mixing process. Show the units of all gains and time constants. CA(t), moles CC I f₂. 8pm CA(t), moles cm3 | I Fi wi all sin poi mix tran (a)
S h,ft ↓ E f₁. gpm CA, (t), moles cm3 3 D,ft B 3-1. Consider the mixing process shown in Fig. P3-1. You may assume that the density of the input and output streams are very similar and that the flow rates fi and f2 are con- stant. It is desired to understand how each inlet concentration affects the outlet concentration. Develop the mathematical model, determine the transfer functions, and draw the block diagram for this mixing process. Show the units of all gains and time constants. CA(t), moles CC I f₂. 8pm CA(t), moles cm3 | I Fi wi all sin poi mix tran (a)
Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Chapter1: Introduction
Section: Chapter Questions
Problem 1.1P
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Transcribed Image Text:Is
13.
SX
mol
3-1. Consider the mixing process shown in Fig. P3-1. You
may assume that the density of the input and output streams
are very similar and that the flow rates fi and f2 are con-
stant. It is desired to understand how each inlet concentration
affects the outlet concentration. Develop the mathematical
model, determine the transfer functions, and draw the block
diagram for this mixing process. Show the units of all gains
and time constants.
h,ft
f₁, gpm
(t), moles
CAL
cm3
Cons
De
T
8
D,ft
CA(t), moles
CC
O
f₂.gpm
CA₂ (t), moles
cm3
C
Fi
Wi
all
sin
(a)
po
mix
tran
n
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