6.16 A liquid surge system (p= constant) is designed with a side tank that normally is isolated from the flowing material as shown in Fig. E6.16. %3D 90- h1 91 92 Area = A1 R1 Area = A2 R2 %3D %3| Valve 1 Valve 2 Figure E6.16 (a) In normal operation, Valve 1 is closed (R, → co) and q, = 0. What is the transfer function relating changes in qo to changes in outflow rate q, for these conditions? %3D (b) Someone inadvertently leaves Valve 1 partially open (0 < R, < o0). What is the differential equation model for this system? (c) What do you know about the form of the transfer func- tion Q(s)/Q6(s) for Valve 1 partially open? Discuss but do not derive. (d) Is the response to changes in qo faster or slower for Case (b) compared to Case (a)? Explain why but do not derive an expression for the response.
6.16 A liquid surge system (p= constant) is designed with a side tank that normally is isolated from the flowing material as shown in Fig. E6.16. %3D 90- h1 91 92 Area = A1 R1 Area = A2 R2 %3D %3| Valve 1 Valve 2 Figure E6.16 (a) In normal operation, Valve 1 is closed (R, → co) and q, = 0. What is the transfer function relating changes in qo to changes in outflow rate q, for these conditions? %3D (b) Someone inadvertently leaves Valve 1 partially open (0 < R, < o0). What is the differential equation model for this system? (c) What do you know about the form of the transfer func- tion Q(s)/Q6(s) for Valve 1 partially open? Discuss but do not derive. (d) Is the response to changes in qo faster or slower for Case (b) compared to Case (a)? Explain why but do not derive an expression for the response.
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:6.16 A liquid surge system (p= constant) is designed with a
side tank that normally is isolated from the flowing material as
shown in Fig. E6.16.
%3D
90-
h1
91
92
Area = A1
R1
Area = A2
R2
%3D
%3|
Valve 1
Valve 2
Figure E6.16
(a) In normal operation, Valve 1 is closed (R, → co) and q, = 0.
What is the transfer function relating changes in qo to changes
in outflow rate q, for these conditions?
%3D
(b) Someone inadvertently leaves Valve 1 partially open
(0 < R, < o0). What is the differential equation model for this
system?
(c) What do you know about the form of the transfer func-
tion Q(s)/Q6(s) for Valve 1 partially open? Discuss but do not
derive.
(d) Is the response to changes in qo faster or slower for Case
(b) compared to Case (a)? Explain why but do not derive an
expression for the response.
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