1.Hot water at a temperature of Th is supplied to the jacket of a tank, shown inFigure-1 below. Heat is transferred at a rate of UA(Th – T(t)) from the jacket tothe tank content. This input causes a change in the liquid temperature, T(t).QinCpT(t)Figure-1: Water jacket heating system where Qin is the heat transferfrom jacket to the tank, T(t) is liquid temperature in the tank.The tank is insulated and therefore the energy balance over the system isgoverned by:Answer the following questions:dT (t)UA(Th T (t)) = mcp dt(a) Use Laplace transform to find T(t) with an initial condition of T(0) = 0 °C interms of the variables given in this problem.(b) How long does it take for 500 kg of liquid from 0 °C to reach 55 °C if hotwater at 90 °C circulates around the tank? The heat surface area (A) andoverall heat transfer coefficient (U) are 20 m² and 1.7 kWm-²K-¹,respectively (Cp = 0.7 kJkg-¹K-¹).

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Answered: Laplace transform to find T (t)

Engineering

Chemical Engineering

Laplace transform to find T (t)

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

100%

1.
Hot water at a temperature of Th is supplied to the jacket of a tank, shown in
Figure-1 below. Heat is transferred at a rate of UA(Th – T(t)) from the jacket to
the tank content. This input causes a change in the liquid temperature, T(t).
Qin
Cp
T(t)
Figure-1: Water jacket heating system where Qin is the heat transfer
from jacket to the tank, T(t) is liquid temperature in the tank.
The tank is insulated and therefore the energy balance over the system is
governed by:
Answer the following questions:
dT (t)
UA(Th T (t)) = mcp dt
(a) Use Laplace transform to find T(t) with an initial condition of T(0) = 0 °C in
terms of the variables given in this problem.
(b) How long does it take for 500 kg of liquid from 0 °C to reach 55 °C if hot
water at 90 °C circulates around the tank? The heat surface area (A) and
overall heat transfer coefficient (U) are 20 m² and 1.7 kWm-²K-¹,
respectively (Cp = 0.7 kJkg-¹K-¹).

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