Q.5- Consider the liquid-level control system shown in Figure below. assume that the velocity of the power piston (valve) is proportional to pilot-valve displacement x, or dy/dt = K₁ x where K₁ is a positive constant. We also assume that the change in the inflow rate q; is negatively proportional to the change in the valve opening y, q₁ = -Kvy or Assuming the following numerical values for the system, C=2 m², R= 0.5 sec/m², Kv=1 m²/ sec a=0.25 m, b= 0.75 m, K₁=4 sec1 Obtain the transfer function H(s)/Qd(s). euf A.h AWW C(Capacitance) (Resistance)
Q.5- Consider the liquid-level control system shown in Figure below. assume that the velocity of the power piston (valve) is proportional to pilot-valve displacement x, or dy/dt = K₁ x where K₁ is a positive constant. We also assume that the change in the inflow rate q; is negatively proportional to the change in the valve opening y, q₁ = -Kvy or Assuming the following numerical values for the system, C=2 m², R= 0.5 sec/m², Kv=1 m²/ sec a=0.25 m, b= 0.75 m, K₁=4 sec1 Obtain the transfer function H(s)/Qd(s). euf A.h AWW C(Capacitance) (Resistance)
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Transcribed Image Text:Q.5- Consider the liquid-level control system shown in Figure below. assume that the
velocity of the power piston (valve) is proportional to pilot-valve displacement x,
dy/dt = K₁ X
where K₁ is a positive constant. We also assume
that the change in the inflow rate q; is negatively
proportional to the change in the valve opening y,
Q₁ = -Kv y
Assuming the following numerical values for the system,
C=2 m²,
R= 0.5 sec/m²,
K₁=1 m²/ sec
K₁=4 sec-¹
or
or
a=0.25 m,
b= 0.75 m,
Obtain the transfer function H(s)/Qd(s).
0.01
n.h
ANV
L=
C(Capacitance)
R
(Resistance)
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