Answers of Cn2125
PROBLEM 15.15 (WWWR) A 0.20-m-thick brick wall (k=1.3W/m•K) separated the combustion zone of a furnace from its surroundings at 25℃. For an outside wall surface temperature of 100℃, with a convective heat transfer coefficient of 18 W/m2•K, what will be the inside wall surface temperature at steady-state conditions?
Solution :
q k = Tw = h(Ts − Tsurrounding ) A L
Tw =
=
h(Ts − Tsurrounding )i L k
Tinside =?
0.2m
Ts = 100°c
(18W / m.k )(75k )(20 × 10−2 m) 1.3(W / m.k )
Tsurrounding = 25°c
= 207.7k
Tinside = 100 + Tw = 307.7 C
PROBLEM 15.21 (WWWR)
The cross section of a storm window is shown in the sketch. How much heat will be lost through a window measuring 1.83m by 3.66 m on a cold day when the inside and outside air temperatures are, respectively, 295K and 250K? Convective coefficients on the inside and outside surfaces of a window are 20 W/m2•K and 15 W/m2•K, respectively. What temperature drop will exist across each of the glass panes? What will be the average temperature of the air between the glass panes?
Air space 0.8cm wide
Window glass--0.32 cm thick
Solution:
250k hi
Air space 0.8cm wide
295k h0
Window glass 0.32 cm thick
Ti
To
Ri
RGL
RAS
RGL
Ro
q=
T =? ∑R
Ri =
1 = 7.46 × 10−3 (20)(1.83)(3.66) 0.0032 = 6.125 × 10−4 (0.78)(1.83)(3.66) 0.008 = 0.0488 (0.0245)(1.83)(3.66)
RGL = RAS = R0 =
1 = 9.95 × 10−3 (15)(1.83)(3.66)
∑ R = 0.06744 q= T 45 = = 667W ∑ R 0.06744
PROBLEM 15.22 (WWWR) Compare the heat lost through the storm window described in problem 15.25 with the same conditions existing except that the window is a single pane of glass 0.32 cm thick. Solution:
For single pane of glass only ∑ R = Ri + RGL + RO = 0.018 q= T 45 = = 2500W ∑ R 0.018
PROBLEM 2.2 (ID)
KNOWN: Hot water pipe covered with thick layer of insulation. FIND: Sketch temperature distribution and give brief explanation to justify shape. SCHEMATIC:
ASSUMPTIONS: (1)
Solution :
q k = Tw = h(Ts − Tsurrounding ) A L
Tw =
=
h(Ts − Tsurrounding )i L k
Tinside =?
0.2m
Ts = 100°c
(18W / m.k )(75k )(20 × 10−2 m) 1.3(W / m.k )
Tsurrounding = 25°c
= 207.7k
Tinside = 100 + Tw = 307.7 C
PROBLEM 15.21 (WWWR)
The cross section of a storm window is shown in the sketch. How much heat will be lost through a window measuring 1.83m by 3.66 m on a cold day when the inside and outside air temperatures are, respectively, 295K and 250K? Convective coefficients on the inside and outside surfaces of a window are 20 W/m2•K and 15 W/m2•K, respectively. What temperature drop will exist across each of the glass panes? What will be the average temperature of the air between the glass panes?
Air space 0.8cm wide
Window glass--0.32 cm thick
Solution:
250k hi
Air space 0.8cm wide
295k h0
Window glass 0.32 cm thick
Ti
To
Ri
RGL
RAS
RGL
Ro
q=
T =? ∑R
Ri =
1 = 7.46 × 10−3 (20)(1.83)(3.66) 0.0032 = 6.125 × 10−4 (0.78)(1.83)(3.66) 0.008 = 0.0488 (0.0245)(1.83)(3.66)
RGL = RAS = R0 =
1 = 9.95 × 10−3 (15)(1.83)(3.66)
∑ R = 0.06744 q= T 45 = = 667W ∑ R 0.06744
PROBLEM 15.22 (WWWR) Compare the heat lost through the storm window described in problem 15.25 with the same conditions existing except that the window is a single pane of glass 0.32 cm thick. Solution:
For single pane of glass only ∑ R = Ri + RGL + RO = 0.018 q= T 45 = = 2500W ∑ R 0.018
PROBLEM 2.2 (ID)
KNOWN: Hot water pipe covered with thick layer of insulation. FIND: Sketch temperature distribution and give brief explanation to justify shape. SCHEMATIC:
ASSUMPTIONS: (1)