A long cylindrical shell outer radius is shown Assumptions: system is Thermal R₂ = 2 cm in cylindrical shell temperature Ti=10 c and outer wall at Constant temperature T₂ = 20c° Calculate the temperature at r=1.5 cm ( Consider conduction only) in of inner radius Ri=1cm and the Figure. The radial + is r Given: The differential The system is: d'T dr² Length Llom inner maintained at JT dr Wall of steady state conductivity, K = 22.5 W/mc, is constant. conduction. = 0 Constant is maintained • system follows Fourier's law of heat Heat loss in axial direction is negligible. R₁ 3 Ti Rz equation representing T₂

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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1
.
A long cylindrical shell
outer radius
R₂ = 2 cm
is
shown
in
cylindrical
shell
is
temperature Ti=10 c° and outer wall
at
Constant temperature T₂ = 20 C°
Calculate the temperature at r= 1.5 cm
(Consider
conduction only)
Assumptions:
system is
Thermal
in
Given: The
of inner
and
the figure. The
radial
+
The differential
The system is:
J²T
dr²
r
maintained at
steady state
conductivity, K = 22.5 w/mc,
system follows Fourier's law of heat
Heat loss in axial direction is negligible.
JT
dr
radius Ri=1cm
Length L=lom
inner
Wall
Constant
is maintained
= 0
of
is
Ti
RI
R₂
constant.
conduction.
equation representing
Tz
Transcribed Image Text:1 . A long cylindrical shell outer radius R₂ = 2 cm is shown in cylindrical shell is temperature Ti=10 c° and outer wall at Constant temperature T₂ = 20 C° Calculate the temperature at r= 1.5 cm (Consider conduction only) Assumptions: system is Thermal in Given: The of inner and the figure. The radial + The differential The system is: J²T dr² r maintained at steady state conductivity, K = 22.5 w/mc, system follows Fourier's law of heat Heat loss in axial direction is negligible. JT dr radius Ri=1cm Length L=lom inner Wall Constant is maintained = 0 of is Ti RI R₂ constant. conduction. equation representing Tz
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