A thin plate is initially at a uniform temperature of 500°C. At a certain time t =0 the temperature of the east side of the plate is suddenly reduced to 0°C. The other surface is insulated. Use the fully implicit finite volume method in conjunction with a suitable time step size of 3s to calculate the transient temperature distribution of the slab at time t=30s. The data are: plate thickness L = 4 cm, thermal conductivity k = 20 W/m.K and ρc = 10 × 10^6 J/m3.K Answer by own.
A thin plate is initially at a uniform temperature of 500°C. At a certain time t =0 the temperature of the east side of the plate is suddenly reduced to 0°C. The other surface is insulated. Use the fully implicit finite volume method in conjunction with a suitable time step size of 3s to calculate the transient temperature distribution of the slab at time t=30s. The data are: plate thickness L = 4 cm, thermal conductivity k = 20 W/m.K and ρc = 10 × 10^6 J/m3.K Answer by own.
Principles of Heat Transfer (Activate Learning with these NEW titles from Engineering!)
8th Edition
ISBN:9781305387102
Author:Kreith, Frank; Manglik, Raj M.
Publisher:Kreith, Frank; Manglik, Raj M.
Chapter1: Basic Modes Of Heat Transfer
Section: Chapter Questions
Problem 1.6P: A square silicon chip 7mm7mm in size and 0.5-mm thick is mounted on a plastic substrate as shown in...
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A thin plate is initially at a uniform temperature of 500°C. At a certain time t =0 the temperature of the east side of the plate is suddenly reduced to 0°C. The other surface is insulated. Use the fully implicit finite volume method in conjunction with a suitable time step size of 3s to calculate the transient temperature distribution of the slab at time t=30s. The data are: plate thickness L = 4 cm, thermal conductivity k = 20 W/m.K and ρc = 10 × 10^6 J/m3.K
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