5.9 Two liquid storage systems are shown in Fig. E5.9. Each tank is 4 feet in diameter. For System I, the valve acts as a linear resistance with the flow-head relation q 8.33 h, where q is in gal/min and h is in feet. For SystemII, varia tions in liquid level h do not affect exit flow rate q. Suppose that each system is initially at steady state with 6ft and 7-50 gal/min and that at time t=0 the inlet flow rate suddenly changes from 50 to 70 gal/min. For each system determine the following information: (a) The transfer function H'(s)/Qj(s) where the primes denote deviation variables. (b) The transient response h(t) (c) The new steady-state levels. (d) If each tank is 8 ft tall, which tank overflows first? When? (e) Verify the results in (d) using computer simulation. 9 9 System l System II Figure E5.9
5.9 Two liquid storage systems are shown in Fig. E5.9. Each tank is 4 feet in diameter. For System I, the valve acts as a linear resistance with the flow-head relation q 8.33 h, where q is in gal/min and h is in feet. For SystemII, varia tions in liquid level h do not affect exit flow rate q. Suppose that each system is initially at steady state with 6ft and 7-50 gal/min and that at time t=0 the inlet flow rate suddenly changes from 50 to 70 gal/min. For each system determine the following information: (a) The transfer function H'(s)/Qj(s) where the primes denote deviation variables. (b) The transient response h(t) (c) The new steady-state levels. (d) If each tank is 8 ft tall, which tank overflows first? When? (e) Verify the results in (d) using computer simulation. 9 9 System l System II Figure E5.9
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
Related questions
Question
![5.9 Two liquid storage systems are shown in Fig. E5.9. Each
tank is 4 feet in diameter. For System I, the valve acts as a
linear resistance with the flow-head relation q 8.33 h,
where q is in gal/min and h is in feet. For SystemII, varia
tions in liquid level h do not affect exit flow rate q. Suppose
that each system is initially at steady state with 6ft and
7-50 gal/min and that at time t=0 the inlet flow rate
suddenly changes from 50 to 70 gal/min. For each system
determine the following information:
(a) The transfer function H'(s)/Qj(s) where the primes denote
deviation variables.
(b) The transient response h(t)
(c) The new steady-state levels.
(d) If each tank is 8 ft tall, which tank overflows first? When?
(e) Verify the results in (d) using computer simulation.
9
9
System l
System II
Figure E5.9](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F19032c14-8ebf-499e-908d-47a126d342e4%2F4747772e-aa4d-4afe-bbe1-2b5d95b34046%2F7918qtp.png&w=3840&q=75)
Transcribed Image Text:5.9 Two liquid storage systems are shown in Fig. E5.9. Each
tank is 4 feet in diameter. For System I, the valve acts as a
linear resistance with the flow-head relation q 8.33 h,
where q is in gal/min and h is in feet. For SystemII, varia
tions in liquid level h do not affect exit flow rate q. Suppose
that each system is initially at steady state with 6ft and
7-50 gal/min and that at time t=0 the inlet flow rate
suddenly changes from 50 to 70 gal/min. For each system
determine the following information:
(a) The transfer function H'(s)/Qj(s) where the primes denote
deviation variables.
(b) The transient response h(t)
(c) The new steady-state levels.
(d) If each tank is 8 ft tall, which tank overflows first? When?
(e) Verify the results in (d) using computer simulation.
9
9
System l
System II
Figure E5.9
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