The temperatures shown in the figure have been determined via 2-dimensional finite difference analysis for the boundary conditions shown. What is the total heat transfer going out of the system? Ax = Ay = 19 cm. Express your answer in W. h = 35 W/m² K T=30°C convection boundary 2 49.52°C T = 100°C 5 84.69°C 1 T = 120°C Insulated 47.87°C 4 81.18°C 3 59.93°C 6 97.86°C
The temperatures shown in the figure have been determined via 2-dimensional finite difference analysis for the boundary conditions shown. What is the total heat transfer going out of the system? Ax = Ay = 19 cm. Express your answer in W. h = 35 W/m² K T=30°C convection boundary 2 49.52°C T = 100°C 5 84.69°C 1 T = 120°C Insulated 47.87°C 4 81.18°C 3 59.93°C 6 97.86°C
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Transcribed Image Text:The temperatures shown in the figure have been determined via 2-dimensional
finite difference analysis for the boundary conditions shown. What is the total
heat transfer going out of the system? Ax = Ay = 19 cm. Express your answer
in W.
h = 35 W/m² K
T=30°C
convection boundary
2
49.52°C
T = 100°C
5
84.69°C
1
T = 120°C
Insulated
47.87°C
4
81.18°C
3
59.93°C
6
97.86°C
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