The liquid fed to the mixing tank shown in the figure at constant temperature has been at constant temperature for a long time. It is cooled by the heat taken from the operating reactor jacket. After a while the cooling system temperature of the refrigerant changes. Q=UA (Tc- (T1)^1/3)) can be used for heat transfer from the tank jacket. Fo To Fe Terms:F (m³/dak), T (°C) V (m³) p (kg/m³), ep [kJ/(kg. °C)]. UA [kJ/(min. °C)]. a) derive the dynamic behavior of the temperature inside the tank b) determine the time constant and process gain values c) interpret the dynamic behavior of the system (stable/unstable; oscillating/non-oscillating)

The liquid fed to the mixing tank shown in the figure at constant temperature has been at constant temperature for a long time. It is cooled by the heat taken from the operating reactor jacket. After a while the cooling system temperature of the refrigerant changes. Q=UA (Tc- (T1)^1/3)) can be used for heat transfer from the tank jacket. Fo To Fe Terms:F (m³/dak), T (°C) V (m³) p (kg/m³), ep [kJ/(kg. °C)]. UA [kJ/(min. °C)]. a) derive the dynamic behavior of the temperature inside the tank b) determine the time constant and process gain values c) interpret the dynamic behavior of the system (stable/unstable; oscillating/non-oscillating)

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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Question

The liquid fed to the mixing tank shown in the figure at constant
temperature has been at constant temperature for a long time.
It is cooled by the heat taken from the operating reactor jacket.
After a while the cooling system
temperature of the refrigerant changes. Q=UA (Tc- (T1)^1/3)) can
be used for heat transfer from the tank jacket.
Fo
To
Terms:F (m'dak), I(C). V (m³), p (kg/m³), ep [kJ/(kg. °C)l
UA [kJ/(min. C)].
a) derive the dynamic behavior of the temperature inside the tank
b) determine the time constant and process gain values.
c) interpret the dynamic behavior of the system (stable/unstable;
oscillating/non-oscillating)
d) derive the dynamic behavior of the temperature in the tank jacket.
determine the time constant and process gain values
e) interpret the dynamic behavior of the system (for d the tank jacket)
(stable/unstable, oscillating/non-oscillating)

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Step 2: a. Derive the dynamic behavior of the temperature inside the tank

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Step 3: Derive the dynamic behavior of the temperature in the tank jacket

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