Consider a composite wall containing 5-different materials as shown below. Calculate the rate of heat flow through the composite from the following data? X = 0.2 m XI = 0.4 m x3= 0.25 m K= 15 W/m."C K:= 15 W/m."C K3= 20 W/m. "C K= 35 W/m."C Ks= 30 W/m. "C h2 = 1 m h = 4 m h = 2 m %3D h. TA 120 C %3D т, T: Area in the direction of heat flow = 1 m? a) Evaluate the heat entering each layers .i.e.Q, . Q2. Q3 . Q, and Q5 a) Evaluate the internal temperatures T2 and T3
Consider a composite wall containing 5-different materials as shown below. Calculate the rate of heat flow through the composite from the following data? X = 0.2 m XI = 0.4 m x3= 0.25 m K= 15 W/m."C K:= 15 W/m."C K3= 20 W/m. "C K= 35 W/m."C Ks= 30 W/m. "C h2 = 1 m h = 4 m h = 2 m %3D h. TA 120 C %3D т, T: Area in the direction of heat flow = 1 m? a) Evaluate the heat entering each layers .i.e.Q, . Q2. Q3 . Q, and Q5 a) Evaluate the internal temperatures T2 and T3
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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X2=0.4
Transcribed Image Text:Consider a composite wall containing 5-different materials as shown below.
Calculate the rate of heat flow through the composite from the following data?
X = 0.2 m
XI = 0.4 m x3= 0.25 m
K= 15 W/m."C
K:= 15 W/m."C
K3= 20 W/m. "C
K= 35 W/m."C
Ks= 30 W/m. "C
h2 = 1 m
h = 4 m
h = 2 m
%3D
h.
TA
120 C
%3D
т,
T:
Area in the direction of heat flow = 1 m?
a) Evaluate the heat entering each layers .i.e.Q, . Q2. Q3 . Q, and Q5
a) Evaluate the internal temperatures T2 and T3
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